blob_id stringlengths 40 40 | directory_id stringlengths 40 40 | path stringlengths 3 281 | content_id stringlengths 40 40 | detected_licenses listlengths 0 57 | license_type stringclasses 2 values | repo_name stringlengths 6 116 | snapshot_id stringlengths 40 40 | revision_id stringlengths 40 40 | branch_name stringclasses 313 values | visit_date timestamp[us] | revision_date timestamp[us] | committer_date timestamp[us] | github_id int64 18.2k 668M ⌀ | star_events_count int64 0 102k | fork_events_count int64 0 38.2k | gha_license_id stringclasses 17 values | gha_event_created_at timestamp[us] | gha_created_at timestamp[us] | gha_language stringclasses 107 values | src_encoding stringclasses 20 values | language stringclasses 1 value | is_vendor bool 2 classes | is_generated bool 2 classes | length_bytes int64 4 6.02M | extension stringclasses 78 values | content stringlengths 2 6.02M | authors listlengths 1 1 | author stringlengths 0 175 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ad18d9200e1912c46c1ab6b83a72f107dcb414a5 | 945e5d0338728b1411282325140b48ad29d2571c | /source/maizi/users/templatetags/myfilter.py | 315c1db6ff90c2c3a5f83f6c4d2d400e0c2c50df | [] | no_license | NickyWu123/MaiziEdu | 768b91499e4adcdf8e5cb937394bf8b8c79120bf | c46b9d793d2352dff3fea5acc1fceb4b1f853670 | refs/heads/master | 2020-12-24T06:12:07.360996 | 2016-11-08T10:56:28 | 2016-11-08T10:56:28 | 73,169,606 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 146 | py | # -*- coding: utf-8 -*-
from django import template
register = template.Library()
@register.filter
def email2name(key):
return key.split('@')[0] | [
"1075569650@qq.com"
] | 1075569650@qq.com |
002da74881db575d6ff7c07730665307babedfe2 | c12a32aa34dc141beff31cdceac68be4578ed9cf | /Snakefile | bca8d7129e54efffef219ca9d9363a12ac5569df | [] | no_license | taylorreiter/cosmo-kmers | a31f16fba24a0e45571a2e8182223e5965cd1afc | 94cc66ba101d56827f08129aa69473691b00c8f3 | refs/heads/master | 2020-06-20T23:24:41.127627 | 2020-04-18T16:03:42 | 2020-04-18T16:03:42 | 197,281,578 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 564 | include: 'snakefiles/data.snakefile'
include: 'snakefiles/classify.snakefile'
include: 'snakefiles/mgx.snakefile'
rule all:
input:
#expand('outputs/gather_human_micro/unassigned/{sample}.un', sample = SAMPLES)
#"outputs/cosmo/hmp_2k_t138_mtx.labels.txt",
#expand('outputs/mgx_sigs/{sample}_mgx.scaled2k.sig', sample = SAMPLES),
#"outputs/cosmo/hmp_2k_t138_mgx.labels.txt"
#"outputs/mtx_r1_megahit_done.txt"
aggregate_for_dvf
#expand("{sample}_k31_r1_hashval_k51/hashval_results.csv", sample = SAMPLES)
| [
"taylorreiter@gmail.com"
] | taylorreiter@gmail.com | |
acf0d6f6b28293d3fa1bfd2c8f09d6c148245659 | 45c25b56705c7782e9b547f18bce4459ac83d4ac | /build/config.gypi | 030baad2aa02a346830f639490aa2fb1f0f64cd8 | [] | no_license | stakeout/csssr-test | 14cbeef185c5411c39dd23b7527ab2ee347e7c94 | 10c32271802578ef3ed25d9b13de42b381d7783c | refs/heads/master | 2021-01-20T19:19:51.520894 | 2016-06-27T14:35:53 | 2016-06-27T14:35:53 | 60,634,306 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,551 | gypi | # Do not edit. File was generated by node-gyp's "configure" step
{
"target_defaults": {
"cflags": [],
"default_configuration": "Release",
"defines": [],
"include_dirs": [],
"libraries": []
},
"variables": {
"asan": 0,
"host_arch": "x64",
"icu_data_file": "icudt57l.dat",
"icu_data_in": "..\\..\\deps/icu-small\\source/data/in\\icudt57l.dat",
"icu_endianness": "l",
"icu_gyp_path": "tools/icu/icu-generic.gyp",
"icu_locales": "en,root",
"icu_path": "deps/icu-small",
"icu_small": "true",
"icu_ver_major": "57",
"node_byteorder": "little",
"node_enable_v8_vtunejit": "false",
"node_install_npm": "true",
"node_no_browser_globals": "false",
"node_prefix": "/usr/local",
"node_release_urlbase": "",
"node_shared_cares": "false",
"node_shared_http_parser": "false",
"node_shared_libuv": "false",
"node_shared_openssl": "false",
"node_shared_zlib": "false",
"node_tag": "",
"node_use_dtrace": "false",
"node_use_etw": "true",
"node_use_lttng": "false",
"node_use_openssl": "true",
"node_use_perfctr": "true",
"openssl_fips": "",
"openssl_no_asm": 0,
"target_arch": "x64",
"v8_enable_gdbjit": 0,
"v8_enable_i18n_support": 1,
"v8_no_strict_aliasing": 1,
"v8_optimized_debug": 0,
"v8_random_seed": 0,
"v8_use_snapshot": "true",
"want_separate_host_toolset": 0,
"nodedir": "C:\\Users\\stakeout\\.node-gyp\\6.2.0",
"copy_dev_lib": "true",
"standalone_static_library": 1
}
}
| [
"novash@tut.by"
] | novash@tut.by |
e690939d981b0797d6c1e0462b87509a33105f93 | 08e802066fbe75f4313dab14fdbf753f4085f2db | /evaluate.py | 4410fc4bc18500ce698fed623301c66c9c2fd1ad | [] | no_license | Full-Stack-Typhoon/STN-GTSB | e680b42729774d1331132c5c8f2d57740076f74a | 55d32aa6db3413e5d56d13d3d9f62de339a0c055 | refs/heads/master | 2023-01-27T12:04:15.691714 | 2020-07-27T02:22:54 | 2020-07-27T02:22:54 | 282,772,600 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,975 | py | from __future__ import print_function
import argparse
from tqdm import tqdm
import os
import PIL.Image as Image
import torch
from torch.autograd import Variable
import torch.nn.functional as F
import torchvision.datasets as datasets
from data import initialize_data # data.py in the same folder
from model import Net
parser = argparse.ArgumentParser(description='PyTorch GTSRB evaluation script')
parser.add_argument('--data', type=str, default='data', metavar='D',
help="folder where data is located. train_data.zip and test_data.zip need to be found in the folder")
parser.add_argument('--model', type=str, metavar='M',
help="the model file to be evaluated. Usually it is of the form model_X.pth")
parser.add_argument('--outfile', type=str, default='gtsrb_kaggle.csv', metavar='D',
help="name of the output csv file")
args = parser.parse_args()
state_dict = torch.load(args.model)
model = Net()
model.load_state_dict(state_dict)
model.eval()
from data import data_transforms
test_dir = args.data + '/test_images'
def pil_loader(path):
# open path as file to avoid ResourceWarning (https://github.com/python-pillow/Pillow/issues/835)
with open(path, 'rb') as f:
with Image.open(f) as img:
return img.convert('RGB')
output_file = open(args.outfile, "w")
output_file.write("Filename,ClassId\n")
for f in tqdm(os.listdir(test_dir)):
if 'ppm' in f:
data = data_transforms(pil_loader(test_dir + '/' + f))
data = data.view(1, data.size(0), data.size(1), data.size(2))
data = Variable(data, volatile=True)
output = model(data)
pred = output.data.max(1, keepdim=True)[1]
file_id = f[0:5]
output_file.write("%s,%d\n" % (file_id, pred))
output_file.close()
print("Succesfully wrote " + args.outfile + ', you can upload this file to the kaggle '
'competition at https://www.kaggle.com/c/nyu-cv-fall-2018/')
| [
"vikaspatidar@nyu.edu"
] | vikaspatidar@nyu.edu |
6de11477ac51ab34a279bbbe020cfae8a87cd518 | 80a81c6e46298ea3d7d15a075e6359e5937911eb | /travel_guider/main_app/urls.py | b3dad109047719512f6a52444504aa3621340df1 | [] | no_license | pranavmodx/InOut6.0 | 628408206f36501ffabbd291be6273c4c0e82f1d | fb31ea482cd1a185eccf9e1ddf3954085f5fec90 | refs/heads/master | 2020-08-21T20:02:41.897889 | 2019-10-20T10:39:00 | 2019-10-20T10:39:00 | 216,236,246 | 2 | 0 | null | null | null | null | UTF-8 | Python | false | false | 138 | py | from django.urls import path
from . import views
urlpatterns = [
path('search', views.location),
path('ga', views.all_guides),
]
| [
"kurian.bkk@gmail.com"
] | kurian.bkk@gmail.com |
c7b785d66e77bcc3c624b989a5fb4ac1850f82f0 | 692bbb2cb7170e9ef92e43d0a3a143aab4ca5e64 | /cd_custom_sale_credit/__openerp__.py | d0345caaf2ff4c0e38e1b660b2262533ba21c195 | [] | no_license | kailIII/O7-Custom-Sale-Credit | f1a0fa31677919dec74be462d62dc9b346d7f919 | bfbd31358d54777547ea422ab061e0c5fe964aca | refs/heads/master | 2021-01-21T15:43:17.079171 | 2014-12-01T03:21:31 | 2014-12-01T03:21:31 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 566 | py | # -*- coding: utf-8 -*-
{
'name': 'Personalizacion del Modulo de Venta',
'version': '1.0.0',
'category': 'Ventas',
'sequence': 3,
'author': 'Gerardo A Lopez Vega @glopzvega',
'website': 'http://www.codetodev.com',
'summary': "Permite customizar la vista de ventas",
'description': "Permite customizar la vista de ventas mostrando el credito del cliente",
'depends': ["sale"],
'data': [
'cd_custom_sale_credit_view.xml',
],
'installable': True,
'application': False,
'auto_install': False,
} | [
"mcgalv@gmail.com"
] | mcgalv@gmail.com |
d27b28efcb5be09b33ca429f48cfea363d519429 | f70e55037d6098ff30af5fe57050c5f1f09ae2f9 | /app/api/admin.py | 7e2f53b2236a84f095a329c6db6aaa11b13f4ecc | [] | no_license | apoorv-on-git/pixel-editor-v2 | 13191d7f106c5cb69468e77acbf0c0f1becba958 | 52ef95ee96166e542737304da3cdcb1ba6dec3fb | refs/heads/master | 2022-12-28T07:19:10.613298 | 2020-10-02T11:42:45 | 2020-10-02T11:42:45 | 265,566,161 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 6,861 | py | from flask import Blueprint, jsonify, request, session
from app.utils.role_util import *
from app.db_controllers.auth_controller import *
from app.db_controllers.admin_controller import *
from app.utils.s3 import *
from app.db_controllers.helper import *
from app.db_controllers.logging import *
import json
admin_api = Blueprint('admin_api', __name__, url_prefix="/admin-api")
@admin_api.route('/login', methods=['POST'])
def login():
try:
email = request.json.get('email')
password = request.json.get('password')
if not all((email, password)):
return jsonify({
'status': 'error',
'message': 'Both email and password are required!'
}), 400
response = login_firebase_user(email, password)
if response.get("success") and response.get("type").lower() == "admin":
session["admin_id"] = response.get("document_id")
session["email"] = response.get("email")
session["user_type"] = response.get("type")
return jsonify({
"status": "success",
}), 200
elif response.get("success"):
return jsonify({
"status": "error",
"message": "This login is only for admins!"
}), 400
else:
return jsonify({
"status": "error",
"message": response.get("error")
}), 400
except Exception as e:
log_error("api", "admin", str(e), "login")
return jsonify({
"status": "error",
"message": str(e)
}), 400
@admin_api.route("/logout", methods=["POST"])
@required_role_as_admin()
def logout():
try:
session["admin_id"] = None
session["email"] = None
session["user_type"] = None
return jsonify(
{
"status": "success",
}, 200
)
except Exception as e:
log_error("api", "admin", str(e), "logout")
return jsonify({
"status": "error",
"message": str(e)
}), 400
@admin_api.route("/upload-profile-image", methods=["POST"])
@required_role_as_admin()
def update_profile_image():
try:
profile_image = request.files.get('profile_image')
if profile_image:
url_endpoint = f"profile_images/{session.get('admin_id')}.{profile_image.filename.split('.')[-1]}"
delete_from_s3(url_endpoint)
upload_to_s3(url_endpoint, profile_image)
firebase_update_profile_image(session.get('admin_id'), f"{os.environ.get('S3_URL')}{url_endpoint}")
return jsonify(
{
"status": "success",
}, 200
)
except Exception as e:
log_error("api", "admin", str(e), "update_profile_image")
return jsonify({
"status": "error",
"message": str(e)
}), 400
@admin_api.route("/get-chapter-list")
@required_role_as_admin()
def get_chapter_list():
try:
grade = int(request.args.get("grade")) if request.args.get("grade") else None
if not grade:
return jsonify({
"data": [],
"status": "success"
}), 200
grade_dict = next((grade_dict for grade_dict in grade_breakdown if grade_dict.get('grade_number') == int(grade)), None)
chapter_list = [chapter_dict.get("chapter_number") for chapter_dict in grade_dict.get("chapters")]
return jsonify({
"data": chapter_list,
"status": "success"
}), 200
except Exception as e:
log_error("api", "admin", str(e), "get_chapter_list")
return jsonify({
"message": str(e),
"status": "error"
}), 400
@admin_api.route("/get-level-list")
@required_role_as_admin()
def get_level_list():
try:
grade = int(request.args.get("grade")) if request.args.get("grade") else None
chapter = int(request.args.get("chapter")) if request.args.get("chapter") else None
if not chapter or not grade:
return jsonify({
"data": [],
"status": "success"
}), 200
grade_dict = next((grade_dict for grade_dict in grade_breakdown if grade_dict.get('grade_number') == int(grade)), None)
chapter_dict = next((chapter_dict for chapter_dict in grade_dict.get("chapters") if chapter_dict.get('chapter_number') == int(chapter)), None)
level_list = [level_dict.get("level_number") for level_dict in chapter_dict.get("levels")]
return jsonify({
"data": level_list,
"status": "success"
}), 200
except Exception as e:
log_error("api", "admin", str(e), "get_level_list")
return jsonify({
"message": str(e),
"status": "error"
}), 400
@admin_api.route("/submit-question", methods=["POST"])
@required_role_as_admin()
def submit_question():
try:
firebase_submit_question(session.get('admin_id'))
return jsonify({
"message": "Saved successfully!",
"status": "success"
}), 204
except ValueError as e:
log_error("api", "admin", str(e), "submit_question")
return jsonify({
"message": str(e),
"status": "error"
}), 400
@admin_api.route("/disapprove-question", methods=["POST"])
@required_role_as_admin()
def disapprove_question():
try:
firebase_disapprove_question(session.get('admin_id'))
return jsonify({
"message": "Question disapproved successfully!",
"status": "success"
}), 204
except Exception as e:
log_error("api", "admin", str(e), "disapprove_question")
return jsonify({
"message": str(e),
"status": "error"
}), 400
@admin_api.route("/approve-question", methods=["POST"])
@required_role_as_admin()
def approve_question():
try:
firebase_approve_question(session.get('admin_id'))
return jsonify({
"message": "Question approved successfully!",
"status": "success"
}), 204
except Exception as e:
log_error("api", "admin", str(e), "approve_question")
return jsonify({
"message": str(e),
"status": "error"
}), 400
@admin_api.route("/delete-image", methods=["POST"])
@required_role_as_admin()
def delete_image():
try:
firebase_delete_image(session.get('admin_id'))
return jsonify({
"message": "Image deleted successfully!",
"status": "success"
}), 204
except Exception as e:
log_error("api", "admin", str(e), "delete_image")
return jsonify({
"message": str(e),
"status": "error"
}), 400
| [
"apoorvelous@gmail.com"
] | apoorvelous@gmail.com |
a2936518716f46a732c49bb4438e53440f319901 | 2879f990d80b916a952c058203440204541d4af7 | /fundamentals/session3/hw.session3/answer.py | 4d729278ed04bf2283c4c3419f06315743ede977 | [] | no_license | anhquan2505/nguyentrananhquan-fundamentals-c4e27 | 4c52d75a33aab9cae62885aca5a7f935f5b070e9 | b776e06fc26563a32212f411035f931e2e502062 | refs/heads/master | 2020-04-25T04:19:35.465522 | 2019-04-06T11:03:17 | 2019-04-06T11:03:17 | 172,506,933 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 825 | py | form=['T-Shirt', 'Sweater']
def addon():
new=input("enter new item: ")
form.append(new)
xuat()
def xuat():
print("our items: ")
for i in range(len(form)): print(i+1,".",form[i])
def update():
x=int(input("update position: "))
form[x-1]=input("enter new item: ")
xuat()
def delet():
x=int(input("delete position: "))
form.pop(x-1)
xuat()
ex=1
while(ex):
y=input("Welcome to our shop, what do you want (C, R, U, D)?")
y=y.upper()
if(y=='R'):
xuat()
print("type exit to exit")
elif(y=='C'):
addon()
print("type exit to exit")
elif(y=='U'):
update()
print("type exit to exit")
elif(y=='D'):
delet()
print("type exit to exit")
elif(y=='EXIT'):
ex=0
else:
print("try again") | [
"quanquytoc25052000@gmail.com"
] | quanquytoc25052000@gmail.com |
3e5f3130f9738ba4f15b928fe8f5c3a74cba0942 | 39bf4156130c3fa83465acd2897a775e5bb315c3 | /MHacksCashalyst/venv/bin/pip2 | 888c336e6353316eb11648c3c88c96c56bd1da30 | [
"Apache-2.0"
] | permissive | Sagarsaurus/Cashalyst | b5d8e51d204111dd37148aba509cfbd7074a81e4 | 6aad4c6d28124966f7c2312a80c16bd71b729ac1 | refs/heads/master | 2016-09-06T14:56:41.900287 | 2014-09-07T14:15:25 | 2014-09-07T14:15:25 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 242 | #!/home/sagar/Cashalyst/MHacksCashalyst/venv/bin/python
# -*- coding: utf-8 -*-
import re
import sys
from pip import main
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw|\.exe)?$', '', sys.argv[0])
sys.exit(main())
| [
"Sagarsaurus@github.com"
] | Sagarsaurus@github.com | |
5a53e41615f39015cfa2d0af16c6248ca4554853 | 69b6b7fc8cc2bab8e46b8db5ca2647a1cff26798 | /04_divisors.py | 79fbadfb7a240613678830da1535c5d5297d3f02 | [] | no_license | katecpp/PythonExercises | 7c8e54c9182521d3acea6b72715882e9b9e4315a | 4f57cc8e1e72ff5d3437558b4e7e312bdd1459b3 | refs/heads/master | 2020-04-18T07:48:09.432312 | 2016-11-29T10:55:06 | 2016-11-29T10:55:06 | 67,781,682 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 454 | py | #! python3
def readInteger(name):
value = ""
while value.isdigit() == False:
value = input("Enter " + name + " : ")
if value.isdigit() == False:
print("This is not a number!")
return int(value)
print("Divisor finder. What number you want to check?")
number = readInteger("number")
divisors = [x for x in range(1, number + 1) if number % x == 0]
print("The divisors of " + str(number) + " are: " + str(divisors))
| [
"kasia.macias@gmail.com"
] | kasia.macias@gmail.com |
eb358b6147afb1190aea50f70a2ea57683b256eb | 9b1cc2f4a85f6246d1cadabf9a49359b891351e0 | /Presprocess Data/MFCCs.py | 48eab257b6d7e10a7627e3b88b3d621c886efbca | [] | no_license | Rishabh40/Drone-Classifiaction-using-Deep-Learning | b3779882363d96200ea2d37ee1c416fc0cd1a01c | 47679615715418fecd4e61081414fb36a3f0455b | refs/heads/main | 2023-04-24T06:04:35.696913 | 2021-05-07T00:01:04 | 2021-05-07T00:01:04 | 362,565,160 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 2,491 | py | import numpy as np
import librosa
import librosa.display
import matplotlib.pyplot as plt
FIG_SIZE = (10, 7)
file = "B_S2_D1_070-bebop_000_.wav"
# file = "1-19111-A-240.wav"
# load audio file with librosa
signal, sample_rate = librosa.load(file, sr=22050)
# display waveform
plt.figure(figsize=FIG_SIZE)
librosa.display.waveplot(signal, sample_rate, alpha=0.4)
plt.xlabel("Time (s)")
plt.ylabel("Amplitude")
plt.title("Waveform")
# perform Fast Fourier transform
fft = np.fft.fft(signal)
# calculate abs values on complex numbers to get magnitude
spectrum = np.abs(fft)
# create frequency variable
f = np.linspace(0, sample_rate, len(spectrum))
# take half of the spectrum and frequency because the spectrum would be symmetrical
left_spectrum = spectrum[:int(len(spectrum)/2)]
left_f = f[:int(len(spectrum)/2)]
# plot spectrum
plt.figure(figsize=FIG_SIZE)
plt.plot(left_f, left_spectrum, alpha=0.4)
plt.xlabel("Frequency")
plt.ylabel("Magnitude")
plt.title("Power spectrum")
# short term fourier transform -> spectrogram
hop_length = 512 # in num. of samples
n_fft = 2048 # window in num. of samples
# calculate duration hop length and window in seconds
hop_length_duration = float(hop_length)/sample_rate
n_fft_duration = float(n_fft)/sample_rate
print("STFT hop length duration is: {}s".format(hop_length_duration))
print("STFT window duration is: {}s".format(n_fft_duration))
# perform stft
stft = librosa.stft(signal, n_fft=n_fft, hop_length=hop_length)
print(stft.shape)
# calculate abs values on complex numbers to get magnitude
spectrogram = np.abs(stft)
# display spectrogram
plt.figure(figsize=FIG_SIZE)
librosa.display.specshow(spectrogram, sr=sample_rate, hop_length=hop_length)
plt.xlabel("Time")
plt.ylabel("Frequency")
plt.colorbar()
plt.title("Spectrogram")
# apply logarithm to cast amplitude to Decibels
log_spectrogram = librosa.amplitude_to_db(spectrogram)
plt.figure(figsize=FIG_SIZE)
librosa.display.specshow(log_spectrogram, sr=sample_rate, hop_length=hop_length)
plt.xlabel("Time")
plt.ylabel("Frequency")
plt.colorbar(format="%+2.0f dB")
plt.title("Spectrogram (dB)")
# MFCCs
# extract 13 MFCCs
MFCCs = librosa.feature.mfcc(signal, sample_rate, n_fft=n_fft, hop_length=hop_length, n_mfcc=13)
print(MFCCs.shape)
# display MFCCs
plt.figure(figsize=FIG_SIZE)
librosa.display.specshow(MFCCs, sr=sample_rate, hop_length=hop_length)
plt.xlabel("Time")
plt.ylabel("MFCC coefficients")
plt.colorbar()
plt.title("MFCCs")
# show all the plots
plt.show()
| [
"arishabh106@gmail.com"
] | arishabh106@gmail.com |
46fcc38f84594d6958f6b45acd381e86adb3dc74 | ad255b99c699113075e21ecea6f12756b85f6c9b | /inscriptions/migrations/0001_initial.py | 2a071529050c7d9ac6a4edf868d283a0370396dd | [] | no_license | obiwankennedy/rcmsite | 107052c519f8bf08eb0eba51ea3d6cdc10b5f814 | aef69b9230ebfc2b5cc63bf7587a05baad5bb25a | refs/heads/master | 2020-12-04T04:08:45.670664 | 2020-01-03T14:27:18 | 2020-01-03T14:27:18 | 231,602,726 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 2,784 | py | # Generated by Django 2.1.1 on 2019-02-19 21:18
from django.db import migrations, models
import django.db.models.deletion
class Migration(migrations.Migration):
initial = True
dependencies = [
]
operations = [
migrations.CreateModel(
name='Event',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('name', models.CharField(max_length=200)),
('date_start', models.DateField()),
('date_end', models.DateField()),
],
),
migrations.CreateModel(
name='Game',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('title', models.CharField(max_length=200)),
('description', models.TextField()),
('punchline', models.TextField()),
('type_text', models.CharField(max_length=20)),
('imageUrl', models.URLField()),
],
),
migrations.CreateModel(
name='GameMaster',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('name', models.CharField(max_length=200)),
('first', models.CharField(max_length=200)),
('phone', models.CharField(max_length=200)),
('nick', models.CharField(max_length=200)),
('mail', models.EmailField(max_length=254)),
('moreInfo', models.TextField()),
('author', models.BooleanField()),
],
),
migrations.CreateModel(
name='Scenario',
fields=[
('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')),
('title', models.CharField(max_length=200)),
('duration', models.IntegerField()),
('level', models.CharField(choices=[('Beginner', 'Beginner'), ('Average', 'Average'), ('Veteran', 'Veteran')], default='Beginner', max_length=10)),
('maximumPlayers', models.IntegerField()),
('minimumPlayers', models.IntegerField()),
('description', models.CharField(max_length=200)),
('event', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='inscriptions.Event')),
('game', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='inscriptions.Game')),
('master', models.ForeignKey(on_delete=django.db.models.deletion.CASCADE, to='inscriptions.GameMaster')),
],
),
]
| [
"renaud@rolisteam.org"
] | renaud@rolisteam.org |
57384c4656a81e353c32e9f8b5b9f09be76387db | dc1d85ff7a2bbb59292e5226b73cacee5f40a159 | /Scripts/scRNAseq/InVitro/MM468/Persister/run_local_GRN_arboreto.py | 2aef1b7d9b42cace93f5af707e1239f2d160e8f7 | [] | no_license | vallotlab/ChemoPersistance | 09cdb36d9f9a8166d378ad5c6a65b2b093e15b29 | 2c546ef7293f9dd58e0acf1c5d16e7616cf6789a | refs/heads/master | 2023-04-11T23:17:37.864902 | 2021-11-02T12:12:23 | 2021-11-02T12:12:23 | 299,303,167 | 3 | 2 | null | null | null | null | UTF-8 | Python | false | false | 565 | py | import os
import pandas as pd
from arboreto.algo import grnboost2, genie3
from arboreto.utils import load_tf_names
wd = os.getcwd() + '/'
net1_ex_path = wd + 'int/1.1_exprMatrix_filtered_t.txt'
net1_tf_path = wd + 'int/1.1_inputTFs.txt'
ex_matrix = ex_matrix = pd.read_csv(net1_ex_path, sep='\t', index_col=0, header=None).T
ex_matrix.shape
tf_names = load_tf_names(net1_tf_path)
network = grnboost2(expression_data=ex_matrix,
tf_names=tf_names)
network.head()
network.to_csv('ex_01_network.tsv', sep='\t', header=False, index=False)
| [
"pacome.prompsy@curie.fr"
] | pacome.prompsy@curie.fr |
0430b585c6f5da83bef5507cb158267ac18d89c4 | 63b1a78452cb4204e501e023bd9f3c8a364b723c | /test_nbdev/_nbdev.py | 358f0ff246827f6c9ce7115b0bbb8ec347081e0d | [
"Apache-2.0"
] | permissive | teddyxiong53/test_nbdev | 03e22ef361a1768bc14f83cf617b8ab5fd172663 | 11d4ca82eedb45f4a3f687bd3e3d06336ebcbe9c | refs/heads/master | 2023-07-17T21:19:41.518320 | 2021-09-12T01:52:50 | 2021-09-12T01:52:50 | 405,512,137 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 331 | py | # AUTOGENERATED BY NBDEV! DO NOT EDIT!
__all__ = ["index", "modules", "custom_doc_links", "git_url"]
index = {"say_hello": "00_core.ipynb"}
modules = ["core.py"]
doc_url = "https://teddyxiong53.github.io/test_nbdev/"
git_url = "https://github.com/teddyxiong53/test_nbdev/tree/master/"
def custom_doc_links(name): return None
| [
"1073167306@qq.com"
] | 1073167306@qq.com |
b6575bb3e92eee5a044c75fa0be0aff7bff35a09 | 9a976fd6f420f871f1d99058eab6d944c9cc5202 | /problem_2_method_1.py | aaf8eb21773b4ac43f447c5fb9a3d9a2a95964ba | [] | no_license | arunenigma/Project-Euler- | 0e2bb1f5f899628c0a60bde59e2077511eea4531 | 364f28158cc4f12085d13ce342f4efbefeab99a0 | refs/heads/master | 2021-01-01T20:47:55.619091 | 2012-02-18T02:34:32 | 2012-02-18T02:34:32 | 3,467,948 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 581 | py | # Author -- Arunprasath Shankar
# Solved using recursion
# Run time is longer than the Matrix and Pure Math methods..
# Will post the Matrix and Pure Math Methods Shortly
import time
def fibo(n):
if n < 2:
return n
return fibo(n-2) + fibo(n-1)
sum = 0
list1 = map(fibo,range(2,36)) # choose range based on your intuition
print list1
list2 = []
start = time.clock()
for l in list1:
if l < 4000001 and l%2 == 0:
list2.append(l)
print list2
else:
pass
for l in list2:
sum = sum + l
end = time.clock()
print 'sum = %d' % sum
print 'Elapsed Time = ',end - start,'seconds'
| [
"arunprasath9586@gmail.com"
] | arunprasath9586@gmail.com |
181a12cec462f882b8a8dd0b2c576c760b0d125b | 420139f1472cc9169cc5ad397ee7685d3429e992 | /LeetCode-solutions/medium/tree/208-Implement-Trie-(Prefix-Tree).py | 1a248b4ad319b562c0fb7e818e45ed864ae37748 | [] | no_license | nabilatajrin/competitive-programming | 8f2447ce641e5cd5c791147bf4985a72b0084345 | e421d627df9a50314f65e23ade0e100581b36eaf | refs/heads/master | 2023-08-18T07:16:59.347895 | 2023-08-14T05:26:22 | 2023-08-14T05:26:22 | 174,977,783 | 3 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,024 | py | class TrieNode:
# Initialize your data structure here.
def __init__(self):
self.children = collections.defaultdict(TrieNode)
self.is_word = False
class Trie:
def __init__(self):
self.root = TrieNode()
def insert(self, word):
current = self.root
for letter in word:
current = current.children[letter]
current.is_word = True
def search(self, word):
current = self.root
for letter in word:
current = current.children.get(letter)
if current is None:
return False
return current.is_word
def startsWith(self, prefix):
current = self.root
for letter in prefix:
current = current.children.get(letter)
if current is None:
return False
return True
# Your Trie object will be instantiated and called as such:
# obj = Trie()
# obj.insert(word)
# param_2 = obj.search(word)
# param_3 = obj.startsWith(prefix)
| [
"noreply@github.com"
] | noreply@github.com |
06ca5a72c98a955d6bee2f5f458083b0f0522baf | cead7da1a5db7268079a0ea63ef22067eb35e4de | /p1.py | 07bfde20b9e9fefd0e2a677e3f177e02e455b20f | [] | no_license | sbharathc1/Pc-scan-script | 5b5ae9e4eec5218f499f7c437ff9ca22e1a5ba01 | 8480c656d4d5d42cff0e4c5eeeaf37b0ab946f1f | refs/heads/master | 2021-09-07T11:39:10.095359 | 2018-02-22T12:19:21 | 2018-02-22T12:19:21 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 2,304 | py | #!/usr/bin/env python3
import os
import operator
def get_size():
i=raw_input("please select an option\n1.scan entire pc(may take few minutes)\n2.scan only specified path\n")
i=i.replace(" ","")
while(1):
if(i=="1"):
start_path="/"
break
if(i=="2"):
start_path=raw_input("please provide your folder path\n")
while not os.path.exists(start_path):
start_path=raw_input("please provide valid and existing path\n")
break
i=raw_input("please enter 1 or 2\n")
print("scanning please wait............")
total_size = 0
E=[]
for dirpath, dirnames, filenames in os.walk(start_path):
for f in filenames:
fp = os.path.join(dirpath, f)
try:
total_size += os.path.getsize(fp)
#print fp
E.append((os.path.getsize(fp),f))
except:
pass
return E
P = get_size()
#print P
P = sorted(P,reverse=True)
i=0
mb=1024*1024
for one in P:
s=int(one[0])
s/=mb
print (one[1]+" "+str(s)+"MB")
i+=1
if i==10:
break
start_path=raw_input("enter source folder: ")
while(1):
if os.path.exists(start_path):
break
else:
start_path=raw_input("please provide valid and existing source folder path: ")
end_path=raw_input("enter destination folder: ")
while(1):
if os.path.exists(end_path):
break
else:
end_path=raw_input("please provide valid and existing destination folder path: ")
e=raw_input("do u have any exception extensions?(y/n): ")
while(1):
if e=='y':
break
elif e=='n':
break
else:
e=raw_input ("please enter y or n: ")
e_ext=[]
if e=='y':
print ("enter file extensions line by line and enter 'END' once all exceptions are given")
print ("eg: txt for .txt files")
while (1):
temp=raw_input()
temp=temp.replace(" ","")
if temp == 'END':
break
else:
e_ext.append(temp)
print("your exceptions")
for exc in e_ext:
print(exc)
#start_path="/home/bharath/tests"
#end_path="/home/bharath/Documents"
print("cleaning.......")
for f in os.listdir(start_path):
if not os.path.islink(f):
temp=f
tf,ext=os.path.splitext(temp)
ext=ext[1:]
if ext in e_ext or ext =="lnk" or ext == "url":
continue
k=0
t_start=start_path+"/"+f
t_end=end_path+"/"+ext
print (f)
if not os.path.exists(t_end):
os.makedirs(t_end)
os.rename(t_start,t_end+"/"+f)
else:
k=1
print("cleaning finished")
| [
"noreply@github.com"
] | noreply@github.com |
2a694eabe7199cc99ba33b4ee00cbceaed511c3c | ecc8ad26f7a4070650f0766875367f17aaa08bdf | /sdk/formrecognizer/azure-ai-formrecognizer/tests/test_receipt.py | bbe1a6fc0d2346a605fe8fffee885322ae139d8c | [
"LicenseRef-scancode-generic-cla",
"LicenseRef-scancode-unknown-license-reference",
"MIT"
] | permissive | SnehaGunda/azure-sdk-for-python | 70eec2fb331916cc2b2765b69bd8e598c1e95533 | 88fae6ec703ac3641459b5d07158c9ed710524fe | refs/heads/master | 2022-12-01T15:15:30.855201 | 2020-05-18T20:22:49 | 2020-05-18T20:22:49 | 265,086,816 | 0 | 0 | MIT | 2020-05-18T23:19:41 | 2020-05-18T23:19:40 | null | UTF-8 | Python | false | false | 25,075 | py | # coding=utf-8
# ------------------------------------
# Copyright (c) Microsoft Corporation.
# Licensed under the MIT License.
# ------------------------------------
from io import BytesIO
from datetime import date, time
from azure.core.exceptions import ClientAuthenticationError, ServiceRequestError, HttpResponseError
from azure.core.credentials import AzureKeyCredential
from azure.ai.formrecognizer._generated.models import AnalyzeOperationResult
from azure.ai.formrecognizer._response_handlers import prepare_us_receipt
from azure.ai.formrecognizer import FormRecognizerClient, FormContentType
from testcase import FormRecognizerTest, GlobalFormRecognizerAccountPreparer
class TestReceiptFromStream(FormRecognizerTest):
@GlobalFormRecognizerAccountPreparer()
def test_receipt_bad_endpoint(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
with open(self.receipt_jpg, "rb") as fd:
myfile = fd.read()
with self.assertRaises(ServiceRequestError):
client = FormRecognizerClient("http://notreal.azure.com", AzureKeyCredential(form_recognizer_account_key))
poller = client.begin_recognize_receipts(myfile)
@GlobalFormRecognizerAccountPreparer()
def test_authentication_successful_key(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.receipt_jpg, "rb") as fd:
myfile = fd.read()
poller = client.begin_recognize_receipts(myfile)
result = poller.result()
@GlobalFormRecognizerAccountPreparer()
def test_authentication_bad_key(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential("xxxx"))
with self.assertRaises(ClientAuthenticationError):
poller = client.begin_recognize_receipts(b"xx", content_type="image/jpeg")
@GlobalFormRecognizerAccountPreparer()
def test_passing_enum_content_type(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.receipt_png, "rb") as fd:
myfile = fd.read()
poller = client.begin_recognize_receipts(
myfile,
content_type=FormContentType.image_png
)
result = poller.result()
self.assertIsNotNone(result)
@GlobalFormRecognizerAccountPreparer()
def test_damaged_file_passed_as_bytes(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
damaged_pdf = b"\x25\x50\x44\x46\x55\x55\x55" # still has correct bytes to be recognized as PDF
with self.assertRaises(HttpResponseError):
poller = client.begin_recognize_receipts(
damaged_pdf,
)
@GlobalFormRecognizerAccountPreparer()
def test_damaged_file_bytes_fails_autodetect_content_type(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
damaged_pdf = b"\x50\x44\x46\x55\x55\x55" # doesn't match any magic file numbers
with self.assertRaises(ValueError):
poller = client.begin_recognize_receipts(
damaged_pdf,
)
@GlobalFormRecognizerAccountPreparer()
def test_damaged_file_passed_as_bytes_io(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
damaged_pdf = BytesIO(b"\x25\x50\x44\x46\x55\x55\x55") # still has correct bytes to be recognized as PDF
with self.assertRaises(HttpResponseError):
poller = client.begin_recognize_receipts(
damaged_pdf,
)
@GlobalFormRecognizerAccountPreparer()
def test_damaged_file_bytes_io_fails_autodetect(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
damaged_pdf = BytesIO(b"\x50\x44\x46\x55\x55\x55") # doesn't match any magic file numbers
with self.assertRaises(ValueError):
poller = client.begin_recognize_receipts(
damaged_pdf,
)
@GlobalFormRecognizerAccountPreparer()
def test_blank_page(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.blank_pdf, "rb") as fd:
blank = fd.read()
poller = client.begin_recognize_receipts(
blank,
)
result = poller.result()
self.assertIsNotNone(result)
@GlobalFormRecognizerAccountPreparer()
def test_passing_bad_content_type_param_passed(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.receipt_jpg, "rb") as fd:
myfile = fd.read()
with self.assertRaises(ValueError):
poller = client.begin_recognize_receipts(
myfile,
content_type="application/jpeg"
)
@GlobalFormRecognizerAccountPreparer()
def test_passing_unsupported_url_content_type(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with self.assertRaises(TypeError):
poller = client.begin_recognize_receipts("https://badurl.jpg", content_type="application/json")
@GlobalFormRecognizerAccountPreparer()
def test_auto_detect_unsupported_stream_content(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.unsupported_content_py, "rb") as fd:
myfile = fd.read()
with self.assertRaises(ValueError):
poller = client.begin_recognize_receipts(
myfile,
)
@GlobalFormRecognizerAccountPreparer()
def test_receipt_stream_transform_png(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
responses = []
def callback(raw_response, _, headers):
analyze_result = client._client._deserialize(AnalyzeOperationResult, raw_response)
extracted_receipt = prepare_us_receipt(analyze_result)
responses.append(analyze_result)
responses.append(extracted_receipt)
with open(self.receipt_png, "rb") as fd:
myfile = fd.read()
poller = client.begin_recognize_receipts(
stream=myfile,
include_text_content=True,
cls=callback
)
result = poller.result()
raw_response = responses[0]
returned_model = responses[1]
receipt = returned_model[0]
actual = raw_response.analyze_result.document_results[0].fields
read_results = raw_response.analyze_result.read_results
document_results = raw_response.analyze_result.document_results
# check hardcoded values
self.assertFormFieldTransformCorrect(receipt.merchant_address, actual.get("MerchantAddress"), read_results)
self.assertFormFieldTransformCorrect(receipt.merchant_name, actual.get("MerchantName"), read_results)
self.assertFormFieldTransformCorrect(receipt.merchant_phone_number, actual.get("MerchantPhoneNumber"), read_results)
self.assertFormFieldTransformCorrect(receipt.subtotal, actual.get("Subtotal"), read_results)
self.assertFormFieldTransformCorrect(receipt.tax, actual.get("Tax"), read_results)
self.assertFormFieldTransformCorrect(receipt.tip, actual.get("Tip"), read_results)
self.assertFormFieldTransformCorrect(receipt.total, actual.get("Total"), read_results)
self.assertFormFieldTransformCorrect(receipt.transaction_date, actual.get("TransactionDate"), read_results)
self.assertFormFieldTransformCorrect(receipt.transaction_time, actual.get("TransactionTime"), read_results)
# check dict values
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantAddress"), actual.get("MerchantAddress"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantName"), actual.get("MerchantName"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantPhoneNumber"), actual.get("MerchantPhoneNumber"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Subtotal"), actual.get("Subtotal"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Tax"), actual.get("Tax"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Tip"), actual.get("Tip"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Total"), actual.get("Total"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("TransactionDate"), actual.get("TransactionDate"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("TransactionTime"), actual.get("TransactionTime"), read_results)
# check page range
self.assertEqual(receipt.page_range.first_page, document_results[0].page_range[0])
self.assertEqual(receipt.page_range.last_page, document_results[0].page_range[1])
# check receipt type
self.assertEqual(receipt.receipt_type.confidence, actual["ReceiptType"].confidence)
self.assertEqual(receipt.receipt_type.type, actual["ReceiptType"].value_string)
# check receipt items
self.assertReceiptItemsTransformCorrect(receipt.receipt_items, actual["Items"], read_results)
# Check page metadata
self.assertFormPagesTransformCorrect(receipt.pages, read_results)
@GlobalFormRecognizerAccountPreparer()
def test_receipt_stream_transform_jpg(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
responses = []
def callback(raw_response, _, headers):
analyze_result = client._client._deserialize(AnalyzeOperationResult, raw_response)
extracted_receipt = prepare_us_receipt(analyze_result)
responses.append(analyze_result)
responses.append(extracted_receipt)
with open(self.receipt_jpg, "rb") as fd:
myfile = fd.read()
poller = client.begin_recognize_receipts(
stream=myfile,
include_text_content=True,
cls=callback
)
result = poller.result()
raw_response = responses[0]
returned_model = responses[1]
receipt = returned_model[0]
actual = raw_response.analyze_result.document_results[0].fields
read_results = raw_response.analyze_result.read_results
document_results = raw_response.analyze_result.document_results
page_results = raw_response.analyze_result.page_results
# check hardcoded values
self.assertFormFieldTransformCorrect(receipt.merchant_address, actual.get("MerchantAddress"), read_results)
self.assertFormFieldTransformCorrect(receipt.merchant_name, actual.get("MerchantName"), read_results)
self.assertFormFieldTransformCorrect(receipt.merchant_phone_number, actual.get("MerchantPhoneNumber"), read_results)
self.assertFormFieldTransformCorrect(receipt.subtotal, actual.get("Subtotal"), read_results)
self.assertFormFieldTransformCorrect(receipt.tax, actual.get("Tax"), read_results)
self.assertFormFieldTransformCorrect(receipt.tip, actual.get("Tip"), read_results)
self.assertFormFieldTransformCorrect(receipt.total, actual.get("Total"), read_results)
self.assertFormFieldTransformCorrect(receipt.transaction_date, actual.get("TransactionDate"), read_results)
self.assertFormFieldTransformCorrect(receipt.transaction_time, actual.get("TransactionTime"), read_results)
# check dict values
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantAddress"), actual.get("MerchantAddress"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantName"), actual.get("MerchantName"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantPhoneNumber"), actual.get("MerchantPhoneNumber"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Subtotal"), actual.get("Subtotal"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Tax"), actual.get("Tax"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Tip"), actual.get("Tip"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Total"), actual.get("Total"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("TransactionDate"), actual.get("TransactionDate"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("TransactionTime"), actual.get("TransactionTime"), read_results)
# check page range
self.assertEqual(receipt.page_range.first_page, document_results[0].page_range[0])
self.assertEqual(receipt.page_range.last_page, document_results[0].page_range[1])
# check receipt type
self.assertEqual(receipt.receipt_type.confidence, actual["ReceiptType"].confidence)
self.assertEqual(receipt.receipt_type.type, actual["ReceiptType"].value_string)
# check receipt items
self.assertReceiptItemsTransformCorrect(receipt.receipt_items, actual["Items"], read_results)
# Check form pages
self.assertFormPagesTransformCorrect(receipt.pages, read_results)
@GlobalFormRecognizerAccountPreparer()
def test_receipt_jpg(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.receipt_jpg, "rb") as fd:
receipt = fd.read()
poller = client.begin_recognize_receipts(receipt)
result = poller.result()
self.assertEqual(len(result), 1)
receipt = result[0]
self.assertEqual(receipt.merchant_address.value, '123 Main Street Redmond, WA 98052')
self.assertEqual(receipt.merchant_name.value, 'Contoso Contoso')
self.assertEqual(receipt.merchant_phone_number.value, '+19876543210')
self.assertEqual(receipt.subtotal.value, 11.7)
self.assertEqual(receipt.tax.value, 1.17)
self.assertEqual(receipt.tip.value, 1.63)
self.assertEqual(receipt.total.value, 14.5)
self.assertEqual(receipt.transaction_date.value, date(year=2019, month=6, day=10))
self.assertEqual(receipt.transaction_time.value, time(hour=13, minute=59, second=0))
self.assertEqual(receipt.page_range.first_page, 1)
self.assertEqual(receipt.page_range.last_page, 1)
self.assertFormPagesHasValues(receipt.pages)
self.assertIsNotNone(receipt.receipt_type.confidence)
self.assertEqual(receipt.receipt_type.type, 'Itemized')
self.assertReceiptItemsHasValues(receipt.receipt_items, receipt.page_range.first_page, False)
@GlobalFormRecognizerAccountPreparer()
def test_receipt_png(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.receipt_png, "rb") as stream:
poller = client.begin_recognize_receipts(stream)
result = poller.result()
self.assertEqual(len(result), 1)
receipt = result[0]
self.assertEqual(receipt.merchant_address.value, '123 Main Street Redmond, WA 98052')
self.assertEqual(receipt.merchant_name.value, 'Contoso Contoso')
self.assertEqual(receipt.subtotal.value, 1098.99)
self.assertEqual(receipt.tax.value, 104.4)
self.assertEqual(receipt.total.value, 1203.39)
self.assertEqual(receipt.transaction_date.value, date(year=2019, month=6, day=10))
self.assertEqual(receipt.transaction_time.value, time(hour=13, minute=59, second=0))
self.assertEqual(receipt.page_range.first_page, 1)
self.assertEqual(receipt.page_range.last_page, 1)
self.assertFormPagesHasValues(receipt.pages)
self.assertIsNotNone(receipt.receipt_type.confidence)
self.assertEqual(receipt.receipt_type.type, 'Itemized')
@GlobalFormRecognizerAccountPreparer()
def test_receipt_jpg_include_text_content(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.receipt_jpg, "rb") as fd:
receipt = fd.read()
poller = client.begin_recognize_receipts(receipt, include_text_content=True)
result = poller.result()
self.assertEqual(len(result), 1)
receipt = result[0]
self.assertFormPagesHasValues(receipt.pages)
for field, value in receipt.__dict__.items():
if field not in ["receipt_type", "receipt_items", "page_range", "pages", "fields", "form_type", "receipt_locale"]:
form_field = getattr(receipt, field)
self.assertTextContentHasValues(form_field.value_data.text_content, receipt.page_range.first_page)
for field, value in receipt.fields.items():
self.assertTextContentHasValues(value.value_data.text_content, receipt.page_range.first_page)
@GlobalFormRecognizerAccountPreparer()
def test_receipt_multipage(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
with open(self.multipage_invoice_pdf, "rb") as fd:
receipt = fd.read()
poller = client.begin_recognize_receipts(receipt, include_text_content=True)
result = poller.result()
self.assertEqual(len(result), 3)
receipt = result[0]
self.assertEqual(receipt.merchant_address.value, '123 Hobbit Lane 567 Main St. Redmond, WA Redmond, WA')
self.assertEqual(receipt.merchant_name.value, 'Bilbo Baggins')
self.assertEqual(receipt.merchant_phone_number.value, '+15555555555')
self.assertEqual(receipt.subtotal.value, 300.0)
# TODO: revert after service side fix
self.assertIsNotNone(receipt.total.value)
self.assertEqual(receipt.page_range.first_page, 1)
self.assertEqual(receipt.page_range.last_page, 1)
self.assertFormPagesHasValues(receipt.pages)
self.assertIsNotNone(receipt.receipt_type.confidence)
self.assertEqual(receipt.receipt_type.type, 'Itemized')
receipt = result[2]
self.assertEqual(receipt.merchant_address.value, '123 Hobbit Lane 567 Main St. Redmond, WA Redmond, WA')
self.assertEqual(receipt.merchant_name.value, 'Frodo Baggins')
self.assertEqual(receipt.merchant_phone_number.value, '+15555555555')
self.assertEqual(receipt.subtotal.value, 3000.0)
self.assertEqual(receipt.total.value, 1000.0)
self.assertEqual(receipt.page_range.first_page, 3)
self.assertEqual(receipt.page_range.last_page, 3)
self.assertFormPagesHasValues(receipt.pages)
self.assertIsNotNone(receipt.receipt_type.confidence)
self.assertEqual(receipt.receipt_type.type, 'Itemized')
@GlobalFormRecognizerAccountPreparer()
def test_receipt_multipage_transform(self, resource_group, location, form_recognizer_account, form_recognizer_account_key):
client = FormRecognizerClient(form_recognizer_account, AzureKeyCredential(form_recognizer_account_key))
responses = []
def callback(raw_response, _, headers):
analyze_result = client._client._deserialize(AnalyzeOperationResult, raw_response)
extracted_receipt = prepare_us_receipt(analyze_result)
responses.append(analyze_result)
responses.append(extracted_receipt)
with open(self.multipage_invoice_pdf, "rb") as fd:
myfile = fd.read()
poller = client.begin_recognize_receipts(
stream=myfile,
include_text_content=True,
cls=callback
)
result = poller.result()
raw_response = responses[0]
returned_model = responses[1]
actual = raw_response.analyze_result.document_results
read_results = raw_response.analyze_result.read_results
document_results = raw_response.analyze_result.document_results
page_results = raw_response.analyze_result.page_results
# check hardcoded values
for receipt, actual in zip(returned_model, actual):
if actual.fields is None: # second page is blank
continue
self.assertFormFieldTransformCorrect(receipt.merchant_address, actual.fields.get("MerchantAddress"), read_results)
self.assertFormFieldTransformCorrect(receipt.merchant_name, actual.fields.get("MerchantName"), read_results)
self.assertFormFieldTransformCorrect(receipt.merchant_phone_number, actual.fields.get("MerchantPhoneNumber"), read_results)
self.assertFormFieldTransformCorrect(receipt.subtotal, actual.fields.get("Subtotal"), read_results)
self.assertFormFieldTransformCorrect(receipt.tax, actual.fields.get("Tax"), read_results)
self.assertFormFieldTransformCorrect(receipt.tip, actual.fields.get("Tip"), read_results)
self.assertFormFieldTransformCorrect(receipt.total, actual.fields.get("Total"), read_results)
self.assertFormFieldTransformCorrect(receipt.transaction_date, actual.fields.get("TransactionDate"), read_results)
self.assertFormFieldTransformCorrect(receipt.transaction_time, actual.fields.get("TransactionTime"), read_results)
# check dict values
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantAddress"), actual.fields.get("MerchantAddress"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantName"), actual.fields.get("MerchantName"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("MerchantPhoneNumber"), actual.fields.get("MerchantPhoneNumber"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Subtotal"), actual.fields.get("Subtotal"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Tax"), actual.fields.get("Tax"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Tip"), actual.fields.get("Tip"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("Total"), actual.fields.get("Total"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("TransactionDate"), actual.fields.get("TransactionDate"), read_results)
self.assertFormFieldTransformCorrect(receipt.fields.get("TransactionTime"), actual.fields.get("TransactionTime"), read_results)
# check page range
self.assertEqual(receipt.page_range.first_page, actual.page_range[0])
self.assertEqual(receipt.page_range.last_page, actual.page_range[1])
# check receipt type
self.assertEqual(receipt.receipt_type.confidence, actual.fields["ReceiptType"].confidence)
self.assertEqual(receipt.receipt_type.type, actual.fields["ReceiptType"].value_string)
# check receipt items
self.assertReceiptItemsTransformCorrect(receipt.receipt_items, actual.fields["Items"], read_results)
# Check form pages
self.assertFormPagesTransformCorrect(returned_model, read_results)
| [
"noreply@github.com"
] | noreply@github.com |
7a8f1b0479cbefd64d2db8ef7b12f4b23e9c6d4e | 91b80ef798cbcdaab7f6ae0be994f5a3b12f1515 | /93.py | efbe3c264235342658f2009b27e588c2561b0992 | [] | no_license | luckkyzhou/leetcode | 13377565a1cc2c7861601ca5d55f6b83c63d490e | 43bcf65d31f1b729ac8ca293635f46ffbe03c80b | refs/heads/master | 2021-06-21T11:26:06.114096 | 2021-03-24T21:06:15 | 2021-03-24T21:06:15 | 205,568,339 | 0 | 1 | null | null | null | null | UTF-8 | Python | false | false | 961 | py | class Solution(object):
def restoreIpAddresses(self, s):
"""
:type s: str
:rtype: List[str]
"""
seg_count = 4
res = list()
segments = [0] * seg_count
def DFS(segIdx, segStart):
if segIdx == seg_count:
if segStart == len(s):
ip = ".".join(str(seg) for seg in segments)
res.append(ip)
return
if segStart == len(s):
return
if s[segStart] == '0':
segments[segIdx] = 0
DFS(segIdx+1, segStart+1)
addr = 0
for segEnd in range(segStart, len(s)):
addr = addr*10 + (ord(s[segEnd]) - ord("0"))
if 0 < addr <= 0xFF:
segments[segIdx] = addr
DFS(segIdx+1, segEnd+1)
else:
break
DFS(0, 0)
return res | [
"luckkyzhou@gmail.com"
] | luckkyzhou@gmail.com |
ff2532571c8166d3675284f76593bd1a95dab989 | 0fb92723a990013d9d3d9c213a222f8ff6b5b68a | /python-1/main.py | 79e538a0bd5eabda81bc7997e0a1bcdd95deed8b | [] | no_license | DiegoAbreu/DataScience-Desafios-Code-Nation | e0bef8e559b2bfe473e3ef685428496aeb777729 | 8b9d15e412811c4be3d4d0d72f578e45e73ee46b | refs/heads/master | 2020-03-30T02:17:23.660827 | 2018-10-02T17:12:52 | 2018-10-02T17:12:52 | 150,623,517 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,989 | py | # coding: utf-8
# Todas as perguntas são referentes ao arquivo `data.csv`
# Você ** não ** pode utilizar o pandas e nem o numpy para este desafio.
import csv
from collections import Counter
def ler_coluna(coluna):
data = []
with open('data.csv', 'r') as csv_file:
csv_reader = csv.DictReader(csv_file, delimiter=',')
for line in csv_reader:
data.append(line[coluna])
return data
# **Q1.** Quantas nacionalidades (coluna `nationality`) diferentes existem no arquivo?
def q_1():
nacionalidade = ler_coluna('nationality')
return len(set(nacionalidade))
pass
# **Q2.** Quantos clubes (coluna `club`) diferentes existem no arquivo?
def q_2():
times = ler_coluna('club')
return len(set(times))
pass
# **Q3.** Liste o primeiro nome dos 20 primeiros jogadores de acordo com a coluna `full_name`.
def q_3():
nome_completo = ler_coluna('full_name')
return nome_completo[0:20]
pass
# **Q4.** Quem são os top 10 jogadores que ganham mais dinheiro (utilize as colunas `full_name` e `eur_wage`)?
def q_4():
nome_completo = list(ler_coluna('full_name'))
salario = list(map(float, ler_coluna('eur_wage')))
top_10_salarios = sorted(zip(nome_completo, salario), reverse=True, key= lambda k: k[1])[:10]
nomes = []
for nome, _ in top_10_salarios:
nomes.append(nome)
return nomes
pass
# **Q5.** Quem são os 10 jogadores mais velhos?
def q_5():
nome_completo = list(ler_coluna('full_name'))
idade = list(map(int, ler_coluna('age')))
top_10_mais_velhos = sorted(zip(nome_completo, idade), reverse=True, key=lambda k: k[1])[:10]
nomes = []
for nome, _ in top_10_mais_velhos:
nomes.append(nome)
return nomes
pass
# **Q6.** Conte quantos jogadores existem por idade. Para isso, construa um dicionário onde as chaves são as idades e os valores a contagem.
def q_6():
idade = list(map(int, ler_coluna('age')))
return Counter(idade)
pass
| [
"diego.souza.abreu@gmail.com"
] | diego.souza.abreu@gmail.com |
e755ee2dc322d58d532060b4eff46793cc342710 | 9d73e270f44b8893c11d1aafb4c15a0d5b359bae | /alembic/versions/edeb7133b093_adds_pure_json_collection_meta_table.py | 0e99c90e269e1ee1fbc7673c06bdff0bad716d83 | [] | no_license | UMNLibraries/experts_dw | 55011ee5afda65ac26b57507aec07dd171b85217 | 897c5442fb6a92336247c1372e5387ee7dc60510 | refs/heads/main | 2023-04-27T19:08:38.045074 | 2023-04-27T18:34:55 | 2023-04-27T18:34:55 | 81,886,376 | 2 | 0 | null | 2022-04-12T20:03:01 | 2017-02-14T00:28:00 | Python | UTF-8 | Python | false | false | 1,338 | py | """Adds pure_json_collection_meta table.
Revision ID: edeb7133b093
Revises: d2a6a03e4c73
Create Date: 2020-11-10 12:22:04.523444
"""
from alembic import op
import sqlalchemy as sa
from sqlalchemy.dialects import oracle
# revision identifiers, used by Alembic.
revision = 'edeb7133b093'
down_revision = 'd2a6a03e4c73'
branch_labels = None
depends_on = None
def upgrade():
op.create_table('pure_json_collection_meta',
sa.Column('api_name', sa.String(length=255), nullable=False, comment='Name of the collection in the Pure API, i.e., in URL endpoints.'),
sa.Column('api_version', sa.String(length=15), nullable=False, comment='The Pure API version, without the decimal point, i.e., 516 for version 5.16.'),
sa.Column('family_system_name', sa.String(length=255), nullable=False, comment='Name of the collection in API change records, where it is called familySystemName.'),
sa.Column('local_name', sa.String(length=255), nullable=False, comment='Name of the collection as it appears in local table names.'),
sa.PrimaryKeyConstraint('api_name', 'api_version', 'family_system_name', 'local_name', name=op.f('pk_pure_json_collection_meta')),
comment='Maps Pure API collection names, family system names, and versions to local table names.'
)
def downgrade():
op.drop_table('pure_json_collection_meta')
| [
"nihiliad@gmail.com"
] | nihiliad@gmail.com |
f06015cdef49de3c91fb4a6212eece1e0d38b437 | c0bc042e73825a89949c1df1daefc41796903ae1 | /youtube/urls.py | aac35fa9fa3fba7ce66c1b936fd40c853849efae | [] | no_license | Pennylele/pennyfang_portfolio | 389aa93f392701ef5fa4f1a129d98c0ddd373dbc | b29706123b860d2378d89f0daa462b33e4609a68 | refs/heads/master | 2023-09-05T11:33:29.847845 | 2021-11-24T19:32:15 | 2021-11-24T19:32:15 | 325,154,462 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 474 | py | from .views import VideoListView, SearchResultsView, FilterByViews, VideoDetailView, Sync
from django.urls import path
app_name='youtube'
urlpatterns = [
path('', VideoListView.as_view(), name='home'),
path('search/', SearchResultsView.as_view(), name='search_results'),
path('sort-by-views/', FilterByViews.as_view(), name='sort_views'),
path('video-detail/<slug>/', VideoDetailView.as_view(), name='video_detail'),
path('sync/', Sync, name='sync'),
] | [
"fangle0121@gmail.com"
] | fangle0121@gmail.com |
241cafabc1786d18738a3dbb2c5762712ff8cf93 | 98ca37f5dd2751efaa060cca19e0b83f871d7765 | /sdk/translation/azure-ai-translation-document/tests/test_all_document_statuses.py | 57e1a2f437a4cfaf8be9034e89d309b760822451 | [
"LicenseRef-scancode-generic-cla",
"LGPL-2.1-or-later",
"MIT"
] | permissive | jayhebe/azure-sdk-for-python | 5ea99732ebb9929d3f6f77c08cc640d5915970b1 | f4455f85d9fe747fa4de2fdc691b975c07bfeea5 | refs/heads/main | 2023-06-24T01:22:06.602194 | 2021-07-28T02:12:25 | 2021-07-28T02:12:25 | 390,290,984 | 1 | 0 | MIT | 2021-07-28T09:23:46 | 2021-07-28T09:23:46 | null | UTF-8 | Python | false | false | 8,190 | py | # coding=utf-8
# ------------------------------------
# Copyright (c) Microsoft Corporation.
# Licensed under the MIT License.
# ------------------------------------
from datetime import datetime
import functools
from testcase import DocumentTranslationTest
from preparer import DocumentTranslationPreparer, DocumentTranslationClientPreparer as _DocumentTranslationClientPreparer
from azure.ai.translation.document import DocumentTranslationClient
import pytest
DocumentTranslationClientPreparer = functools.partial(_DocumentTranslationClientPreparer, DocumentTranslationClient)
class TestAllDocumentStatuses(DocumentTranslationTest):
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses(self, client):
docs_count = 5
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# list docs statuses
doc_statuses = list(client.list_all_document_statuses(poller.id)) # convert from generic iterator to list
self.assertEqual(len(doc_statuses), docs_count)
for document in doc_statuses:
self._validate_doc_status(document, target_language)
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_with_pagination(self, client):
docs_count = 10
results_per_page = 2
no_of_pages = docs_count // results_per_page
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# check doc statuses
doc_statuses_pages = list(client.list_all_document_statuses(translation_id=poller.id, results_per_page=results_per_page).by_page())
self.assertEqual(len(doc_statuses_pages), no_of_pages)
# iterate by page
for page in doc_statuses_pages:
page_items = list(page)
self.assertLessEqual(len(page_items), results_per_page)
for document in page_items:
self._validate_doc_status(document, target_language)
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_with_skip(self, client):
docs_count = 10
skip = 2
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# check doc statuses
doc_statuses = list(client.list_all_document_statuses(translation_id=poller.id, skip=skip))
self.assertEqual(len(doc_statuses), docs_count - skip)
# iterate over docs
for document in doc_statuses:
self._validate_doc_status(document, target_language)
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_filter_by_status(self, client):
docs_count = 10
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# list operations
statuses = ["NotStarted"]
doc_statuses = list(client.list_all_document_statuses(poller.id, statuses=statuses))
assert(len(doc_statuses) == 0)
statuses = ["Succeeded"]
doc_statuses = list(client.list_all_document_statuses(poller.id, statuses=statuses))
assert(len(doc_statuses) == docs_count)
statuses = ["Failed"]
doc_statuses = list(client.list_all_document_statuses(poller.id, statuses=statuses))
assert(len(doc_statuses) == 0)
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_filter_by_ids(self, client):
docs_count = 5
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# filter ids
doc_statuses = list(client.list_all_document_statuses(poller.id)) # convert from generic iterator to list
self.assertEqual(len(doc_statuses), docs_count)
ids = [doc.id for doc in doc_statuses]
ids = ids[:docs_count//2]
# do the testing
doc_statuses = list(client.list_all_document_statuses(poller.id, document_ids=ids))
self.assertEqual(len(doc_statuses), len(ids))
for document in doc_statuses:
self._validate_doc_status(document, target_language, ids=ids)
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_order_by_creation_time_asc(self, client):
docs_count = 5
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# check doc statuses
doc_statuses = list(client.list_all_document_statuses(poller.id, order_by=["created_on asc"])) # convert from generic iterator to list
self.assertEqual(len(doc_statuses), docs_count)
curr = datetime.min
for document in doc_statuses:
assert(document.created_on.replace(tzinfo=None) >= curr.replace(tzinfo=None))
curr = document.created_on
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_order_by_creation_time_desc(self, client):
docs_count = 5
target_language = "es"
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# check doc statuses
doc_statuses = list(client.list_all_document_statuses(poller.id, order_by=["created_on desc"])) # convert from generic iterator to list
self.assertEqual(len(doc_statuses), docs_count)
curr = datetime.max
for document in doc_statuses:
assert(document.created_on.replace(tzinfo=None) <= curr.replace(tzinfo=None))
curr = document.created_on
@DocumentTranslationPreparer()
@DocumentTranslationClientPreparer()
def test_list_document_statuses_mixed_filters(self, client):
docs_count = 10
target_language = "es"
skip = 1
results_per_page = 2
statuses = ["Succeeded"]
# submit and validate operation
poller = self._begin_and_validate_translation_with_multiple_docs(client, docs_count, language_code=target_language, wait=True)
# get ids
doc_statuses = list(client.list_all_document_statuses(poller.id)) # convert from generic iterator to list
self.assertEqual(len(doc_statuses), docs_count)
ids = [doc.id for doc in doc_statuses]
ids = ids[:docs_count//2]
filtered_docs = client.list_all_document_statuses(
poller.id,
# filters
document_ids=ids,
statuses=statuses,
# ordering
order_by=["created_on asc"],
# paging
skip=skip,
results_per_page=results_per_page
).by_page()
self.assertIsNotNone(filtered_docs)
# check statuses
counter = 0
curr_time = datetime.min
for page in filtered_docs:
page_docs = list(page)
self.assertLessEqual(len(page_docs), results_per_page) # assert paging
for doc in page_docs:
counter += 1
# assert ordering
assert(doc.created_on.replace(tzinfo=None) >= curr_time.replace(tzinfo=None))
curr_time = doc.created_on
# assert filters
self.assertIn(doc.status, statuses)
self.assertIn(doc.id, ids)
assert(counter == len(ids) - skip)
| [
"noreply@github.com"
] | noreply@github.com |
41236c0357826b9c316bfb542762b2e3691a8c22 | 9bbdd8a50c9a4e3c2543dce278f438fdca91fc8a | /project_django/urls.py | c860bad9028615be81d44bd24a5d921a9d682214 | [] | no_license | abhisekdey83/project_django | cfd3749c5ce0cf96210824fdec2fb83228f48718 | 9e9ae2190189b3915a39f48ac77de9261b6a119e | refs/heads/master | 2023-05-04T01:48:13.893957 | 2021-05-27T18:19:02 | 2021-05-27T18:19:02 | 371,349,552 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 798 | py | """project_django URL Configuration
The `urlpatterns` list routes URLs to views. For more information please see:
https://docs.djangoproject.com/en/2.2/topics/http/urls/
Examples:
Function views
1. Add an import: from my_app import views
2. Add a URL to urlpatterns: path('', views.home, name='home')
Class-based views
1. Add an import: from other_app.views import Home
2. Add a URL to urlpatterns: path('', Home.as_view(), name='home')
Including another URLconf
1. Import the include() function: from django.urls import include, path
2. Add a URL to urlpatterns: path('blog/', include('blog.urls'))
"""
from django.contrib import admin
from django.urls import path, include
urlpatterns = [
path('', include('calc.urls')),
path('admin/', admin.site.urls),
]
| [
"abhisek.consultant@gmail.com"
] | abhisek.consultant@gmail.com |
c7a257fcfb9671357743b523c722338a44377458 | 4e29a6fd4d278d6f21c3853262b13c46f43dad87 | /SeleniumScripts/pom/pages/util_methods.py | e39d99b5791af728f6a9f2e188e8f2886f32034c | [] | no_license | abheet/Selenium-Robot-Framework | 5df73337d6b55406b23321981ab992537b9bf02e | 0352fd58e45123f1a75c29f95702c2a2eeb17f51 | refs/heads/main | 2023-06-22T03:33:56.217975 | 2021-07-16T16:47:53 | 2021-07-16T16:47:53 | 301,199,103 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 3,194 | py | from selenium.webdriver.support.ui import WebDriverWait
from selenium.webdriver.support import expected_conditions as EC
from ..locators.locators import SignUpPageLocator
import config
def input_values(web_driver,locator,value=""):
"""Input/Enter Values for specific elements on page"""
try:
web_element = WebDriverWait(web_driver,10).until(
EC.presence_of_element_located(locator))
web_element.clear()
web_element.send_keys(value)
except Exception as err:
config.LOGGER.error("Element {} not captured {}".format(err,locator))
def get_values(web_driver, locator, element_attribute):
"""Get Values for specific elements on page"""
try:
element = WebDriverWait(web_driver, 30).until(
EC.presence_of_element_located(locator))
element_value = element.get_attribute(element_attribute)
return element_value
except Exception as err:
config.LOGGER.error("Element {} not captured {}".format(err,locator))
""" Below methods bring Dummy Emails for sign up activation link and password reset """
def get_dummy_email(driver):
"""
Function is to provide random dummy email address for signup flow.
Returns : Dummy email value
"""
try:
#temp storage for activation perpose, as it need to fetch related inbox
driver.get("https://emailfake.com")
dummy_email_locator = SignUpPageLocator.DUMMY_EMAIL_ID
#Dummy email address from util function
email = []
element = WebDriverWait(driver, 20).until(EC.visibility_of_element_located(dummy_email_locator))
email.append(element.get_attribute('innerHTML'))
config.LOGGER.info("Dummy email adrress generated: {}".format(email[0]))
return email[0]
except Exception as err:
config.LOGGER.error("Unable to load dummy email address {}".format(err))
def get_email_activation_link(driver,email):
""" Function fetch email activation link from provided dummy Email Inbox"""
try:
locator = SignUpPageLocator.CONFIRM_EMAIL_TEXT
inbox_url = "https://emailfake.com/{}".format(str(email))
#browse Above url to read received email from inbox
driver.get(inbox_url)
driver.implicitly_wait(40)
driver.refresh()
element = WebDriverWait(driver, 60).until(EC.presence_of_element_located(locator))
activation_link = []
activation_link.append(element.get_attribute('href'))
config.LOGGER.info("Activation link received: {}".format(element.get_attribute('href')))
return activation_link[0]
except Exception as err:
config.LOGGER.error("Look like activation link not received in inbox {}".format(err))
def read_sms_otp():
#Twilio API helps to validate AUTH OTP
import requests
url = 'https://api.twilio.com/2010-04-01/Accounts/{}/Messages.json?To=9285855239&DateSent='.format(config.TWILIO_ACCOUNT)
response = requests.get(url, auth=(config.TWILIO_ACCOUNT, config.TWILIO_AUTH_TOKEN))
otp = response.json()['messages'][0]['body'].split(" ")[0]
return otp
| [
"abheet.jamwal@gmail.com"
] | abheet.jamwal@gmail.com |
f86da1b3ebfc2c35c88517b4bf4e187db8a1e127 | 4eac61601699e38a17e69d7917bab7259be720ba | /Server/Snapmap_db/Snapmap_db.py | 90dbbfaafaef27f1630774c608d15dd6decf2e78 | [
"Apache-2.0"
] | permissive | G-Doxastakis/SnapMap | 9433a1f65cb7742fb0fe1944caf826f2ab5992ed | a463315f45ce61d621474b45e538282aaa4ba258 | refs/heads/master | 2021-03-27T10:51:53.691377 | 2016-12-04T14:27:22 | 2016-12-04T14:27:22 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,193 | py | import sqlite3
def open_db():
conn = sqlite3.connect('Snapmap.db')
c = conn.cursor()
return c, conn
def create_table(c):
c.execute('CREATE TABLE IF NOT EXISTS \
Images(Name TEXT, Lat FLOAT, Long FLOAT)')
def add_entry(name, lat, lon, conn):
c = conn.cursor()
c.execute('INSERT INTO images (Name, Lat, Long)\
VALUES (?, ?, ?)', (name, float(lat), float(lon)))
conn.commit()
def read_from_db(user_lat, user_lon, c):
imlist = []
lat = float(user_lat)
lon = float(user_lon)
maxlat = lat+0.000896
minlat = lat-0.000896
maxlon = lon+0.001140
minlon = lon-0.001140
c.execute('SELECT Name FROM images \
WHERE Lat<? AND Lat>? AND Long<? \
AND Long>?', (maxlat, minlat, maxlon, minlon))
for name in c.fetchall():
imlist.append(name + (str(lat),) + (str(lon),))
return imlist
def delete(name, c, conn):
c.execute('SELECT * FROM images')
c.execute('DELETE FROM images WHERE Name = ?', (name,))
conn.commit()
def clear(c, conn):
c.execute('DELETE FROM images')
conn.commit()
def close_db(conn, c):
c.close()
conn.close()
| [
"noreply@github.com"
] | noreply@github.com |
bb82f89b7e766b26b985e03b33f130543bb84b01 | c72fe96328f07909a6c243a6c5acb21895da3b01 | /Minimum_of_number_days_kohli_takes.py | 83b2f6015a8734eda8aba96e48b995cc32469e7e | [] | no_license | Sathyasree-Sundaravel/sathya | 348fcd8d0d75512e14d095ffe58abe902723fcde | 2951a8447d716fc8ab130465a40f1e7339cb88bf | refs/heads/master | 2020-05-25T22:59:57.120769 | 2019-07-21T12:53:04 | 2019-07-21T12:53:04 | 188,025,931 | 0 | 1 | null | null | null | null | UTF-8 | Python | false | false | 191 | py | #Minimum number of days Kohli takes
n,t=map(int,input().split())
sec=list(map(int,input().split()))
count=0
for i in sec:
t1=86400-i
t=t-t1
count+=1
if t<=0:
break
print(count)
| [
"noreply@github.com"
] | noreply@github.com |
f62ca0aa1cead10a3bcabd4ddedbe3af8afadcbb | ec81868f0c6f9914ecb08e1f4d53cd23009f344b | /kcf_tracker.py | 970b6aa52f56ac195ccbbf748d5ac8a72944db31 | [] | no_license | lingqing97/KCF_COPY | 1909b6f9e124eeb5da318067fbd3c108b0a6e362 | 4f5b2c0b8894599ccf282a9d8b274e531c2d54a9 | refs/heads/master | 2021-01-13T20:17:24.575227 | 2020-02-23T09:42:41 | 2020-02-23T09:42:41 | 242,482,446 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 6,785 | py | import numpy as np
import cv2
import copy
def limit(rect, limit):
'''
@description:根据limit对rect进行裁剪
@param rect:输入的矩阵,[左上角x,左上角y,w,h]
@param limit:限制的范围,[左上角,左上角y,w,h]
@return rect:裁剪后的范围
'''
if((rect[0]+rect[2]) > (limit[0]+limit[2])):
rect[2] = limit[0]+limit[2]-rect[0]
if((rect[1]+rect[3] > (limit[1]+limit[3]))):
rect[3] = limit[1]+limit[3]-rect[1]
if(rect[0] < 0):
rect[2] -= (limit[0]-rect[0])
rect[0] = limit[0]
if(rect[1] < 0):
rect[3] -= (limit[1]-rect[1])
rect[1] = limit[1]
if(rect[2] < 0):
rect[2] = 0
if(rect[3] < 0):
rect[3] = 0
return rect
def x2(win):
return win[0]+win[2]
def y2(win):
return win[1]+win[3]
def getBorder(win, limited):
'''
@description:获取填充区域
@param win:未裁剪窗口
@param limited:裁剪后的窗口
@return res:[左边填充大小,上面填充大小,右边填充大小,下面填充大小]
'''
res = [0, 0, 0, 0]
res[0] = limited[0]-win[0]
res[1] = limited[1]-win[1]
res[2] = x2(win)-x2(limited)
res[3] = y2(win)-y2(limited)
return res
class KCFtracker():
def __init__(self, fixed_window=False):
self.padding = 2.5 # 定义padding
self.hann = None # 汉明窗
self.output_sigma_factor = 0.125 # 二维高斯参数sigma
self.lmbda = 0.01 # alpha中的参数lambda
self.sigma = 0.2 # RBF中的参数sigma
self.eta = 0.075 # 学习权重
if(fixed_window):
self.template_size = 96 # 将特征图的大边调整到96
else:
self.template_size = 1
def init(self, img, x1, y1, w, h):
# 记录中点位置
self.cx = int(x1+w/2)
self.cy = int(y1+h/2)
# 记录左上角位置
self.x1 = x1
self.y1 = y1
# 进行padding
self.width = int(w*self.padding)
self.height = int(h*self.padding)
# 将width和height化为偶数便于处理
self.width = self.width if self.width % 2 == 0 else self.width-1
self.height = self.height if self.height % 2 == 0 else self.height-1
# 获取跟踪框内图像的特征图,转灰度图,归一化并加汉明窗,获取训练集
self.x = self.getFeature(img, 1)
# 获取理想高斯相应
self.y = self.target(self.x.shape[1], self.x.shape[0])
# self.prev存储响应最大值的位置
# 这里是理想响应,所以就是中心点是最大值
self.prev = np.unravel_index(np.argmax(self.y), self.y.shape)
# 训练
self.alpha = self.train(self.x, self.y, self.sigma, self.lmbda)
def train(self, x, y, sigma, lmbda):
# 计算k_xx
k = self.kernel_corralation(x, x, sigma)
# 计算alpha
alpha = np.fft.fft2(y)/(np.fft.fft2(k)+lmbda)
return alpha
def detect(self, alpha, x, z, sigma):
# 计算k_xz
k = self.kernel_corralation(x, z, sigma)
# 计算响应
response = np.real(np.fft.ifft2(np.fft.fft2(k)*alpha))
return response
def update(self, img):
# 截取跟踪框中的图像,即获取预测集
z = self.getFeature(img)
# 计算响应
response = self.detect(self.alpha, self.x, z, self.sigma)
# 获取当前最大响应的位置
curr = np.unravel_index(np.argmax(response), response.shape)
# 计算偏移
dx = self.prev[1]-curr[1]
dy = self.prev[0]-curr[0]
print(dx, dy)
# if(abs(dx)>=4 or abs(dy)>=4):
# print('hello')
# 更新当前位置
self.cx = self.cx+dx
self.cy = self.cy+dy
self.x1 = self.x1+dx
self.y1 = self.y1+dy
# 更新训练集
prevx = self.x
currx = self.getFeature(img)
self.alpha = self.eta * \
self.train(currx, self.y, self.sigma, self.lmbda) + \
(1-self.eta)*self.alpha
self.x = self.eta*currx+(1-self.eta)*prevx
# 返回左上角坐标
return self.x1, self.y1
def kernel_corralation(self, x1, x2, sigma):
c = np.fft.fftshift(np.fft.ifft2(
np.fft.fft2(x1)*np.conjugate(np.fft.fft2(x2))))
mult = np.dot(np.conjugate(x1.flatten(1)), x1.flatten(1)) + \
np.dot(np.conjugate(x2.flatten(1)), x2.flatten(1))-2*c
k = np.exp(-1/sigma**2*np.abs(mult)/np.size(x1))
return k
def create_hann(self, width, height):
i = np.arange(width)
j = np.arange(height)
I, J = np.meshgrid(i, j)
self.hann = np.sin(np.pi*I/width)*np.sin(np.pi*J/height).astype(np.float32)
def getFeature(self, img, inithann=0):
window = [int(self.cx-self.width/2), int(self.cy -
self.height/2), self.width, self.height]
cutWin = copy.deepcopy(window)
# 对越界的部分进行裁剪
cutWin = limit(cutWin, [0, 0, img.shape[1], img.shape[0]])
# 计算需要填充的区域
border = getBorder(window, cutWin)
res = img[cutWin[1]:cutWin[1]+cutWin[3], cutWin[0]:cutWin[0]+cutWin[2]]
if border != [0, 0, 0, 0]:
res = cv2.copyMakeBorder(
res, border[1], border[3], border[0], border[2], cv2.BORDER_REPLICATE)
# 调整大小
if(self.template_size > 1):
if(res.shape[1] > res.shape[0]):
scale = res.shape[1]/self.template_size
elif(res.shape[0] > res.shape[1]):
scale = res.shape[0]/self.template_size
res = cv2.resize(
res, (int(res.shape[1]/scale), int(res.shape[0]/scale)))
# 若是彩色图,则转为灰度图
if(res.ndim == 3 and res.shape[2] == 3):
FeatureMap = cv2.cvtColor(res, cv2.COLOR_BGR2GRAY)
else:
FeatureMap = res
# 归一化
FeatureMap = FeatureMap.astype(np.float32)/255.0-0.5
if(inithann):
self.create_hann(FeatureMap.shape[1],FeatureMap.shape[0])
# 加窗
return FeatureMap*self.hann
def target(self, width, height):
i = np.arange(width)
j = np.arange(height)
# np.meshgrid(a,b)生成的形状为(len(b),len(a))
I, J = np.meshgrid(i, j)
# 生成以中点为中心的二维高斯相应
xx = (I-width/2)**2+(J-height/2)**2
# 二维高斯响应的凸出面积要与目标面积成比例
output_sigma = np.sqrt(width*height) / \
self.padding * self.output_sigma_factor
mult = -0.5 / (output_sigma*output_sigma)
return np.exp(mult*xx)
| [
"1766552041@qq.com"
] | 1766552041@qq.com |
9284ce60220954204e63f2ef806f44fe4c25aa5c | c2c5af28d852c0fe2b535c59189e920ebd420471 | /src/logger.py | 890280d8ed5e6621c6247eb88dd304fb145980a7 | [] | no_license | olonyk/multi_modal_learning | f23cb9bb015871b5730fb166a28d62d68abd4df1 | e06c6fc1a3884bef97d5246bfc57c0ebaab235dd | refs/heads/master | 2021-05-06T03:35:28.411852 | 2017-12-20T16:03:31 | 2017-12-20T16:03:31 | 114,905,845 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,126 | py | from datetime import datetime
from multiprocessing import Process, Queue
from os.path import abspath, dirname, join
class Logger(Process):
def __init__(self, log_file=""):
super(Logger, self).__init__()
if log_file == "":
self.log_file = abspath(join(dirname( __file__ ), '..', 'log_file.csv'))
self.queue = Queue()
def run(self):
while True:
sender, message = self.queue.get().split("#")
if message == "done":
break
else:
self.log(sender, message)
def log(self, sender, message):
""" Add a time stamp and write the message to the log file.
"""
time = datetime.now()
time_stamp = "{:04d}-{:02d}-{:02d} {:02d}:{:02d}:{:02d}.{:4}\t{:11}\t".format(\
time.year, time.month, time.day, time.hour, time.minute, time.second,\
str(time.microsecond)[:3], sender)
message = "{}{}".format(time_stamp, message)
print(message)
with open(self.log_file, "a") as log_file:
log_file.write(message + "\n")
| [
"olonyk@gmail.com"
] | olonyk@gmail.com |
5bd4b629e2c1439c220548e9247835c48992f28e | fac96b4c97150e02f1405f7430c89b115e4c27f7 | /ch08/ex8-20.printing_models.py | bfef927128761d040af4e85f8ced90253a583a32 | [] | no_license | gustavonvp/PYTHON-CRASH-COURSE | 37478990ff3c3c368da505eb9e5a35dee5d1960b | 8033e2eb84cf6d85fd4ff42ae0550f38dcd23f62 | refs/heads/master | 2023-04-03T00:42:20.333183 | 2017-10-24T05:47:01 | 2017-10-24T05:47:01 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 620 | py | # Start whith some designs that need to be printed.
unprinted_designs = ['iphone case', 'robot pendant', 'dodecahedron']
completed_models = []
# Simulate printing each design, until none are left.
# Move each design to completed_models after printing.
while unprinted_designs:
current_design = unprinted_designs.pop()
# Simulate creating a 3D print form the design.
print("Printing model: " + current_design)
completed_models.append(current_design)
# Display all completed models.
print("\nThe following models have been printed:")
for completed_model in completed_models:
print(completed_model)
| [
"freebz@hananet.net"
] | freebz@hananet.net |
2e0ec754aadd0a7d602c299398b0bb7de5231134 | 96820782571b704b9642ec5df50e59debf1506b8 | /imagemain.py | 96f5fecbeb4373813d7b1914621014ed6971e8f7 | [] | no_license | Jeenal4801/Cryptography- | 34182b501f388a2d981a3a28bbc6e79810136e36 | b7a077ea7983a47d203021f1d8ae39be7e50a122 | refs/heads/main | 2023-05-24T00:05:48.291994 | 2021-06-16T07:01:20 | 2021-06-16T07:01:20 | 377,400,467 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 457 | py | # Home Screen for Image Encryption/Decryption
"""
@author : Ankit Devani , Jeenal Shah , Meghna Kanade , Sarthak Bharad
"""
print("What do you wish to do?")
print("1 - Image Encryption ")
print("2 - Image Decryption")
j = int(input())
if j == 1:
import imgencryption # Calling the image Encryption file
elif j == 2:
import imgdecryption # Calling the image Decryption file
else:
print("Please try again!!! Enter value 1 or 2")
| [
"noreply@github.com"
] | noreply@github.com |
a70d21ed2a48720e2b9c9a258bcb1b746dda2e1a | 73e277935ef28fd05935c93a3f155c9cc6dc6de7 | /ctf/crypto/source/rbtree/rb2.py | 81ec357f0f8e932791d02d3999f89d0fbf068e95 | [] | no_license | ohmygodlin/snippet | 5ffe6b8fec99abd67dd5d7f819520e28112eae4b | 21d02015492fb441b2ad93b4a455dc4a145f9913 | refs/heads/master | 2023-01-08T14:59:38.618791 | 2022-12-28T11:23:23 | 2022-12-28T11:23:23 | 190,989,347 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 12,501 | py | # -*- coding: utf-8 -*-
BLACK = 0
RED = 1
#graphic elements of rbtree for printing
VC = '│'
HC = '─'
SIZE = 3
RIG = '┌' + HC * SIZE
LEF = '└' + HC * SIZE
SP = chr(32)
IND1 = SP * (SIZE + 1)
IND2 = VC + SP * SIZE
class rbnode(object):
def __init__(self, key=None, value=None, color=BLACK,left=None,right=None,p=None):
self.key = key
self.value = value
self.color = color
self.left = left
self.right = right
self.p = p
def __repr__(self):
return '%s%s%s' % (self.key,'◆' if self.color is BLACK else '◇',self.value )
_NONE=rbnode()
class rbtree(object):
def __init__(self, data=False,default_value=0, nodes=None):
if nodes:
self.root = nodes[28]
self.default_value = default_value #for method: force_search
self.nil = _NONE
else:
self.nil = _NONE
self.root = self.nil
self.default_value = default_value #for method: force_search
if hasattr(data, '__iter__'):
for key, value in data:
self.insert(rbnode(key,value))
def __repr__(self):
return '\n'.join(self.graph())
def graph(self, x=False, prefix=''):
"beautifully print rbtree, big key node first"
if x is False:
x = self.root
if x is not self.nil:
p = x.p
last_prefix = ''
if p is not self.nil:
pp = p.p
last_prefix = LEF if p.left is x else RIG
if pp is not self.nil:
if (pp.left is p) is (p.left is x):
prefix = prefix + IND1
else:
prefix = prefix + IND2
yield from self.graph(x.right, prefix)
yield '%s%s%s' % (prefix, last_prefix, x)
yield from self.graph(x.left, prefix)
def search(self, key, x=False):
"find node according to key, return self.nil if not found"
if x is False:
x = self.root
while (x is not self.nil) and (key != x.key):
if key < x.key:
x = x.left
else:
x = x.right
return x
def insert(self, z):
"insert z node with key and value"
y = self.nil
x = self.root
while x is not self.nil:
y = x
if z.key < x.key:
x = x.left
else:
x = x.right
z.p = y
if y is self.nil:
self.root = z
elif z.key < y.key:
y.left = z
else:
y.right = z
z.left = self.nil
z.right = self.nil
z.color = RED
self.insert_fixup(z)
def delete(self, z):
y = z
y_original_color = y.color
if z.left is self.nil:
x = z.right
self.transplant(z, x)
elif z.right is self.nil:
x = z.left
self.transplant(z, x)
else:
y = self.minimum(z.right)
y_original_color = y.color
x = y.right
if y.p is z:
x.p = y
else:
self.transplant(y, x)
y.right = z.right
y.right.p = y
self.transplant(z, y)
y.left = z.left
y.left.p = y
y.color = z.color
if y_original_color is BLACK:
self.delete_fixup(x)
def is_empty(self):
return self.root is self.nil
def right_walk(self, x=False):
if x is False:
x = self.root
if x is not self.nil:
yield from self.right_walk(x.right)
yield x
yield from self.right_walk(x.left)
def left_walk(self, x=False):
if x is False:
x = self.root
if x is not self.nil:
yield from self.left_walk(x.left)
yield x
yield from self.left_walk(x.right)
def force_search(self,key):
y = self.nil
x = self.root
while x is not self.nil:
if key == x.key:
return x
y = x
if key < x.key:
x = x.left
else:
x = x.right
z = rbnode()
original_z = z
z.key = key
z.value = self.default_value
z.p = y
if y is self.nil:
self.root = z
elif z.key < y.key:
y.left = z
else:
y.right = z
z.left = self.nil
z.right = self.nil
z.color = RED
self.insert_fixup(z)
return original_z
def maximum(self, x=False):
if x is False:
x = self.root
while x.right is not self.nil:
x = x.right
return x
def minimum(self, x=False):
if x is False:
x = self.root
while x.left is not self.nil:
x = x.left
return x
def successor(self, x):
"return node with smallest key greater than x.key"
if x.right is not self.nil:
return self.minimum(x.right)
y = x.p
while (y is not self.nil) and (x is y.right):
x = y
y = y.p
return y
def predecessor(self, x):
"return node with biggest key lower than x.key"
if x.left is not self.nil:
return self.maximum(x.left)
y = x.p
while (y is not self.nil) and (x is y.left):
x = y
y = y.p
return y
def left_rotate(self, x):
y = x.right
x.right = y.left
if y.left is not self.nil:
y.left.p = x
y.p = x.p
if x.p is self.nil:
self.root = y
else:
if x is x.p.left:
x.p.left = y
else:
x.p.right = y
y.left = x
x.p = y
def right_rotate(self, x):
y = x.left
x.left = y.right
if y.right is not self.nil:
y.right.p = x
y.p = x.p
if x.p is self.nil:
self.root = y
else:
if x is x.p.right:
x.p.right = y
else:
x.p.left = y
y.right = x
x.p = y
def insert_fixup(self, z):
while z.p.color is RED:
if z.p is z.p.p.left:
y = z.p.p.right
if y.color is RED:
z.p.color = BLACK
y.color = BLACK
z.p.p.color = RED
z = z.p.p
else:
if z is z.p.right:
z = z.p
self.left_rotate(z)
z.p.color = BLACK
z.p.p.color = RED
self.right_rotate(z.p.p)
else:
y = z.p.p.left
if y.color is RED:
z.p.color = BLACK
y.color = BLACK
z.p.p.color = RED
z = z.p.p
else:
if z is z.p.left:
z = z.p
self.right_rotate(z)
z.p.color = BLACK
z.p.p.color = RED
self.left_rotate(z.p.p)
self.root.color = BLACK
def delete_fixup(self, x):
while (x is not self.root) and (x.color is BLACK):
if x is x.p.left:
w = x.p.right
if w.color is RED:
w.color = BLACK
x.p.color = RED
self.left_rotate(x.p)
w = x.p.right
if (w.left.color is BLACK) and (w.right.color is BLACK):
w.color = RED
x = x.p
else:
if w.right.color is BLACK:
w.left.color = BLACK
w.color = RED
self.right_rotate(w)
w = x.p.right
w.color = x.p.color
x.p.color = BLACK
w.right.color = BLACK
self.left_rotate(x.p)
x = self.root
else:
w = x.p.left
if w.color is RED:
w.color = BLACK
x.p.color = RED
self.right_rotate(x.p)
w = x.p.left
if (w.right.color is BLACK) and (w.left.color is BLACK):
w.color = RED
x = x.p
else:
if w.left.color is BLACK:
w.right.color = BLACK
w.color = RED
self.left_rotate(w)
w = x.p.left
w.color = x.p.color
x.p.color = BLACK
w.left.color = BLACK
self.right_rotate(x.p)
x = self.root
x.color = BLACK
def transplant(self, u, v):
if u.p is self.nil:
self.root = v
elif u is u.p.left:
u.p.left = v
else:
u.p.right = v
v.p = u.p
if __name__ == '__main__':
_str=" ek`~3c:gf017b744/b38fd~abm7g5489e2{lf6z8d16hae`98}b|-21m.e:"
nodes=[_NONE]
for i in range(1,60):
nodes.append( rbnode(key=i,value=_str[i]) )
# node, color, l,r,p
tree=[
[1,BLACK,0,2,3],
[2,RED,0,0,1],
[3,RED,1,4,6],
[4,BLACK,0,5,3],
[5,RED,0,0,4],
[6,BLACK,3,8,10],
[7,RED,0,0,8],
[8,BLACK,7,9,6],
[9,RED,0,0,8],
[10,RED,6,18,23],
[11,RED,0,0,12],
[12,BLACK,11,13,14],
[13,RED,0,0,12],
[14,RED,12,16,18],
[15,RED,0,0,16],
[16,BLACK,15,17,14],
[17,RED,0,0,16],
[18,BLACK,14,20,10],
[19,BLACK,0,0,20],
[20,RED,19,21,18],
[21,BLACK,0,22,20],
[22,RED,0,0,21],
[23,BLACK,10,26,28],
[24,RED,0,0,25],
[25,BLACK,24,0,26],
[26,BLACK,25,27,23],
[27,BLACK,0,0,26],
[28,BLACK,23,43,0],
[29,RED,0,0,30],
[30,BLACK,29,31,32],
[31,RED,0,0,30],
[32,BLACK,30,34,35],
[33,RED,0,0,34],
[34,BLACK,33,0,32],
[35,RED,32,37,43],
[36,BLACK,0,0,37],
[37,BLACK,36,40,35],
[38,BLACK,0,39,40],
[39,RED,0,0,38],
[40,RED,38,41,37],
[41,BLACK,0,42,40],
[42,RED,0,0,41],
[43,BLACK,35,53,28],
[44,BLACK,0,0,45],
[45,RED,44,46,48],
[46,BLACK,0,47,45],
[47,RED,0,0,46],
[48,BLACK,45,50,53],
[49,BLACK,0,0,50],
[50,RED,49,51,48],
[51,BLACK,0,52,50],
[52,RED,0,0,51],
[53,RED,48,57,43],
[54,RED,0,0,55],
[55,BLACK,54,56,57],
[56,RED,0,0,55],
[57,BLACK,55,59,53],
[58,RED,0,0,59],
[59,BLACK,58,0,57],
]
for i in range(len(tree)):
nodes[tree[i][0]].color=tree[i][1]
nodes[tree[i][0]].left=nodes[tree[i][2]]
nodes[tree[i][0]].right=nodes[tree[i][3]]
nodes[tree[i][0]].p=nodes[tree[i][4]]
tr=rbtree(nodes=nodes)
# print(tr.nil is _NONE)
# print("after build from dict:")
# print(tr)
# tr=rbtree(data={'1':'1','2':'2'}.items())
# null=tr.root.p
print(tr)
for i in [18,35,53,50,14,28,19,6,54,36]:
tr.delete(tr.force_search(i))
s=""
for i in [8,56,47,37,52,34,17,8,8,29,7,47,40,57,46,24,34,34,57,29,22,5,16,57,24,29,8,12,57,12,12,21,33,34,55,51,22,45,34,31,1,23]:
node=tr.force_search(i)
if node.color==BLACK:
print(chr(ord(node.value)-1)),
else:
print(chr(ord(node.value)+1)),
# s=s+node.value
# print(s)
# print(.value)
# for c in 'fghij':
# nd = tr.force_search(c)
# nd.value += 1
# print("\nafter insert from a string:")
# print(tr)
# while tr.root!=tr.nil:
# tr.delete(tr.root)
# print("\nafter delete all node:")
# print(tr)
| [
"laitaizong@gmail.com"
] | laitaizong@gmail.com |
ec8e892b22ed3c2bc12e7b2a2063ba23a38398fe | 18ed2d60b066fff39abc0e417fa143c8ea1290bb | /interviews/indeed/first_duplicate_word.py | b0fd540cd91b39623f15cb9590e9ccf652b8fb1c | [
"MIT"
] | permissive | tanchao/algo | 1e518937891edd4bb7de27f85a7222ee7c027f41 | 92883db53fe2c5860319d4fca82b0ea32da0d2a8 | refs/heads/master | 2022-07-22T02:53:32.554524 | 2022-07-17T05:17:02 | 2022-07-17T05:17:02 | 19,317,206 | 3 | 0 | null | null | null | null | UTF-8 | Python | false | false | 335 | py | #!/usr/bin/env python
# -*- coding: utf-8 -*-
__author__ = 'tanchao'
def first_dup_word(text):
texts = text.strip().split()
words = set()
if len(texts) > 2:
for word in texts:
if word in words:
return word
words.add(word)
return ''
if __name__ == '__main__':
pass | [
"chaos.tc@gmail.com"
] | chaos.tc@gmail.com |
e735d3dbe96e2b6726a39a1e764ecda61d94be85 | 0764c6fa71758bcf9f61f137a2b2554b55045b2f | /HHmodel/twoneurons.py | 43af6deb253006d4c94b15b126d7faba18a7188f | [] | no_license | pujadpatel/pujadpatel-personal | 7bd5255d3927e820e1540f084cfe0cfb2fc6b831 | f4f761b253aafa7693ec44954d85048fd2d3f18a | refs/heads/master | 2021-01-11T20:44:21.508031 | 2017-12-12T03:17:30 | 2017-12-12T03:17:30 | 79,173,490 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 2,274 | py | from math import *
import matplotlib.pyplot as plt
import numpy as np
#Betas and Alphas
def alphaN(vm):
return (0.01*(10.0-(vm+60.0)))/((e**((10.0-(vm+60.0))/10.0))-1.0)
def betaN(vm):
return 0.125*e**(-(vm+60.0)/80.0)
def alphaM(vm):
return (0.1*(25.0-(vm+60.0)))/((e**(0.1*(25.0-(vm+60.0))))-1.0)
def betaM(vm):
return 4.0*e**(-(60.0+vm)/18.0)
def alphaH(vm):
return 0.07*e**(-(60.0+vm)/20.0)
def betaH(vm):
return ((e**((30.0-(60.0+vm))/10.0)+1.0))**-1.0
# n0, m0, and h0
def ninfinity(vm1):
return alphaN(vm1)/(alphaN(vm1)+betaN(vm1))
def minfinity(vm1):
return alphaM(vm1)/(alphaM(vm1)+betaM(vm1))
def hinfinity(vm1):
return alphaH(vm1)/(alphaH(vm1)+betaH(vm1))
# HH
dt=0.01
gnabar=120
gkbar=36
glbar=0.3
Ena=52.4
Ek=-72.1
El=-49.2
v=-60
n=ninfinity(v)
m=minfinity(v)
h=hinfinity(v)
Ik=gkbar*(n**4)*(v-Ek)
Ina=gnabar*(m**3)*h*(v-Ena)
Il=glbar*(v-El)
# Interface
Is=90
Isyn=0
dur=24
vm1=-60
vm2=0
tout= []
vm1out=[]
vm2out=[]
#Synapse
Kp=5
Vt=2
Tmax=1
Ar=1.1
ad=0.19
Vpre=Isyn
Vampa=0
gbarampa=3
Iampa=gbarampa*(v-Vampa)
T=Tmax/(1+(e**(-(Vpre-Vt)/Kp)))
s0=Ar*Tmax/(Ar*Tmax+ad)
s=s0
dsvalues=[]
dtvalues=[]
for i in range (1,1000):
ds=Ar*T*(1-s)-ad*s
dsvalues.append(ds)
dtvalues.append(i*dt)
for i in range (1,1000):
#neuron 1
Ik=gkbar*(n**4)*(vm1-Ek)
Ina=gnabar*(m**3)*h*(vm1-Ena)
Il=glbar*(vm1-El)
m=m+dt*(alphaM(vm1)*(1-m)-betaM(vm1)*m)
n=n+dt*(alphaN(vm1)*(1-n)-betaN(vm1)*n)
h=h+dt*(alphaH(vm1)*(1-h)-betaH(vm1)*h)
if i<dur:
vm1=vm1+dt*(Is-(Ina+Ik+Il))
elif i>dur:
vm1=vm1+dt*(0-(Ina+Ik+Il))
vm1out.append(vm1)
#neuron 2
Ik=gkbar*(n**4)*(vm2-Ek)
Ina=gnabar*(m**3)*h*(vm2-Ena)
Il=glbar*(vm2-El)
m=m+dt*(alphaM(vm2)*(1-m)-betaM(vm2)*m)
n=n+dt*(alphaN(vm2)*(1-n)-betaN(vm2)*n)
h=h+dt*(alphaH(vm2)*(1-h)-betaH(vm2)*h)
if i<dur:
vm2=vm2+dt*(Isyn-(Ina+Ik+Il))
elif i>dur:
vm2=vm2+dt*(0-(Ina+Ik+Il))
vm2out.append(vm2)
tout.append(i*dt)
#Plot
plt.figure(1)
plt.plot (tout, vm1out)
plt.plot (tout, vm2out)
plt.plot (dtvalues, dsvalues)
plt.show() | [
"pujadpat@usc.edu"
] | pujadpat@usc.edu |
0a7e4ac3a6aa381a2be9b21e6ff39af814db7972 | 8acffb8c4ddca5bfef910e58d3faa0e4de83fce8 | /ml-flask/Lib/site-packages/joblib/parallel.py | dff07a7420ad4d2662baa74a296be91ffc236c13 | [
"MIT"
] | permissive | YaminiHP/SimilitudeApp | 8cbde52caec3c19d5fa73508fc005f38f79b8418 | 005c59894d8788c97be16ec420c0a43aaec99b80 | refs/heads/master | 2023-06-27T00:03:00.404080 | 2021-07-25T17:51:27 | 2021-07-25T17:51:27 | 389,390,951 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 130 | py | version https://git-lfs.github.com/spec/v1
oid sha256:10afb49d59c3778a8fd053bbec2d63b85f3b24f63a308df37f309126a62f3571
size 46534
| [
"yamprakash130@gmail.com"
] | yamprakash130@gmail.com |
439bbcad449efc5d0400e7a0ddcae109c2ef7bc2 | ca7aa979e7059467e158830b76673f5b77a0f5a3 | /Python_codes/p02682/s885339008.py | 44ace31b98dd71329482c26565d401a8c6238465 | [] | no_license | Aasthaengg/IBMdataset | 7abb6cbcc4fb03ef5ca68ac64ba460c4a64f8901 | f33f1c5c3b16d0ea8d1f5a7d479ad288bb3f48d8 | refs/heads/main | 2023-04-22T10:22:44.763102 | 2021-05-13T17:27:22 | 2021-05-13T17:27:22 | 367,112,348 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 90 | py | a,b,c,k=list(map(int,input().split()))
if k<=a+b:
print(min(a,k))
else:
print(2*a-k+b) | [
"66529651+Aastha2104@users.noreply.github.com"
] | 66529651+Aastha2104@users.noreply.github.com |
6e859c4eeaf898edbf7c63f09de8bce565c77eb2 | 168e5105e9867c2bd349d3e410f8f133aafe3de1 | /13.beautiful soup笔记.py | cded091978e58d626feafe2ad882b08b9789624a | [] | no_license | AB-IN-lsy/PythonSpider | 5378bd092a6f93b72d4d75203dce30c21fd10847 | ab90bcd48529cfaef0f095c272aa5b62ec814443 | refs/heads/master | 2023-05-01T21:37:35.261276 | 2021-05-17T12:31:01 | 2021-05-17T12:31:01 | 368,178,469 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,659 | py | import requests
r = requests.get("http://python123.io/ws/demo.html")
from bs4 import BeautifulSoup
soup = BeautifulSoup(r.text, "lxml")
'''
<html><head><title>This is a python demo page</title></head>
<body>
<p class="title"><b>The demo python introduces several python courses.</b></p>
<p class="course">Python is a wonderful general-purpose programming language. You can learn Python from novice to professional by tracking the following courses:
<a class="py1" href="http://www.icourse163.org/course/BIT-268001" id="link1">Basic Python</a> and <a class="py2" href="http://www.icourse163.org/course/BIT-1001870001" id="link2">Advanced Python</a>.</p>
</body></html>
'''
#soup.tag 返回第一个tag内容
print(soup.title)
print(soup.a)
#标签名
print(soup.a.parent.name) #p 获取a的父亲的名字
print(soup.a.parent.parent.name) #body
tag_a = soup.a
print(tag_a.attrs) #字典 {'href': 'http://www.icourse163.org/course/BIT-268001', 'class': ['py1'], 'id': 'link1'}
print(tag_a.attrs['class']) #['py1']
print(tag_a.string) # 内容 Basic Python
print(type(tag_a.string)) #<class 'bs4.element.NavigableString'>
print(soup.head.contents) #返回儿子结点信息,为列表
#[<title>This is a python demo page</title>]
print(soup.body.contents) #返回儿子结点信息
print(soup.body.contents[1])
print(soup.title.parent) #返回父亲结点信息
#<head><title>This is a python demo page</title></head>
#遍历节点时 if *** is None 不打印
#平行遍历发生在同一个父节点下的各节点间
print(soup.prettify()) #美化的html文档
for link in soup.find_all('a'):
print(link['href'])
#找所有标签为a的链接
| [
"liusy200708@163.com"
] | liusy200708@163.com |
2dfbe40fb67b4cd0e24ea193c8156e3c9fba4d56 | a61a0a20a767c94bea97029e1a0e7c814ca22a00 | /djangoProject/urls.py | 4dcc5e88bcb99d3b5ece9c24712fd4dcc9273ec4 | [] | no_license | sedyukov/MITPnotes | 884a29fd19dbe9babdb9a3157928b495732de09f | 6150ef14b5e151be4118a8fb7078a30b67a5bd91 | refs/heads/master | 2023-06-28T13:22:11.434104 | 2021-08-03T08:51:52 | 2021-08-03T08:51:52 | 370,229,715 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 801 | py | """djangoProject URL Configuration
The `urlpatterns` list routes URLs to views. For more information please see:
https://docs.djangoproject.com/en/3.2/topics/http/urls/
Examples:
Function views
1. Add an import: from my_app import views
2. Add a URL to urlpatterns: path('', views.home, name='home')
Class-based views
1. Add an import: from other_app.views import Home
2. Add a URL to urlpatterns: path('', Home.as_view(), name='home')
Including another URLconf
1. Import the include() function: from django.urls import include, path
2. Add a URL to urlpatterns: path('blog/', include('blog.urls'))
"""
from django.contrib import admin
from django.urls import path, include
urlpatterns = [
path('admin/', admin.site.urls),
path('', include('notes.urls')),
]
| [
"babecaleksei@yandex.ru"
] | babecaleksei@yandex.ru |
5d8c2c21c425289bf070970045fc338486eb2e08 | 66f383fec502102bfec58ed8cb9c43a71e599c55 | /apps/accounts/events.py | f34b3398d34130125064588eeea3a67c4b10f9ab | [
"MIT"
] | permissive | hacktoolkit/django-htk | 0a984a28f7fbc7eed8e2b1975d210792ddbee829 | 935c4913e33d959f8c29583825f72b238f85b380 | refs/heads/master | 2023-08-08T11:52:54.298160 | 2023-07-21T19:08:37 | 2023-07-21T19:08:37 | 15,924,904 | 210 | 65 | MIT | 2023-09-08T23:59:28 | 2014-01-15T04:23:40 | Python | UTF-8 | Python | false | false | 1,082 | py | # Python Standard Library Imports
# Third Party (PyPI) Imports
import rollbar
# HTK Imports
from htk.utils import htk_setting
from htk.utils.notifications import slack_notify
def failed_recaptcha_on_login(user, request=None):
extra_data = {
'user' : {
'id': user.id,
'username': user.username,
'email': user.email,
},
}
message = 'Failed reCAPTCHA. Suspicious login detected.'
rollbar.report_message(
message,
request=request,
extra_data=extra_data
)
if htk_setting('HTK_SLACK_NOTIFICATIONS_ENABLED'):
slack_message = '%s User: %s <%s>' % (
message,
user.username,
user.email,
)
slack_notify(slack_message, level='warning')
def failed_recaptcha_on_account_register(request=None):
message = 'Failed reCAPTCHA. Suspicious account registration detected.'
rollbar.report_message(message, request=request)
if htk_setting('HTK_SLACK_NOTIFICATIONS_ENABLED'):
slack_notify(message, level='warning')
| [
"hello@jontsai.com"
] | hello@jontsai.com |
e042996b58247ba2e883ecbe8c2cf259b2b5803b | f6c5d6db844d85c3af69ad0b08442cc68ab84c47 | /tests/arduino_tests/test_config_reader.py | 8dcdd30b949c9535ab492050bad3987ab913474f | [
"MIT",
"Python-2.0"
] | permissive | vt-sailbot/sailbot-21 | 364a8f41b431313b52386531599dc45a006cc6de | b5d75cb82e4bc3e9c4e428a288c6ac98a4aa2c52 | refs/heads/master | 2023-04-14T13:42:14.124404 | 2020-02-25T18:31:49 | 2020-02-25T18:31:49 | 203,252,828 | 5 | 0 | MIT | 2020-12-04T19:59:32 | 2019-08-19T21:28:56 | Python | UTF-8 | Python | false | false | 1,280 | py | import os
import unittest
from src.arduino.config_reader import read_arduino_config
from src.arduino.config_reader import read_port_config
from src.arduino.config_reader import read_pin_config
from tests.mock_bbio import Adafruit_BBIO
from tests.mock_port import serial
class ArduinoConfigReaderTests(unittest.TestCase):
"""Tests methods in Arduino Config Reader"""
def setUp(self):
"""Sets up the path of config.yml for each test method"""
self.path = os.path.dirname(os.path.abspath(__file__))
def test_read_pin_config(self):
"""Tests read_pin_config method"""
pin = read_pin_config(path = self.path)
assert pin.pin_name == "Test"
def test_read_arduino_config(self):
"""Tests read_arduino_config method"""
arduino_config = read_arduino_config(path = self.path)
expected_config = {'update_interval': 5}
self.assertDictEqual(arduino_config, expected_config)
def test_read_port_config(self):
""" Tests read_port_config method"""
port = read_port_config(path=self.path)
mock_port = read_port_config(path=self.path, mock_port=serial.Serial)
self.assertEqual(mock_port.port_name, "/dev/tty02")
self.assertEqual(port.port_name, "/dev/tty02")
| [
"ryanjs@vt.edu"
] | ryanjs@vt.edu |
49fc5957058c412d732f0ba5e3dfe4ad008051be | 3221f2c2c0c63fd93206ee04d99c2297a5ebd751 | /pandas/io/xml.py | c376b43f4d4dd64b44008d5958deff679e216bfa | [
"BSD-3-Clause"
] | permissive | taytzehao/pandas | a706430e1f26cbb935bb1fd5f45c15ca160a549c | 3c01ce2af5099a8a830195b2050d3a4036d14ff3 | refs/heads/master | 2023-08-30T21:36:45.552342 | 2023-07-22T20:30:48 | 2023-07-22T20:30:48 | 310,008,302 | 0 | 0 | BSD-3-Clause | 2021-05-26T12:32:57 | 2020-11-04T13:18:38 | Python | UTF-8 | Python | false | false | 37,728 | py | """
:mod:``pandas.io.xml`` is a module for reading XML.
"""
from __future__ import annotations
import io
from os import PathLike
from typing import (
TYPE_CHECKING,
Any,
Callable,
)
import warnings
from pandas._libs import lib
from pandas.compat._optional import import_optional_dependency
from pandas.errors import (
AbstractMethodError,
ParserError,
)
from pandas.util._decorators import doc
from pandas.util._exceptions import find_stack_level
from pandas.util._validators import check_dtype_backend
from pandas.core.dtypes.common import is_list_like
from pandas.core.shared_docs import _shared_docs
from pandas.io.common import (
file_exists,
get_handle,
infer_compression,
is_file_like,
is_fsspec_url,
is_url,
stringify_path,
)
from pandas.io.parsers import TextParser
if TYPE_CHECKING:
from collections.abc import Sequence
from xml.etree.ElementTree import Element
from lxml import etree
from pandas._typing import (
CompressionOptions,
ConvertersArg,
DtypeArg,
DtypeBackend,
FilePath,
ParseDatesArg,
ReadBuffer,
StorageOptions,
XMLParsers,
)
from pandas import DataFrame
@doc(
storage_options=_shared_docs["storage_options"],
decompression_options=_shared_docs["decompression_options"] % "path_or_buffer",
)
class _XMLFrameParser:
"""
Internal subclass to parse XML into DataFrames.
Parameters
----------
path_or_buffer : a valid JSON ``str``, path object or file-like object
Any valid string path is acceptable. The string could be a URL. Valid
URL schemes include http, ftp, s3, and file.
xpath : str or regex
The ``XPath`` expression to parse required set of nodes for
migration to :class:`~pandas.DataFrame`. ``etree`` supports limited ``XPath``.
namespaces : dict
The namespaces defined in XML document (``xmlns:namespace='URI'``)
as dicts with key being namespace and value the URI.
elems_only : bool
Parse only the child elements at the specified ``xpath``.
attrs_only : bool
Parse only the attributes at the specified ``xpath``.
names : list
Column names for :class:`~pandas.DataFrame`of parsed XML data.
dtype : dict
Data type for data or columns. E.g. {{'a': np.float64,
'b': np.int32, 'c': 'Int64'}}
.. versionadded:: 1.5.0
converters : dict, optional
Dict of functions for converting values in certain columns. Keys can
either be integers or column labels.
.. versionadded:: 1.5.0
parse_dates : bool or list of int or names or list of lists or dict
Converts either index or select columns to datetimes
.. versionadded:: 1.5.0
encoding : str
Encoding of xml object or document.
stylesheet : str or file-like
URL, file, file-like object, or a raw string containing XSLT,
``etree`` does not support XSLT but retained for consistency.
iterparse : dict, optional
Dict with row element as key and list of descendant elements
and/or attributes as value to be retrieved in iterparsing of
XML document.
.. versionadded:: 1.5.0
{decompression_options}
.. versionchanged:: 1.4.0 Zstandard support.
{storage_options}
See also
--------
pandas.io.xml._EtreeFrameParser
pandas.io.xml._LxmlFrameParser
Notes
-----
To subclass this class effectively you must override the following methods:`
* :func:`parse_data`
* :func:`_parse_nodes`
* :func:`_iterparse_nodes`
* :func:`_parse_doc`
* :func:`_validate_names`
* :func:`_validate_path`
See each method's respective documentation for details on their
functionality.
"""
def __init__(
self,
path_or_buffer: FilePath | ReadBuffer[bytes] | ReadBuffer[str],
xpath: str,
namespaces: dict[str, str] | None,
elems_only: bool,
attrs_only: bool,
names: Sequence[str] | None,
dtype: DtypeArg | None,
converters: ConvertersArg | None,
parse_dates: ParseDatesArg | None,
encoding: str | None,
stylesheet: FilePath | ReadBuffer[bytes] | ReadBuffer[str] | None,
iterparse: dict[str, list[str]] | None,
compression: CompressionOptions,
storage_options: StorageOptions,
) -> None:
self.path_or_buffer = path_or_buffer
self.xpath = xpath
self.namespaces = namespaces
self.elems_only = elems_only
self.attrs_only = attrs_only
self.names = names
self.dtype = dtype
self.converters = converters
self.parse_dates = parse_dates
self.encoding = encoding
self.stylesheet = stylesheet
self.iterparse = iterparse
self.is_style = None
self.compression = compression
self.storage_options = storage_options
def parse_data(self) -> list[dict[str, str | None]]:
"""
Parse xml data.
This method will call the other internal methods to
validate ``xpath``, names, parse and return specific nodes.
"""
raise AbstractMethodError(self)
def _parse_nodes(self, elems: list[Any]) -> list[dict[str, str | None]]:
"""
Parse xml nodes.
This method will parse the children and attributes of elements
in ``xpath``, conditionally for only elements, only attributes
or both while optionally renaming node names.
Raises
------
ValueError
* If only elements and only attributes are specified.
Notes
-----
Namespace URIs will be removed from return node values. Also,
elements with missing children or attributes compared to siblings
will have optional keys filled with None values.
"""
dicts: list[dict[str, str | None]]
if self.elems_only and self.attrs_only:
raise ValueError("Either element or attributes can be parsed not both.")
if self.elems_only:
if self.names:
dicts = [
{
**(
{el.tag: el.text}
if el.text and not el.text.isspace()
else {}
),
**{
nm: ch.text if ch.text else None
for nm, ch in zip(self.names, el.findall("*"))
},
}
for el in elems
]
else:
dicts = [
{ch.tag: ch.text if ch.text else None for ch in el.findall("*")}
for el in elems
]
elif self.attrs_only:
dicts = [
{k: v if v else None for k, v in el.attrib.items()} for el in elems
]
elif self.names:
dicts = [
{
**el.attrib,
**({el.tag: el.text} if el.text and not el.text.isspace() else {}),
**{
nm: ch.text if ch.text else None
for nm, ch in zip(self.names, el.findall("*"))
},
}
for el in elems
]
else:
dicts = [
{
**el.attrib,
**({el.tag: el.text} if el.text and not el.text.isspace() else {}),
**{ch.tag: ch.text if ch.text else None for ch in el.findall("*")},
}
for el in elems
]
dicts = [
{k.split("}")[1] if "}" in k else k: v for k, v in d.items()} for d in dicts
]
keys = list(dict.fromkeys([k for d in dicts for k in d.keys()]))
dicts = [{k: d[k] if k in d.keys() else None for k in keys} for d in dicts]
if self.names:
dicts = [dict(zip(self.names, d.values())) for d in dicts]
return dicts
def _iterparse_nodes(self, iterparse: Callable) -> list[dict[str, str | None]]:
"""
Iterparse xml nodes.
This method will read in local disk, decompressed XML files for elements
and underlying descendants using iterparse, a method to iterate through
an XML tree without holding entire XML tree in memory.
Raises
------
TypeError
* If ``iterparse`` is not a dict or its dict value is not list-like.
ParserError
* If ``path_or_buffer`` is not a physical file on disk or file-like object.
* If no data is returned from selected items in ``iterparse``.
Notes
-----
Namespace URIs will be removed from return node values. Also,
elements with missing children or attributes in submitted list
will have optional keys filled with None values.
"""
dicts: list[dict[str, str | None]] = []
row: dict[str, str | None] | None = None
if not isinstance(self.iterparse, dict):
raise TypeError(
f"{type(self.iterparse).__name__} is not a valid type for iterparse"
)
row_node = next(iter(self.iterparse.keys())) if self.iterparse else ""
if not is_list_like(self.iterparse[row_node]):
raise TypeError(
f"{type(self.iterparse[row_node])} is not a valid type "
"for value in iterparse"
)
if (not hasattr(self.path_or_buffer, "read")) and (
not isinstance(self.path_or_buffer, (str, PathLike))
or is_url(self.path_or_buffer)
or is_fsspec_url(self.path_or_buffer)
or (
isinstance(self.path_or_buffer, str)
and self.path_or_buffer.startswith(("<?xml", "<"))
)
or infer_compression(self.path_or_buffer, "infer") is not None
):
raise ParserError(
"iterparse is designed for large XML files that are fully extracted on "
"local disk and not as compressed files or online sources."
)
iterparse_repeats = len(self.iterparse[row_node]) != len(
set(self.iterparse[row_node])
)
for event, elem in iterparse(self.path_or_buffer, events=("start", "end")):
curr_elem = elem.tag.split("}")[1] if "}" in elem.tag else elem.tag
if event == "start":
if curr_elem == row_node:
row = {}
if row is not None:
if self.names and iterparse_repeats:
for col, nm in zip(self.iterparse[row_node], self.names):
if curr_elem == col:
elem_val = elem.text if elem.text else None
if elem_val not in row.values() and nm not in row:
row[nm] = elem_val
if col in elem.attrib:
if elem.attrib[col] not in row.values() and nm not in row:
row[nm] = elem.attrib[col]
else:
for col in self.iterparse[row_node]:
if curr_elem == col:
row[col] = elem.text if elem.text else None
if col in elem.attrib:
row[col] = elem.attrib[col]
if event == "end":
if curr_elem == row_node and row is not None:
dicts.append(row)
row = None
elem.clear()
if hasattr(elem, "getprevious"):
while (
elem.getprevious() is not None and elem.getparent() is not None
):
del elem.getparent()[0]
if dicts == []:
raise ParserError("No result from selected items in iterparse.")
keys = list(dict.fromkeys([k for d in dicts for k in d.keys()]))
dicts = [{k: d[k] if k in d.keys() else None for k in keys} for d in dicts]
if self.names:
dicts = [dict(zip(self.names, d.values())) for d in dicts]
return dicts
def _validate_path(self) -> list[Any]:
"""
Validate ``xpath``.
This method checks for syntax, evaluation, or empty nodes return.
Raises
------
SyntaxError
* If xpah is not supported or issues with namespaces.
ValueError
* If xpah does not return any nodes.
"""
raise AbstractMethodError(self)
def _validate_names(self) -> None:
"""
Validate names.
This method will check if names is a list-like and aligns
with length of parse nodes.
Raises
------
ValueError
* If value is not a list and less then length of nodes.
"""
raise AbstractMethodError(self)
def _parse_doc(
self, raw_doc: FilePath | ReadBuffer[bytes] | ReadBuffer[str]
) -> Element | etree._Element:
"""
Build tree from path_or_buffer.
This method will parse XML object into tree
either from string/bytes or file location.
"""
raise AbstractMethodError(self)
class _EtreeFrameParser(_XMLFrameParser):
"""
Internal class to parse XML into DataFrames with the Python
standard library XML module: `xml.etree.ElementTree`.
"""
def parse_data(self) -> list[dict[str, str | None]]:
from xml.etree.ElementTree import iterparse
if self.stylesheet is not None:
raise ValueError(
"To use stylesheet, you need lxml installed and selected as parser."
)
if self.iterparse is None:
self.xml_doc = self._parse_doc(self.path_or_buffer)
elems = self._validate_path()
self._validate_names()
xml_dicts: list[dict[str, str | None]] = (
self._parse_nodes(elems)
if self.iterparse is None
else self._iterparse_nodes(iterparse)
)
return xml_dicts
def _validate_path(self) -> list[Any]:
"""
Notes
-----
``etree`` supports limited ``XPath``. If user attempts a more complex
expression syntax error will raise.
"""
msg = (
"xpath does not return any nodes or attributes. "
"Be sure to specify in `xpath` the parent nodes of "
"children and attributes to parse. "
"If document uses namespaces denoted with "
"xmlns, be sure to define namespaces and "
"use them in xpath."
)
try:
elems = self.xml_doc.findall(self.xpath, namespaces=self.namespaces)
children = [ch for el in elems for ch in el.findall("*")]
attrs = {k: v for el in elems for k, v in el.attrib.items()}
if elems is None:
raise ValueError(msg)
if elems is not None:
if self.elems_only and children == []:
raise ValueError(msg)
if self.attrs_only and attrs == {}:
raise ValueError(msg)
if children == [] and attrs == {}:
raise ValueError(msg)
except (KeyError, SyntaxError):
raise SyntaxError(
"You have used an incorrect or unsupported XPath "
"expression for etree library or you used an "
"undeclared namespace prefix."
)
return elems
def _validate_names(self) -> None:
children: list[Any]
if self.names:
if self.iterparse:
children = self.iterparse[next(iter(self.iterparse))]
else:
parent = self.xml_doc.find(self.xpath, namespaces=self.namespaces)
children = parent.findall("*") if parent else []
if is_list_like(self.names):
if len(self.names) < len(children):
raise ValueError(
"names does not match length of child elements in xpath."
)
else:
raise TypeError(
f"{type(self.names).__name__} is not a valid type for names"
)
def _parse_doc(
self, raw_doc: FilePath | ReadBuffer[bytes] | ReadBuffer[str]
) -> Element:
from xml.etree.ElementTree import (
XMLParser,
parse,
)
handle_data = get_data_from_filepath(
filepath_or_buffer=raw_doc,
encoding=self.encoding,
compression=self.compression,
storage_options=self.storage_options,
)
with preprocess_data(handle_data) as xml_data:
curr_parser = XMLParser(encoding=self.encoding)
document = parse(xml_data, parser=curr_parser)
return document.getroot()
class _LxmlFrameParser(_XMLFrameParser):
"""
Internal class to parse XML into :class:`~pandas.DataFrame` with third-party
full-featured XML library, ``lxml``, that supports
``XPath`` 1.0 and XSLT 1.0.
"""
def parse_data(self) -> list[dict[str, str | None]]:
"""
Parse xml data.
This method will call the other internal methods to
validate ``xpath``, names, optionally parse and run XSLT,
and parse original or transformed XML and return specific nodes.
"""
from lxml.etree import iterparse
if self.iterparse is None:
self.xml_doc = self._parse_doc(self.path_or_buffer)
if self.stylesheet:
self.xsl_doc = self._parse_doc(self.stylesheet)
self.xml_doc = self._transform_doc()
elems = self._validate_path()
self._validate_names()
xml_dicts: list[dict[str, str | None]] = (
self._parse_nodes(elems)
if self.iterparse is None
else self._iterparse_nodes(iterparse)
)
return xml_dicts
def _validate_path(self) -> list[Any]:
msg = (
"xpath does not return any nodes or attributes. "
"Be sure to specify in `xpath` the parent nodes of "
"children and attributes to parse. "
"If document uses namespaces denoted with "
"xmlns, be sure to define namespaces and "
"use them in xpath."
)
elems = self.xml_doc.xpath(self.xpath, namespaces=self.namespaces)
children = [ch for el in elems for ch in el.xpath("*")]
attrs = {k: v for el in elems for k, v in el.attrib.items()}
if elems == []:
raise ValueError(msg)
if elems != []:
if self.elems_only and children == []:
raise ValueError(msg)
if self.attrs_only and attrs == {}:
raise ValueError(msg)
if children == [] and attrs == {}:
raise ValueError(msg)
return elems
def _validate_names(self) -> None:
children: list[Any]
if self.names:
if self.iterparse:
children = self.iterparse[next(iter(self.iterparse))]
else:
children = self.xml_doc.xpath(
self.xpath + "[1]/*", namespaces=self.namespaces
)
if is_list_like(self.names):
if len(self.names) < len(children):
raise ValueError(
"names does not match length of child elements in xpath."
)
else:
raise TypeError(
f"{type(self.names).__name__} is not a valid type for names"
)
def _parse_doc(
self, raw_doc: FilePath | ReadBuffer[bytes] | ReadBuffer[str]
) -> etree._Element:
from lxml.etree import (
XMLParser,
fromstring,
parse,
)
handle_data = get_data_from_filepath(
filepath_or_buffer=raw_doc,
encoding=self.encoding,
compression=self.compression,
storage_options=self.storage_options,
)
with preprocess_data(handle_data) as xml_data:
curr_parser = XMLParser(encoding=self.encoding)
if isinstance(xml_data, io.StringIO):
if self.encoding is None:
raise TypeError(
"Can not pass encoding None when input is StringIO."
)
document = fromstring(
xml_data.getvalue().encode(self.encoding), parser=curr_parser
)
else:
document = parse(xml_data, parser=curr_parser)
return document
def _transform_doc(self) -> etree._XSLTResultTree:
"""
Transform original tree using stylesheet.
This method will transform original xml using XSLT script into
am ideally flatter xml document for easier parsing and migration
to Data Frame.
"""
from lxml.etree import XSLT
transformer = XSLT(self.xsl_doc)
new_doc = transformer(self.xml_doc)
return new_doc
def get_data_from_filepath(
filepath_or_buffer: FilePath | bytes | ReadBuffer[bytes] | ReadBuffer[str],
encoding: str | None,
compression: CompressionOptions,
storage_options: StorageOptions,
) -> str | bytes | ReadBuffer[bytes] | ReadBuffer[str]:
"""
Extract raw XML data.
The method accepts three input types:
1. filepath (string-like)
2. file-like object (e.g. open file object, StringIO)
3. XML string or bytes
This method turns (1) into (2) to simplify the rest of the processing.
It returns input types (2) and (3) unchanged.
"""
if not isinstance(filepath_or_buffer, bytes):
filepath_or_buffer = stringify_path(filepath_or_buffer)
if (
isinstance(filepath_or_buffer, str)
and not filepath_or_buffer.startswith(("<?xml", "<"))
) and (
not isinstance(filepath_or_buffer, str)
or is_url(filepath_or_buffer)
or is_fsspec_url(filepath_or_buffer)
or file_exists(filepath_or_buffer)
):
with get_handle(
filepath_or_buffer,
"r",
encoding=encoding,
compression=compression,
storage_options=storage_options,
) as handle_obj:
filepath_or_buffer = (
handle_obj.handle.read()
if hasattr(handle_obj.handle, "read")
else handle_obj.handle
)
return filepath_or_buffer
def preprocess_data(data) -> io.StringIO | io.BytesIO:
"""
Convert extracted raw data.
This method will return underlying data of extracted XML content.
The data either has a `read` attribute (e.g. a file object or a
StringIO/BytesIO) or is a string or bytes that is an XML document.
"""
if isinstance(data, str):
data = io.StringIO(data)
elif isinstance(data, bytes):
data = io.BytesIO(data)
return data
def _data_to_frame(data, **kwargs) -> DataFrame:
"""
Convert parsed data to Data Frame.
This method will bind xml dictionary data of keys and values
into named columns of Data Frame using the built-in TextParser
class that build Data Frame and infers specific dtypes.
"""
tags = next(iter(data))
nodes = [list(d.values()) for d in data]
try:
with TextParser(nodes, names=tags, **kwargs) as tp:
return tp.read()
except ParserError:
raise ParserError(
"XML document may be too complex for import. "
"Try to flatten document and use distinct "
"element and attribute names."
)
def _parse(
path_or_buffer: FilePath | ReadBuffer[bytes] | ReadBuffer[str],
xpath: str,
namespaces: dict[str, str] | None,
elems_only: bool,
attrs_only: bool,
names: Sequence[str] | None,
dtype: DtypeArg | None,
converters: ConvertersArg | None,
parse_dates: ParseDatesArg | None,
encoding: str | None,
parser: XMLParsers,
stylesheet: FilePath | ReadBuffer[bytes] | ReadBuffer[str] | None,
iterparse: dict[str, list[str]] | None,
compression: CompressionOptions,
storage_options: StorageOptions,
dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default,
**kwargs,
) -> DataFrame:
"""
Call internal parsers.
This method will conditionally call internal parsers:
LxmlFrameParser and/or EtreeParser.
Raises
------
ImportError
* If lxml is not installed if selected as parser.
ValueError
* If parser is not lxml or etree.
"""
p: _EtreeFrameParser | _LxmlFrameParser
if isinstance(path_or_buffer, str) and not any(
[
is_file_like(path_or_buffer),
file_exists(path_or_buffer),
is_url(path_or_buffer),
is_fsspec_url(path_or_buffer),
]
):
warnings.warn(
"Passing literal xml to 'read_xml' is deprecated and "
"will be removed in a future version. To read from a "
"literal string, wrap it in a 'StringIO' object.",
FutureWarning,
stacklevel=find_stack_level(),
)
if parser == "lxml":
lxml = import_optional_dependency("lxml.etree", errors="ignore")
if lxml is not None:
p = _LxmlFrameParser(
path_or_buffer,
xpath,
namespaces,
elems_only,
attrs_only,
names,
dtype,
converters,
parse_dates,
encoding,
stylesheet,
iterparse,
compression,
storage_options,
)
else:
raise ImportError("lxml not found, please install or use the etree parser.")
elif parser == "etree":
p = _EtreeFrameParser(
path_or_buffer,
xpath,
namespaces,
elems_only,
attrs_only,
names,
dtype,
converters,
parse_dates,
encoding,
stylesheet,
iterparse,
compression,
storage_options,
)
else:
raise ValueError("Values for parser can only be lxml or etree.")
data_dicts = p.parse_data()
return _data_to_frame(
data=data_dicts,
dtype=dtype,
converters=converters,
parse_dates=parse_dates,
dtype_backend=dtype_backend,
**kwargs,
)
@doc(
storage_options=_shared_docs["storage_options"],
decompression_options=_shared_docs["decompression_options"] % "path_or_buffer",
)
def read_xml(
path_or_buffer: FilePath | ReadBuffer[bytes] | ReadBuffer[str],
*,
xpath: str = "./*",
namespaces: dict[str, str] | None = None,
elems_only: bool = False,
attrs_only: bool = False,
names: Sequence[str] | None = None,
dtype: DtypeArg | None = None,
converters: ConvertersArg | None = None,
parse_dates: ParseDatesArg | None = None,
# encoding can not be None for lxml and StringIO input
encoding: str | None = "utf-8",
parser: XMLParsers = "lxml",
stylesheet: FilePath | ReadBuffer[bytes] | ReadBuffer[str] | None = None,
iterparse: dict[str, list[str]] | None = None,
compression: CompressionOptions = "infer",
storage_options: StorageOptions | None = None,
dtype_backend: DtypeBackend | lib.NoDefault = lib.no_default,
) -> DataFrame:
r"""
Read XML document into a :class:`~pandas.DataFrame` object.
.. versionadded:: 1.3.0
Parameters
----------
path_or_buffer : str, path object, or file-like object
String, path object (implementing ``os.PathLike[str]``), or file-like
object implementing a ``read()`` function. The string can be any valid XML
string or a path. The string can further be a URL. Valid URL schemes
include http, ftp, s3, and file.
.. deprecated:: 2.1.0
Passing xml literal strings is deprecated.
Wrap literal xml input in ``io.StringIO`` or ``io.BytesIO`` instead.
xpath : str, optional, default './\*'
The ``XPath`` to parse required set of nodes for migration to
:class:`~pandas.DataFrame`.``XPath`` should return a collection of elements
and not a single element. Note: The ``etree`` parser supports limited ``XPath``
expressions. For more complex ``XPath``, use ``lxml`` which requires
installation.
namespaces : dict, optional
The namespaces defined in XML document as dicts with key being
namespace prefix and value the URI. There is no need to include all
namespaces in XML, only the ones used in ``xpath`` expression.
Note: if XML document uses default namespace denoted as
`xmlns='<URI>'` without a prefix, you must assign any temporary
namespace prefix such as 'doc' to the URI in order to parse
underlying nodes and/or attributes. For example, ::
namespaces = {{"doc": "https://example.com"}}
elems_only : bool, optional, default False
Parse only the child elements at the specified ``xpath``. By default,
all child elements and non-empty text nodes are returned.
attrs_only : bool, optional, default False
Parse only the attributes at the specified ``xpath``.
By default, all attributes are returned.
names : list-like, optional
Column names for DataFrame of parsed XML data. Use this parameter to
rename original element names and distinguish same named elements and
attributes.
dtype : Type name or dict of column -> type, optional
Data type for data or columns. E.g. {{'a': np.float64, 'b': np.int32,
'c': 'Int64'}}
Use `str` or `object` together with suitable `na_values` settings
to preserve and not interpret dtype.
If converters are specified, they will be applied INSTEAD
of dtype conversion.
.. versionadded:: 1.5.0
converters : dict, optional
Dict of functions for converting values in certain columns. Keys can either
be integers or column labels.
.. versionadded:: 1.5.0
parse_dates : bool or list of int or names or list of lists or dict, default False
Identifiers to parse index or columns to datetime. The behavior is as follows:
* boolean. If True -> try parsing the index.
* list of int or names. e.g. If [1, 2, 3] -> try parsing columns 1, 2, 3
each as a separate date column.
* list of lists. e.g. If [[1, 3]] -> combine columns 1 and 3 and parse as
a single date column.
* dict, e.g. {{'foo' : [1, 3]}} -> parse columns 1, 3 as date and call
result 'foo'
.. versionadded:: 1.5.0
encoding : str, optional, default 'utf-8'
Encoding of XML document.
parser : {{'lxml','etree'}}, default 'lxml'
Parser module to use for retrieval of data. Only 'lxml' and
'etree' are supported. With 'lxml' more complex ``XPath`` searches
and ability to use XSLT stylesheet are supported.
stylesheet : str, path object or file-like object
A URL, file-like object, or a raw string containing an XSLT script.
This stylesheet should flatten complex, deeply nested XML documents
for easier parsing. To use this feature you must have ``lxml`` module
installed and specify 'lxml' as ``parser``. The ``xpath`` must
reference nodes of transformed XML document generated after XSLT
transformation and not the original XML document. Only XSLT 1.0
scripts and not later versions is currently supported.
iterparse : dict, optional
The nodes or attributes to retrieve in iterparsing of XML document
as a dict with key being the name of repeating element and value being
list of elements or attribute names that are descendants of the repeated
element. Note: If this option is used, it will replace ``xpath`` parsing
and unlike ``xpath``, descendants do not need to relate to each other but can
exist any where in document under the repeating element. This memory-
efficient method should be used for very large XML files (500MB, 1GB, or 5GB+).
For example, ::
iterparse = {{"row_element": ["child_elem", "attr", "grandchild_elem"]}}
.. versionadded:: 1.5.0
{decompression_options}
.. versionchanged:: 1.4.0 Zstandard support.
{storage_options}
dtype_backend : {{'numpy_nullable', 'pyarrow'}}, default 'numpy_nullable'
Back-end data type applied to the resultant :class:`DataFrame`
(still experimental). Behaviour is as follows:
* ``"numpy_nullable"``: returns nullable-dtype-backed :class:`DataFrame`
(default).
* ``"pyarrow"``: returns pyarrow-backed nullable :class:`ArrowDtype`
DataFrame.
.. versionadded:: 2.0
Returns
-------
df
A DataFrame.
See Also
--------
read_json : Convert a JSON string to pandas object.
read_html : Read HTML tables into a list of DataFrame objects.
Notes
-----
This method is best designed to import shallow XML documents in
following format which is the ideal fit for the two-dimensions of a
``DataFrame`` (row by column). ::
<root>
<row>
<column1>data</column1>
<column2>data</column2>
<column3>data</column3>
...
</row>
<row>
...
</row>
...
</root>
As a file format, XML documents can be designed any way including
layout of elements and attributes as long as it conforms to W3C
specifications. Therefore, this method is a convenience handler for
a specific flatter design and not all possible XML structures.
However, for more complex XML documents, ``stylesheet`` allows you to
temporarily redesign original document with XSLT (a special purpose
language) for a flatter version for migration to a DataFrame.
This function will *always* return a single :class:`DataFrame` or raise
exceptions due to issues with XML document, ``xpath``, or other
parameters.
See the :ref:`read_xml documentation in the IO section of the docs
<io.read_xml>` for more information in using this method to parse XML
files to DataFrames.
Examples
--------
>>> import io
>>> xml = '''<?xml version='1.0' encoding='utf-8'?>
... <data xmlns="http://example.com">
... <row>
... <shape>square</shape>
... <degrees>360</degrees>
... <sides>4.0</sides>
... </row>
... <row>
... <shape>circle</shape>
... <degrees>360</degrees>
... <sides/>
... </row>
... <row>
... <shape>triangle</shape>
... <degrees>180</degrees>
... <sides>3.0</sides>
... </row>
... </data>'''
>>> df = pd.read_xml(io.StringIO(xml))
>>> df
shape degrees sides
0 square 360 4.0
1 circle 360 NaN
2 triangle 180 3.0
>>> xml = '''<?xml version='1.0' encoding='utf-8'?>
... <data>
... <row shape="square" degrees="360" sides="4.0"/>
... <row shape="circle" degrees="360"/>
... <row shape="triangle" degrees="180" sides="3.0"/>
... </data>'''
>>> df = pd.read_xml(io.StringIO(xml), xpath=".//row")
>>> df
shape degrees sides
0 square 360 4.0
1 circle 360 NaN
2 triangle 180 3.0
>>> xml = '''<?xml version='1.0' encoding='utf-8'?>
... <doc:data xmlns:doc="https://example.com">
... <doc:row>
... <doc:shape>square</doc:shape>
... <doc:degrees>360</doc:degrees>
... <doc:sides>4.0</doc:sides>
... </doc:row>
... <doc:row>
... <doc:shape>circle</doc:shape>
... <doc:degrees>360</doc:degrees>
... <doc:sides/>
... </doc:row>
... <doc:row>
... <doc:shape>triangle</doc:shape>
... <doc:degrees>180</doc:degrees>
... <doc:sides>3.0</doc:sides>
... </doc:row>
... </doc:data>'''
>>> df = pd.read_xml(io.StringIO(xml),
... xpath="//doc:row",
... namespaces={{"doc": "https://example.com"}})
>>> df
shape degrees sides
0 square 360 4.0
1 circle 360 NaN
2 triangle 180 3.0
"""
check_dtype_backend(dtype_backend)
return _parse(
path_or_buffer=path_or_buffer,
xpath=xpath,
namespaces=namespaces,
elems_only=elems_only,
attrs_only=attrs_only,
names=names,
dtype=dtype,
converters=converters,
parse_dates=parse_dates,
encoding=encoding,
parser=parser,
stylesheet=stylesheet,
iterparse=iterparse,
compression=compression,
storage_options=storage_options,
dtype_backend=dtype_backend,
)
| [
"noreply@github.com"
] | noreply@github.com |
046c143add2698a9229d1b07fa99e3656b742dbf | 8d5e41b9ea09cf5c8bd29f8288e1d31c0331b3a0 | /test/outFull_HLT_Run3TRK_ROICaloROIPF_Mu_oldJECs_data323775_lumijson_dump.py | 2ce3b959d70ea4a527e22df3e03ac0d0d4e8b21d | [] | no_license | SWuchterl/RecoBTag-PerformanceMeasurements | 073d7ad9f270695b949804567d4f32a693f5f3f2 | 5e24364be195a8f9a42aae265c6ab7e3e5fa2c1e | refs/heads/Run3_ForJIRA | 2022-05-20T05:59:32.337883 | 2022-01-04T11:27:49 | 2022-01-04T11:27:49 | 224,145,402 | 1 | 4 | null | 2021-12-08T13:35:31 | 2019-11-26T08:53:50 | Python | UTF-8 | Python | false | false | 5,028,515 | py | import FWCore.ParameterSet.Config as cms
from HeterogeneousCore.CUDACore.SwitchProducerCUDA import SwitchProducerCUDA
process = cms.Process("HLT2")
process.source = cms.Source("PoolSource",
fileNames = cms.untracked.vstring('/store/data/Run2018D/EphemeralHLTPhysics1/RAW/v1/000/323/775/00000/08D3F006-5E29-7945-B32A-CEF9CA8CA51E.root'),
inputCommands = cms.untracked.vstring('keep *'),
lumisToProcess = cms.untracked.VLuminosityBlockRange("323775:38-323775:81", "323775:84-323775:151"),
secondaryFileNames = cms.untracked.vstring(),
skipEvents = cms.untracked.uint32(0)
)
process.HLTConfigVersion = cms.PSet(
tableName = cms.string('/dev/CMSSW_12_2_0/GRun/V6')
)
process.HLTIter0GroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0PSetTrajectoryFilterIT')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useHitsSplitting = cms.bool(False),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter0HighPtTkMuPSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0HighPtTkMuPSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTIter0HighPtTkMuPSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter0IterL3FromL1MuonGroupedCkfTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(10.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter0IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(1000.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3FromL1MuonGroupedCkfTrajectoryFilterIT')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(True),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(1.0),
maxCand = cms.int32(5),
minNrOfHitsForRebuild = cms.int32(2),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3FromL1MuonGroupedCkfTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter0IterL3MuonGroupedCkfTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(10.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter0IterL3MuonPSetGroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(1000.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3MuonGroupedCkfTrajectoryFilterIT')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(True),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(1.0),
maxCand = cms.int32(5),
minNrOfHitsForRebuild = cms.int32(2),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3MuonGroupedCkfTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter0PSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator9'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter0PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTIter0PSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter1GroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter1ESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(5.0),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter1PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter1PSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter1ESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter1PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter1PSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter2GroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter2PSetTrajectoryFilterIT')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter2PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useHitsSplitting = cms.bool(False),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter2HighPtTkMuPSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter2HighPtTkMuESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter2HighPtTkMuPSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTIter2HighPtTkMuPSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(3),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter2IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter2HighPtTkMuESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(1000.0),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(False),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3FromL1MuonPSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter2IterL3FromL1MuonPSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(3),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter2IterL3MuonPSetGroupedCkfTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter2HighPtTkMuESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(1000.0),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(False),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3MuonPSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTIter2IterL3MuonPSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(3),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter2PSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter2ESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter2PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTIter2PSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(1),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter3PSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter3ESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter3PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTIter3PSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTIter4PSetTrajectoryBuilderIT = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltIter4ESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(1),
minNrOfHitsForRebuild = cms.untracked.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTIter4PSetTrajectoryFilterIT')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTIter4PSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(6),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetCkf3HitTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(-1),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetCkfBaseTrajectoryFilter_block = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetCkfTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(-1),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetCkfTrajectoryFilterIterL3OI = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(10.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(-1),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(3.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedCkfTrajectoryBuilderForHI = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2MeasurementEstimator9'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedCkfTrajectoryFilterForHI')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(0.0),
maxPtForLooperReconstruction = cms.double(0.0),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForHI'),
propagatorOpposite = cms.string('PropagatorWithMaterialOppositeForHI'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedCkfTrajectoryFilterForHI')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedCkfTrajectoryBuilderForHIGlobalPt8 = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2MeasurementEstimator9'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedCkfTrajectoryFilterForHIGlobalPt8')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(0.0),
maxPtForLooperReconstruction = cms.double(0.0),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForHI'),
propagatorOpposite = cms.string('PropagatorWithMaterialOppositeForHI'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedCkfTrajectoryFilterForHIGlobalPt8')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedCkfTrajectoryFilterForHI = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(0.701),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(6),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedCkfTrajectoryFilterForHIGlobalPt8 = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(0.701),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(8.0),
minimumNumberOfHits = cms.int32(6),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedQuadStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPDetachedQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedQuadStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedQuadStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedQuadStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPDetachedQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedQuadStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedQuadStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPDetachedQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedQuadStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedQuadStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.075),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedQuadStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedQuadStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CompositeTrajectoryFilter'),
filters = cms.VPSet(cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedStepTrajectoryFilterBase')
))
)
process.HLTPSetDetachedStepTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(2),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.075),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedTripletStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPDetachedTripletStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedTripletStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedTripletStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedTripletStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPDetachedTripletStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedTripletStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedTripletStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPDetachedTripletStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetDetachedTripletStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetDetachedTripletStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.075),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedTripletStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetDetachedTripletStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetGroupedCkfTrajectoryBuilderIterL3ForOI = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltSiStripClusters'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
deltaEta = cms.double(-1.0),
deltaPhi = cms.double(-1.0),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(1000.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfTrajectoryFilterIterL3OI')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(5),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
propagatorProximity = cms.string('SteppingHelixPropagatorAny'),
requireSeedHitsInRebuild = cms.bool(False),
rescaleErrorIfFail = cms.double(1.0),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfTrajectoryFilterIterL3OI')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True),
useSeedLayer = cms.bool(False)
)
process.HLTPSetHighPtTripletStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPHighPtTripletStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetHighPtTripletStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetHighPtTripletStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetHighPtTripletStepTrajectoryBuilderForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPHighPtTripletStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetHighPtTripletStepTrajectoryFilterForDmesonPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetHighPtTripletStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPHighPtTripletStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetHighPtTripletStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetHighPtTripletStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPHighPtTripletStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetHighPtTripletStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetHighPtTripletStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(5),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetHighPtTripletStepTrajectoryFilterForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(3.5),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetHighPtTripletStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetHighPtTripletStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.7),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialCkfTrajectoryBuilderForHI = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2MeasurementEstimator30'),
intermediateCleaning = cms.bool(False),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForHI'),
propagatorOpposite = cms.string('PropagatorWithMaterialOppositeForHI'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialCkfTrajectoryFilterForHI')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTPSetInitialCkfTrajectoryFilterForHI = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(6),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(True),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryBuilderForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(True),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterForDmesonPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(True),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(True),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryBuilderPreSplittingForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterPreSplittingForDmesonPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryBuilderPreSplittingForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterPreSplittingForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryBuilderPreSplittingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterPreSplittingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetInitialStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(2),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterBasePreSplittingForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(3.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterBasePreSplittingForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterBasePreSplittingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.2),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(3.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.6),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetInitialStepTrajectoryFilterPreSplittingForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('CompositeTrajectoryFilter'),
filters = cms.VPSet(
cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterBasePreSplittingForDmesonPPOnAA')
),
cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterShapePreSplittingPPOnAA')
)
)
)
process.HLTPSetInitialStepTrajectoryFilterPreSplittingForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CompositeTrajectoryFilter'),
filters = cms.VPSet(
cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterBasePreSplittingForFullTrackingPPOnAA')
),
cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterShapePreSplittingPPOnAA')
)
)
)
process.HLTPSetInitialStepTrajectoryFilterPreSplittingPPOnAA = cms.PSet(
ComponentType = cms.string('CompositeTrajectoryFilter'),
filters = cms.VPSet(
cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterBasePreSplittingPPOnAA')
),
cms.PSet(
refToPSet_ = cms.string('HLTPSetInitialStepTrajectoryFilterShapePreSplittingPPOnAA')
)
)
)
process.HLTPSetInitialStepTrajectoryFilterShapePreSplittingPPOnAA = cms.PSet(
ComponentType = cms.string('StripSubClusterShapeTrajectoryFilter'),
layerMask = cms.PSet(
TEC = cms.bool(False),
TIB = cms.vuint32(1, 2),
TID = cms.vuint32(1, 2),
TOB = cms.bool(False)
),
maxNSat = cms.uint32(3),
maxTrimmedSizeDiffNeg = cms.double(1.0),
maxTrimmedSizeDiffPos = cms.double(0.7),
seedCutMIPs = cms.double(0.35),
seedCutSN = cms.double(7.0),
subclusterCutMIPs = cms.double(0.45),
subclusterCutSN = cms.double(12.0),
subclusterWindow = cms.double(0.7),
trimMaxADC = cms.double(30.0),
trimMaxFracNeigh = cms.double(0.25),
trimMaxFracTotal = cms.double(0.15)
)
process.HLTPSetJetCoreStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2MeasurementEstimator30'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetJetCoreStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(50),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetJetCoreStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetJetCoreStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2MeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(50),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetJetCoreStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetJetCoreStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2MeasurementEstimator30'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(50),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetJetCoreStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetJetCoreStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetJetCoreStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetJetCoreStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtQuadStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtQuadStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtQuadStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtQuadStepTrajectoryBuilderForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtQuadStepTrajectoryFilterForDmesonPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtQuadStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtQuadStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtQuadStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtQuadStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtQuadStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtQuadStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.075),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtQuadStepTrajectoryFilterForDmesonPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(2.8),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtQuadStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtQuadStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.49),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(1),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.075),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtTripletStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtTripletStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtTripletStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtTripletStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtTripletStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtTripletStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtTripletStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtTripletStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPLowPtTripletStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(4),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetLowPtTripletStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetLowPtTripletStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.075),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtTripletStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(2.8),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetLowPtTripletStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.49),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMixedStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeTightMeasurementEstimator16'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMixedStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForMixedStep'),
propagatorOpposite = cms.string('PropagatorWithMaterialForMixedStepOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMixedStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetMixedStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.4),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMixedStepTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.05),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMixedTripletStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPMixedTripletStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMixedTripletStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForMixedStep'),
propagatorOpposite = cms.string('PropagatorWithMaterialForMixedStepOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMixedTripletStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetMixedTripletStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPMixedTripletStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForMixedStep'),
propagatorOpposite = cms.string('PropagatorWithMaterialForMixedStepOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMixedTripletStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetMixedTripletStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPMixedTripletStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForMixedStep'),
propagatorOpposite = cms.string('PropagatorWithMaterialForMixedStepOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMixedTripletStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetMixedTripletStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.4),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMixedTripletStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.4),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMixedTripletStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.4),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.4),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMuTrackJpsiEffTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuTrackJpsiEffTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTPSetMuTrackJpsiEffTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(9),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMuTrackJpsiTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(1),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuTrackJpsiTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTPSetMuTrackJpsiTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(8),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(10.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMuonCkfTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('MuonCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
deltaEta = cms.double(-1.0),
deltaPhi = cms.double(-1.0),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(False),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
propagatorProximity = cms.string('SteppingHelixPropagatorAny'),
rescaleErrorIfFail = cms.double(1.0),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSeedLayer = cms.bool(False)
)
process.HLTPSetMuonCkfTrajectoryBuilderSeedHit = cms.PSet(
ComponentType = cms.string('MuonCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
deltaEta = cms.double(-1.0),
deltaPhi = cms.double(-1.0),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(False),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterial'),
propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'),
propagatorProximity = cms.string('SteppingHelixPropagatorAny'),
rescaleErrorIfFail = cms.double(1.0),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSeedLayer = cms.bool(True)
)
process.HLTPSetMuonCkfTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(-1),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.9),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetMuonTrackingRegionBuilder8356 = cms.PSet(
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.2),
DeltaR = cms.double(0.2),
DeltaZ = cms.double(15.9),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(False),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(False),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(False),
Pt_min = cms.double(1.5),
Rescale_Dz = cms.double(3.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
)
process.HLTPSetPixelLessStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPPixelLessStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelLessStepTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelLessStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetPixelLessStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPPixelLessStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelLessStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetPixelLessStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPPixelLessStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetCkfBaseTrajectoryFilter_block')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelLessStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetPixelLessStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelLessStepTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.05),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelLessStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelLessStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(2.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairCkfTrajectoryBuilderForHI = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator9ForHI'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairCkfTrajectoryFilterForHI')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForHI'),
propagatorOpposite = cms.string('PropagatorWithMaterialOppositeForHI'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairCkfTrajectoryFilterForHI')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetPixelPairCkfTrajectoryBuilderForHIGlobalPt8 = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator9ForHI'),
foundHitBonus = cms.double(5.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairCkfTrajectoryFilterForHIGlobalPt8')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialForHI'),
propagatorOpposite = cms.string('PropagatorWithMaterialOppositeForHI'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairCkfTrajectoryFilterForHIGlobalPt8')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(True)
)
process.HLTPSetPixelPairCkfTrajectoryFilterForHI = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(100),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(6),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairCkfTrajectoryFilterForHIGlobalPt8 = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(100),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(8.0),
minimumNumberOfHits = cms.int32(6),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPPixelPairStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairStepTrajectoryFilterInOut')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPPixelPairStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairStepTrajectoryFilterInOutForFullTrackingPPOnAA')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPPixelPairStepChi2ChargeMeasurementEstimator9'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairStepTrajectoryFilterInOutPPOnAA')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(3),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(5),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetPixelPairStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(2),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilterInOut = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(1),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilterInOutForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(1),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilterInOutPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(1),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPixelPairStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(0),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(999),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetPvClusterComparer = cms.PSet(
track_chi2_max = cms.double(9999999.0),
track_prob_min = cms.double(-1.0),
track_pt_max = cms.double(10.0),
track_pt_min = cms.double(2.5)
)
process.HLTPSetPvClusterComparerForBTag = cms.PSet(
track_chi2_max = cms.double(20.0),
track_prob_min = cms.double(-1.0),
track_pt_max = cms.double(20.0),
track_pt_min = cms.double(0.1)
)
process.HLTPSetPvClusterComparerForIT = cms.PSet(
track_chi2_max = cms.double(20.0),
track_prob_min = cms.double(-1.0),
track_pt_max = cms.double(20.0),
track_pt_min = cms.double(1.0)
)
process.HLTPSetTobTecStepInOutTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepInOutTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepInOutTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepInOutTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(2.0),
minimumNumberOfHits = cms.int32(4),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryBuilder = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPTobTecStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTobTecStepInOutTrajectoryFilter')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTobTecStepTrajectoryFilter')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryBuilderForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPTobTecStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTobTecStepInOutTrajectoryFilterForFullTrackingPPOnAA')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTobTecStepTrajectoryFilterForFullTrackingPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryBuilderPPOnAA = cms.PSet(
ComponentType = cms.string('GroupedCkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(False),
bestHitOnly = cms.bool(True),
estimator = cms.string('hltESPTobTecStepChi2ChargeMeasurementEstimator16'),
foundHitBonus = cms.double(10.0),
inOutTrajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTobTecStepInOutTrajectoryFilterPPOnAA')
),
intermediateCleaning = cms.bool(True),
keepOriginalIfRebuildFails = cms.bool(False),
lockHits = cms.bool(True),
lostHitPenalty = cms.double(30.0),
maxCand = cms.int32(2),
maxDPhiForLooperReconstruction = cms.double(2.0),
maxPtForLooperReconstruction = cms.double(0.7),
minNrOfHitsForRebuild = cms.int32(4),
propagatorAlong = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOpposite = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
requireSeedHitsInRebuild = cms.bool(True),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTobTecStepTrajectoryFilterPPOnAA')
),
updator = cms.string('hltESPKFUpdator'),
useSameTrajFilter = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryFilterBase = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.1),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryFilterForFullTrackingPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(5.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTobTecStepTrajectoryFilterPPOnAA = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(2.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(0),
maxLostHitsFraction = cms.double(0.1),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(2.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(1),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTrajectoryBuilderForElectrons = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
intermediateCleaning = cms.bool(False),
lostHitPenalty = cms.double(90.0),
maxCand = cms.int32(5),
propagatorAlong = cms.string('hltESPFwdElectronPropagator'),
propagatorOpposite = cms.string('hltESPBwdElectronPropagator'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTrajectoryFilterForElectrons')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTPSetTrajectoryBuilderForGsfElectrons = cms.PSet(
ComponentType = cms.string('CkfTrajectoryBuilder'),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
alwaysUseInvalidHits = cms.bool(True),
estimator = cms.string('hltESPChi2ChargeMeasurementEstimator2000'),
intermediateCleaning = cms.bool(False),
lostHitPenalty = cms.double(90.0),
maxCand = cms.int32(5),
propagatorAlong = cms.string('hltESPFwdElectronPropagator'),
propagatorOpposite = cms.string('hltESPBwdElectronPropagator'),
seedAs5DHit = cms.bool(False),
trajectoryFilter = cms.PSet(
refToPSet_ = cms.string('HLTPSetTrajectoryFilterForElectrons')
),
updator = cms.string('hltESPKFUpdator')
)
process.HLTPSetTrajectoryFilterForElectrons = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(-1),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(-1),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(2.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTrajectoryFilterIT = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(100),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.3),
minimumNumberOfHits = cms.int32(3),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetTrajectoryFilterL3 = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(1000000000),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(0.5),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTPSetbJetRegionalTrajectoryFilter = cms.PSet(
ComponentType = cms.string('CkfBaseTrajectoryFilter'),
chargeSignificance = cms.double(-1.0),
constantValueForLostHitsFractionFilter = cms.double(1.0),
extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4),
highEtaSwitch = cms.double(5.0),
maxCCCLostHits = cms.int32(9999),
maxConsecLostHits = cms.int32(1),
maxLostHits = cms.int32(1),
maxLostHitsFraction = cms.double(999.0),
maxNumberOfHits = cms.int32(8),
minGoodStripCharge = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
minHitsAtHighEta = cms.int32(5),
minHitsMinPt = cms.int32(3),
minNumberOfHitsForLoopers = cms.int32(13),
minNumberOfHitsPerLoop = cms.int32(4),
minPt = cms.double(1.0),
minimumNumberOfHits = cms.int32(5),
nSigmaMinPt = cms.double(5.0),
pixelSeedExtension = cms.bool(False),
seedExtension = cms.int32(0),
seedPairPenalty = cms.int32(0),
strictSeedExtension = cms.bool(False)
)
process.HLTSeedFromConsecutiveHitsCreator = cms.PSet(
ComponentName = cms.string('SeedFromConsecutiveHitsCreator'),
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string(''),
propagator = cms.string('PropagatorWithMaterial')
)
process.HLTSeedFromConsecutiveHitsCreatorIT = cms.PSet(
ComponentName = cms.string('SeedFromConsecutiveHitsCreator'),
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf')
)
process.HLTSeedFromConsecutiveHitsTripletOnlyCreator = cms.PSet(
ComponentName = cms.string('SeedFromConsecutiveHitsTripletOnlyCreator'),
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf')
)
process.HLTSeedFromProtoTracks = cms.PSet(
ComponentName = cms.string('SeedFromConsecutiveHitsCreator'),
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf')
)
process.HLTSiStripClusterChargeCutForHI = cms.PSet(
value = cms.double(2069.0)
)
process.HLTSiStripClusterChargeCutLoose = cms.PSet(
value = cms.double(1620.0)
)
process.HLTSiStripClusterChargeCutNone = cms.PSet(
value = cms.double(-1.0)
)
process.HLTSiStripClusterChargeCutTight = cms.PSet(
value = cms.double(1945.0)
)
process.HLTSiStripClusterChargeCutTiny = cms.PSet(
value = cms.double(800.0)
)
process.maxEvents = cms.untracked.PSet(
input = cms.untracked.int32(-1),
output = cms.optional.untracked.allowed(cms.int32,cms.PSet)
)
process.maxLuminosityBlocks = cms.untracked.PSet(
input = cms.untracked.int32(-1)
)
process.nanoDQMIO_perLSoutput = cms.PSet(
MEsToSave = cms.untracked.vstring(
'Muons/MuonRecoAnalyzer/',
'Muons/MuonIdDQM/GlobalMuons/hDT1Pullx'
)
)
process.options = cms.untracked.PSet(
FailPath = cms.untracked.vstring(),
IgnoreCompletely = cms.untracked.vstring(),
Rethrow = cms.untracked.vstring(),
SkipEvent = cms.untracked.vstring(),
allowUnscheduled = cms.obsolete.untracked.bool,
canDeleteEarly = cms.untracked.vstring(),
deleteNonConsumedUnscheduledModules = cms.untracked.bool(True),
dumpOptions = cms.untracked.bool(False),
emptyRunLumiMode = cms.obsolete.untracked.string,
eventSetup = cms.untracked.PSet(
forceNumberOfConcurrentIOVs = cms.untracked.PSet(
allowAnyLabel_=cms.required.untracked.uint32
),
numberOfConcurrentIOVs = cms.untracked.uint32(0)
),
fileMode = cms.untracked.string('FULLMERGE'),
forceEventSetupCacheClearOnNewRun = cms.untracked.bool(False),
makeTriggerResults = cms.untracked.bool(True),
numberOfConcurrentLuminosityBlocks = cms.untracked.uint32(0),
numberOfConcurrentRuns = cms.untracked.uint32(1),
numberOfStreams = cms.untracked.uint32(1),
numberOfThreads = cms.untracked.uint32(1),
printDependencies = cms.untracked.bool(False),
sizeOfStackForThreadsInKB = cms.untracked.uint32(10240),
throwIfIllegalParameter = cms.untracked.bool(True),
wantSummary = cms.untracked.bool(False)
)
process.transferSystem = cms.PSet(
default = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('Lustre'),
streamLookArea = cms.PSet(
),
test = cms.vstring('Lustre')
),
destinations = cms.vstring(
'Tier0',
'DQM',
'ECAL',
'EventDisplay',
'Lustre',
'None'
),
streamA = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('Lustre'),
test = cms.vstring('Lustre')
),
streamCalibration = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('None'),
test = cms.vstring('Lustre')
),
streamDQM = cms.PSet(
default = cms.vstring('DQM'),
emulator = cms.vstring('None'),
test = cms.vstring(
'DQM',
'Lustre'
)
),
streamDQMCalibration = cms.PSet(
default = cms.vstring('DQM'),
emulator = cms.vstring('None'),
test = cms.vstring(
'DQM',
'Lustre'
)
),
streamEcalCalibration = cms.PSet(
default = cms.vstring('ECAL'),
emulator = cms.vstring('None'),
test = cms.vstring('ECAL')
),
streamEventDisplay = cms.PSet(
default = cms.vstring(
'EventDisplay',
'Tier0'
),
emulator = cms.vstring('None'),
test = cms.vstring(
'EventDisplay',
'Lustre'
)
),
streamExpressCosmics = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('Lustre'),
test = cms.vstring('Lustre')
),
streamLookArea = cms.PSet(
default = cms.vstring('DQM'),
emulator = cms.vstring('None'),
test = cms.vstring(
'DQM',
'Lustre'
)
),
streamNanoDST = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('None'),
test = cms.vstring('Lustre')
),
streamRPCMON = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('None'),
test = cms.vstring('Lustre')
),
streamTrackerCalibration = cms.PSet(
default = cms.vstring('Tier0'),
emulator = cms.vstring('None'),
test = cms.vstring('Lustre')
),
transferModes = cms.vstring(
'default',
'test',
'emulator'
)
)
process.hltAK4CaloAbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4CaloHLT'),
level = cms.string('L3Absolute')
)
process.hltAK4CaloCorrector = cms.EDProducer("ChainedJetCorrectorProducer",
correctors = cms.VInputTag("hltAK4CaloFastJetCorrector", "hltAK4CaloRelativeCorrector", "hltAK4CaloAbsoluteCorrector", "hltAK4CaloResidualCorrector")
)
process.hltAK4CaloFastJetCorrector = cms.EDProducer("L1FastjetCorrectorProducer",
algorithm = cms.string('AK4CaloHLT'),
level = cms.string('L1FastJet'),
srcRho = cms.InputTag("hltFixedGridRhoFastjetAllCalo")
)
process.hltAK4CaloJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(14327),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltTowerMakerForAll"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(0.9),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4CaloJetsCorrected = cms.EDProducer("CorrectedCaloJetProducer",
correctors = cms.VInputTag("hltAK4CaloCorrector"),
src = cms.InputTag("hltAK4CaloJets")
)
process.hltAK4CaloJetsCorrectedIDPassed = cms.EDProducer("CorrectedCaloJetProducer",
correctors = cms.VInputTag("hltAK4CaloCorrector"),
src = cms.InputTag("hltAK4CaloJetsIDPassed")
)
process.hltAK4CaloJetsIDPassed = cms.EDProducer("HLTCaloJetIDProducer",
JetIDParams = cms.PSet(
ebRecHitsColl = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
eeRecHitsColl = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
hbheRecHitsColl = cms.InputTag("hltHbhereco"),
hfRecHitsColl = cms.InputTag("hltHfreco"),
hoRecHitsColl = cms.InputTag("hltHoreco"),
useRecHits = cms.bool(True)
),
jetsInput = cms.InputTag("hltAK4CaloJets"),
max_EMF = cms.double(999.0),
min_EMF = cms.double(1e-06),
min_N90 = cms.int32(-2),
min_N90hits = cms.int32(2)
)
process.hltAK4CaloJetsPF = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltTowerMakerForAll"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4CaloRelativeCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4CaloHLT'),
level = cms.string('L2Relative')
)
process.hltAK4CaloResidualCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4CaloHLT'),
level = cms.string('L2L3Residual')
)
process.hltAK4Iter0TrackJets4Iter1TauReg = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.2),
DzTrVtxMax = cms.double(0.5),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(30.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(True),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.1),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('TrackJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(14327),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(0.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltTrackIter0RefsForJets4Iter1TauReg"),
srcPVs = cms.InputTag("hltTrimmedPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(0.9),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4Iter1TrackJets4Iter2 = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.2),
DzTrVtxMax = cms.double(0.5),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(30.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(True),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.1),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(7.5),
jetType = cms.string('TrackJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(14327),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(0.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltIter1TrackRefsForJets4Iter2"),
srcPVs = cms.InputTag("hltTrimmedPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(0.9),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4Iter1TrackJets4Iter2TauReg = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.2),
DzTrVtxMax = cms.double(0.5),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(30.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(True),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.1),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(7.5),
jetType = cms.string('TrackJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(14327),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(0.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltIter1TrackRefsForJets4Iter2TauReg"),
srcPVs = cms.InputTag("hltTrimmedPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(0.9),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4PFAbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L3Absolute')
)
process.hltAK4PFCorrector = cms.EDProducer("ChainedJetCorrectorProducer",
correctors = cms.VInputTag("hltAK4PFFastJetCorrector", "hltAK4PFRelativeCorrector", "hltAK4PFAbsoluteCorrector", "hltAK4PFResidualCorrector")
)
process.hltAK4PFCorrectorROIForBTag = cms.EDProducer("ChainedJetCorrectorProducer",
correctors = cms.VInputTag("hltAK4PFFastJetCorrectorROIForBTag", "hltAK4PFRelativeCorrector", "hltAK4PFAbsoluteCorrector", "hltAK4PFResidualCorrector")
)
process.hltAK4PFFastJetCorrector = cms.EDProducer("L1FastjetCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L1FastJet'),
srcRho = cms.InputTag("hltFixedGridRhoFastjetAll")
)
process.hltAK4PFFastJetCorrectorROIForBTag = cms.EDProducer("L1FastjetCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L1FastJet'),
srcRho = cms.InputTag("hltFixedGridRhoFastjetAllROIForBTag")
)
process.hltAK4PFJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(0.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltParticleFlow"),
srcPVs = cms.InputTag("hltPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4PFJetsCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PFCorrector"),
src = cms.InputTag("hltAK4PFJets")
)
process.hltAK4PFJetsCorrectedMatchedToCaloJets15 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet15"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK4PFJetsCorrectedMatchedToCaloJets30 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet30"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK4PFJetsCorrectedMatchedToCaloJets50 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet50"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK4PFJetsCorrectedMatchedToCaloJets70 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet70"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK4PFJetsCorrectedROIForBTag = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PFCorrectorROIForBTag"),
src = cms.InputTag("hltAK4PFJetsROIForBTag")
)
process.hltAK4PFJetsForTaus = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(0.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltParticleFlowForTaus"),
srcPVs = cms.InputTag("hltTrimmedPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4PFJetsLooseID = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.99),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK4PFJets"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK4PFJetsLooseIDCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PFCorrector"),
src = cms.InputTag("hltAK4PFJetsLooseID")
)
process.hltAK4PFJetsLooseIDCorrectedROIForBTag = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PFCorrectorROIForBTag"),
src = cms.InputTag("hltAK4PFJetsLooseIDROIForBTag")
)
process.hltAK4PFJetsLooseIDROIForBTag = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.99),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK4PFJetsROIForBTag"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK4PFJetsROIForBTag = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(0.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltParticleFlowROIForBTag"),
srcPVs = cms.InputTag("hltPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4PFJetsReg = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(0.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltParticleFlowReg"),
srcPVs = cms.InputTag("hltPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(False),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4PFJetsTightID = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.9),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK4PFJets"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK4PFJetsTightIDCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PFCorrector"),
src = cms.InputTag("hltAK4PFJetsTightID")
)
process.hltAK4PFJetsTightIDCorrectedROIForBTag = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PFCorrectorROIForBTag"),
src = cms.InputTag("hltAK4PFJetsTightIDROIForBTag")
)
process.hltAK4PFJetsTightIDROIForBTag = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.9),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK4PFJetsROIForBTag"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK4PFRelativeCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L2Relative')
)
process.hltAK4PFResidualCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L2L3Residual')
)
process.hltAK4PixelOnlyPFAbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L3Absolute')
)
process.hltAK4PixelOnlyPFCorrector = cms.EDProducer("ChainedJetCorrectorProducer",
correctors = cms.VInputTag("hltAK4PixelOnlyPFFastJetCorrector", "hltAK4PixelOnlyPFRelativeCorrector", "hltAK4PixelOnlyPFAbsoluteCorrector", "hltAK4PixelOnlyPFResidualCorrector")
)
process.hltAK4PixelOnlyPFFastJetCorrector = cms.EDProducer("L1FastjetCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L1FastJet'),
srcRho = cms.InputTag("hltFixedGridRhoFastjetPixelOnlyAll")
)
process.hltAK4PixelOnlyPFJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(0.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltPixelOnlyParticleFlow"),
srcPVs = cms.InputTag("hltPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK4PixelOnlyPFJetsCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PixelOnlyPFCorrector"),
src = cms.InputTag("hltAK4PixelOnlyPFJets")
)
process.hltAK4PixelOnlyPFJetsLooseID = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.99),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK4PixelOnlyPFJets"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK4PixelOnlyPFJetsLooseIDCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PixelOnlyPFCorrector"),
src = cms.InputTag("hltAK4PixelOnlyPFJetsLooseID")
)
process.hltAK4PixelOnlyPFJetsTightID = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.9),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK4PixelOnlyPFJets"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK4PixelOnlyPFJetsTightIDCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK4PixelOnlyPFCorrector"),
src = cms.InputTag("hltAK4PixelOnlyPFJetsTightID")
)
process.hltAK4PixelOnlyPFRelativeCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L2Relative')
)
process.hltAK4PixelOnlyPFResidualCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK4PFHLT'),
level = cms.string('L2L3Residual')
)
process.hltAK8CaloAbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK8CaloHLT'),
level = cms.string('L3Absolute')
)
process.hltAK8CaloCorrector = cms.EDProducer("ChainedJetCorrectorProducer",
correctors = cms.VInputTag("hltAK8CaloFastJetCorrector", "hltAK8CaloRelativeCorrector", "hltAK8CaloAbsoluteCorrector", "hltAK8CaloResidualCorrector")
)
process.hltAK8CaloFastJetCorrector = cms.EDProducer("L1FastjetCorrectorProducer",
algorithm = cms.string('AK8CaloHLT'),
level = cms.string('L1FastJet'),
srcRho = cms.InputTag("hltFixedGridRhoFastjetAllCalo")
)
process.hltAK8CaloJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(14327),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.8),
radiusPU = cms.double(0.8),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltTowerMakerForAll"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(0.9),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK8CaloJetsCorrected = cms.EDProducer("CorrectedCaloJetProducer",
correctors = cms.VInputTag("hltAK8CaloCorrector"),
src = cms.InputTag("hltAK8CaloJets")
)
process.hltAK8CaloJetsCorrectedIDPassed = cms.EDProducer("CorrectedCaloJetProducer",
correctors = cms.VInputTag("hltAK8CaloCorrector"),
src = cms.InputTag("hltAK8CaloJetsIDPassed")
)
process.hltAK8CaloJetsIDPassed = cms.EDProducer("HLTCaloJetIDProducer",
JetIDParams = cms.PSet(
ebRecHitsColl = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
eeRecHitsColl = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
hbheRecHitsColl = cms.InputTag("hltHbhereco"),
hfRecHitsColl = cms.InputTag("hltHfreco"),
hoRecHitsColl = cms.InputTag("hltHoreco"),
useRecHits = cms.bool(True)
),
jetsInput = cms.InputTag("hltAK8CaloJets"),
max_EMF = cms.double(999.0),
min_EMF = cms.double(1e-06),
min_N90 = cms.int32(-2),
min_N90hits = cms.int32(2)
)
process.hltAK8CaloJetsPF = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.8),
radiusPU = cms.double(0.8),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltTowerMakerForAll"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK8CaloRelativeCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK8CaloHLT'),
level = cms.string('L2Relative')
)
process.hltAK8CaloResidualCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK8CaloHLT'),
level = cms.string('L2L3Residual')
)
process.hltAK8HtMht = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK8CaloJetsCorrected"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(150.0),
minPtJetMht = cms.double(30.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltAK8HtMhtForMC = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK8CaloJetsCorrected"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltAK8PFAbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK8PFHLT'),
level = cms.string('L3Absolute')
)
process.hltAK8PFCorrector = cms.EDProducer("ChainedJetCorrectorProducer",
correctors = cms.VInputTag("hltAK8PFFastJetCorrector", "hltAK8PFRelativeCorrector", "hltAK8PFAbsoluteCorrector", "hltAK8PFResidualCorrector")
)
process.hltAK8PFFastJetCorrector = cms.EDProducer("L1FastjetCorrectorProducer",
algorithm = cms.string('AK8PFHLT'),
level = cms.string('L1FastJet'),
srcRho = cms.InputTag("hltFixedGridRhoFastjetAll")
)
process.hltAK8PFHTForMC = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK8PFJetsCorrected"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(40.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltAK8PFHTwJetPt200 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK8PFJetsCorrected"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(200.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltAK8PFJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(0),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(True),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(0.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.8),
radiusPU = cms.double(0.8),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltParticleFlow"),
srcPVs = cms.InputTag("hltPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK8PFJetsCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK8PFCorrector"),
src = cms.InputTag("hltAK8PFJets")
)
process.hltAK8PFJetsCorrectedMatchedToCaloJets260 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltAK8SingleCaloJet260"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK8PFJetsCorrectedMatchedToCaloJets280 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltAK8SingleCaloJet280"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK8PFJetsCorrectedMatchedToCaloJets300 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltAK8SingleCaloJet300"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK8PFJetsCorrectedMatchedToCaloJets320 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltAK8SingleCaloJet320"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltAK8PFJetsLooseID = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.99),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK8PFJets"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK8PFJetsLooseIDCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK8PFCorrector"),
src = cms.InputTag("hltAK8PFJetsLooseID")
)
process.hltAK8PFJetsTightID = cms.EDProducer("HLTPFJetIDProducer",
CEF = cms.double(0.99),
CHF = cms.double(0.0),
NCH = cms.int32(0),
NEF = cms.double(0.99),
NHF = cms.double(0.9),
NTOT = cms.int32(1),
jetsInput = cms.InputTag("hltAK8PFJets"),
maxCF = cms.double(99.0),
maxEta = cms.double(1e+99),
minPt = cms.double(20.0)
)
process.hltAK8PFJetsTightIDCorrected = cms.EDProducer("CorrectedPFJetProducer",
correctors = cms.VInputTag("hltAK8PFCorrector"),
src = cms.InputTag("hltAK8PFJetsTightID")
)
process.hltAK8PFRelativeCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK8PFHLT'),
level = cms.string('L2Relative')
)
process.hltAK8PFResidualCorrector = cms.EDProducer("LXXXCorrectorProducer",
algorithm = cms.string('AK8PFHLT'),
level = cms.string('L2L3Residual')
)
process.hltAK8TrimModJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(1),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(5.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.0),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(20.0),
jetType = cms.string('PFJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(14327),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(0.1),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.8),
radiusPU = cms.double(0.8),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltParticleFlow"),
srcPVs = cms.InputTag("hltPixelVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(0.03),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(True),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-0.9),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAK8TrimModJetsCorrectedMatchedToCaloJets300ForDB = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltAK8SingleCaloJet300"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8TrimModJets"),
TriggerType = cms.int32(85)
)
process.hltAk4JetID = cms.EDProducer("JetIDProducer",
ebRecHitsColl = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
eeRecHitsColl = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
hbheRecHitsColl = cms.InputTag("hltHbhereco"),
hfRecHitsColl = cms.InputTag("hltHfreco"),
hoRecHitsColl = cms.InputTag("hltHoreco"),
rpcRecHits = cms.InputTag("hltRpcRecHits"),
src = cms.InputTag("hltAK4CaloJets"),
useRecHits = cms.bool(True)
)
process.hltAk4JetTracksAssociatorAtVertexCalo = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltSelectorCentralJets30L1FastJeta"),
pvSrc = cms.InputTag("hltVerticesL3FilterROIForBTag"),
tracks = cms.InputTag("hltMergedTracksROIForBTag"),
useAssigned = cms.bool(False)
)
process.hltAk4JetTracksAssociatorAtVertexPF = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltAK4PFJetsROIForBTag"),
pvSrc = cms.InputTag("hltVerticesPFFilterROIForBTag"),
tracks = cms.InputTag("hltPFMuonMergingROIForBTag"),
useAssigned = cms.bool(False)
)
process.hltAk4JetTracksAssociatorAtVertexPFPuppi = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltAK4PFPuppiJets"),
pvSrc = cms.InputTag("hltVerticesPFFilterROIForBTag"),
tracks = cms.InputTag("hltPFMuonMergingROIForBTag"),
useAssigned = cms.bool(False)
)
process.hltAkIsoTau10Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau10Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau11Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau11Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau12Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau12Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau1Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau1Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau2Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau2Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau3Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau3Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau4Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau4Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau5Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau5Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau6Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau6Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau7Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau7Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau8Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau8Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTau9Regional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowersIsoTau9Regional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAkIsoTauL1sTauVeryBigORSeededRegional = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('AntiKt'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.2),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltCaloTowerL1sTauVeryBigORSeededRegional"),
srcPVs = cms.InputTag("NotUsed"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltAlCaEtaEBRechitsToDigis = cms.EDProducer("HLTRechitsToDigis",
digisIn = cms.InputTag("hltEcalDigis","ebDigis"),
digisOut = cms.string('etaEBDigis'),
recHits = cms.InputTag("hltAlCaEtaEBUncalibrator","etaEcalRecHitsEB"),
region = cms.string('barrel'),
srFlagsIn = cms.InputTag("hltEcalDigis"),
srFlagsOut = cms.string('etaEBSrFlags')
)
process.hltAlCaEtaEBUncalibrator = cms.EDProducer("EcalRecalibRecHitProducer",
EBRecHitCollection = cms.InputTag("hltAlCaEtaRecHitsFilterEBonlyRegional","etaEcalRecHitsEB"),
EBRecalibRecHitCollection = cms.string('etaEcalRecHitsEB'),
EERecHitCollection = cms.InputTag("hltAlCaEtaRecHitsFilterEBonlyRegional","etaEcalRecHitsEB"),
EERecalibRecHitCollection = cms.string('etaEcalRecHitsEE'),
doEnergyScale = cms.bool(False),
doEnergyScaleInverse = cms.bool(False),
doIntercalib = cms.bool(False),
doIntercalibInverse = cms.bool(False),
doLaserCorrections = cms.bool(False),
doLaserCorrectionsInverse = cms.bool(False)
)
process.hltAlCaEtaEERechitsToDigis = cms.EDProducer("HLTRechitsToDigis",
digisIn = cms.InputTag("hltEcalDigis","eeDigis"),
digisOut = cms.string('etaEEDigis'),
recHits = cms.InputTag("hltAlCaEtaEEUncalibrator","etaEcalRecHitsEE"),
region = cms.string('endcap'),
srFlagsIn = cms.InputTag("hltEcalDigis"),
srFlagsOut = cms.string('etaEESrFlags')
)
process.hltAlCaEtaEEUncalibrator = cms.EDProducer("EcalRecalibRecHitProducer",
EBRecHitCollection = cms.InputTag("hltAlCaEtaRecHitsFilterEEonlyRegional","etaEcalRecHitsEE"),
EBRecalibRecHitCollection = cms.string('etaEcalRecHitsEB'),
EERecHitCollection = cms.InputTag("hltAlCaEtaRecHitsFilterEEonlyRegional","etaEcalRecHitsEE"),
EERecalibRecHitCollection = cms.string('etaEcalRecHitsEE'),
doEnergyScale = cms.bool(False),
doEnergyScaleInverse = cms.bool(False),
doIntercalib = cms.bool(False),
doIntercalibInverse = cms.bool(False),
doLaserCorrections = cms.bool(False),
doLaserCorrectionsInverse = cms.bool(False)
)
process.hltAlCaPi0EBRechitsToDigis = cms.EDProducer("HLTRechitsToDigis",
digisIn = cms.InputTag("hltEcalDigis","ebDigis"),
digisOut = cms.string('pi0EBDigis'),
recHits = cms.InputTag("hltAlCaPi0EBUncalibrator","pi0EcalRecHitsEB"),
region = cms.string('barrel'),
srFlagsIn = cms.InputTag("hltEcalDigis"),
srFlagsOut = cms.string('pi0EBSrFlags')
)
process.hltAlCaPi0EBUncalibrator = cms.EDProducer("EcalRecalibRecHitProducer",
EBRecHitCollection = cms.InputTag("hltAlCaPi0RecHitsFilterEBonlyRegional","pi0EcalRecHitsEB"),
EBRecalibRecHitCollection = cms.string('pi0EcalRecHitsEB'),
EERecHitCollection = cms.InputTag("hltAlCaPi0RecHitsFilterEBonlyRegional","pi0EcalRecHitsEB"),
EERecalibRecHitCollection = cms.string('pi0EcalRecHitsEE'),
doEnergyScale = cms.bool(False),
doEnergyScaleInverse = cms.bool(False),
doIntercalib = cms.bool(False),
doIntercalibInverse = cms.bool(False),
doLaserCorrections = cms.bool(False),
doLaserCorrectionsInverse = cms.bool(False)
)
process.hltAlCaPi0EERechitsToDigis = cms.EDProducer("HLTRechitsToDigis",
digisIn = cms.InputTag("hltEcalDigis","eeDigis"),
digisOut = cms.string('pi0EEDigis'),
recHits = cms.InputTag("hltAlCaPi0EEUncalibrator","pi0EcalRecHitsEE"),
region = cms.string('endcap'),
srFlagsIn = cms.InputTag("hltEcalDigis"),
srFlagsOut = cms.string('pi0EESrFlags')
)
process.hltAlCaPi0EEUncalibrator = cms.EDProducer("EcalRecalibRecHitProducer",
EBRecHitCollection = cms.InputTag("hltAlCaPi0RecHitsFilterEEonlyRegional","pi0EcalRecHitsEE"),
EBRecalibRecHitCollection = cms.string('pi0EcalRecHitsEB'),
EERecHitCollection = cms.InputTag("hltAlCaPi0RecHitsFilterEEonlyRegional","pi0EcalRecHitsEE"),
EERecalibRecHitCollection = cms.string('pi0EcalRecHitsEE'),
doEnergyScale = cms.bool(False),
doEnergyScaleInverse = cms.bool(False),
doIntercalib = cms.bool(False),
doIntercalibInverse = cms.bool(False),
doLaserCorrections = cms.bool(False),
doLaserCorrectionsInverse = cms.bool(False)
)
process.hltAlcaPixelClusterCounts = cms.EDProducer("AlcaPCCEventProducer",
pixelClusterLabel = cms.InputTag("hltSiPixelClusters"),
trigstring = cms.untracked.string('alcaPCCEvent')
)
process.hltBSoftMuonAK8DiJet170L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonAK8DiJet170L1FastJetL25TagInfos")
)
process.hltBSoftMuonAK8DiJet170L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3TagInfos")
)
process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonDoubleMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonDoubleMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonAK8Jet170L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonAK8Jet170L1FastJetL25TagInfos")
)
process.hltBSoftMuonAK8Jet170L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet100PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet100PFMu12L3TagInfos")
)
process.hltBSoftMuonDiJet100PFMu12L3BJetTagsByDRROIForBTag = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet100PFMu12L3TagInfosROIForBTag")
)
process.hltBSoftMuonDiJet100PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet100PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet100PFMu12L3TagInfosROIForBTag = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet100PFMu12L3JetsROIForBTag"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet110L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet110L1FastJetL25TagInfos")
)
process.hltBSoftMuonDiJet110L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet110L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet110L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonDiJet110L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet110L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonDiJet110L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet110L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet200L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet200L1FastJetL25TagInfos")
)
process.hltBSoftMuonDiJet200L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet200L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet200L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonDiJet200L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet200L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonDiJet200L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet200L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet200PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet200PFMu12L3TagInfos")
)
process.hltBSoftMuonDiJet200PFMu12L3BJetTagsByDRROIForBTag = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet200PFMu12L3TagInfosROIForBTag")
)
process.hltBSoftMuonDiJet200PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet200PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet200PFMu12L3TagInfosROIForBTag = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet200PFMu12L3JetsROIForBTag"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet20L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet20L1FastJetL25TagInfos")
)
process.hltBSoftMuonDiJet20L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet20L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet20L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonDiJet20L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet20L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonDiJet20L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet20L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet350PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet350PFMu12L3TagInfos")
)
process.hltBSoftMuonDiJet350PFMu12L3BJetTagsByDRROIForBTag = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet350PFMu12L3TagInfosROIForBTag")
)
process.hltBSoftMuonDiJet350PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet350PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet350PFMu12L3TagInfosROIForBTag = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet350PFMu12L3JetsROIForBTag"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet40L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet40L1FastJetL25TagInfos")
)
process.hltBSoftMuonDiJet40L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet40L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet40L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonDiJet40L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet40L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonDiJet40L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet40L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet40PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet40PFMu12L3TagInfos")
)
process.hltBSoftMuonDiJet40PFMu12L3BJetTagsByDRROIForBTag = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet40PFMu12L3TagInfosROIForBTag")
)
process.hltBSoftMuonDiJet40PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet40PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet40PFMu12L3TagInfosROIForBTag = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet40PFMu12L3JetsROIForBTag"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet54PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet54PFMu12L3TagInfos")
)
process.hltBSoftMuonDiJet54PFMu12L3BJetTagsByDRROIForBTag = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet54PFMu12L3TagInfosROIForBTag")
)
process.hltBSoftMuonDiJet54PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet54PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet54PFMu12L3TagInfosROIForBTag = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet54PFMu12L3JetsROIForBTag"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet62PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet62PFMu12L3TagInfos")
)
process.hltBSoftMuonDiJet62PFMu12L3BJetTagsByDRROIForBTag = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet62PFMu12L3TagInfosROIForBTag")
)
process.hltBSoftMuonDiJet62PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet62PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet62PFMu12L3TagInfosROIForBTag = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet62PFMu12L3JetsROIForBTag"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet70L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet70L1FastJetL25TagInfos")
)
process.hltBSoftMuonDiJet70L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet70L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet70L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonDiJet70L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonDiJet70L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonDiJet70L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDiJet70L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonDoubleMu5L3 = cms.EDProducer("RecoTrackRefSelector",
algorithm = cms.vstring(''),
algorithmMaskContains = cms.vstring(),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
invertRapidityCut = cms.bool(False),
lip = cms.double(300.0),
maxChi2 = cms.double(10000.0),
maxPhi = cms.double(3.2),
maxRapidity = cms.double(5.0),
min3DLayer = cms.int32(0),
minHit = cms.int32(0),
minLayer = cms.int32(0),
minPhi = cms.double(-3.2),
minPixelHit = cms.int32(0),
minRapidity = cms.double(-5.0),
originalAlgorithm = cms.vstring(),
ptMin = cms.double(5.0),
quality = cms.vstring(),
src = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged"),
tip = cms.double(120.0),
usePV = cms.bool(False),
vertexTag = cms.InputTag("none")
)
process.hltBSoftMuonDoubleMu5L3noalgo = cms.EDProducer("RecoTrackRefSelector",
algorithm = cms.vstring(),
algorithmMaskContains = cms.vstring(),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
invertRapidityCut = cms.bool(False),
lip = cms.double(300.0),
maxChi2 = cms.double(10000.0),
maxPhi = cms.double(3.2),
maxRapidity = cms.double(5.0),
min3DLayer = cms.int32(0),
minHit = cms.int32(0),
minLayer = cms.int32(0),
minPhi = cms.double(-3.2),
minPixelHit = cms.int32(0),
minRapidity = cms.double(-5.0),
originalAlgorithm = cms.vstring(),
ptMin = cms.double(5.0),
quality = cms.vstring(),
src = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged"),
tip = cms.double(120.0),
usePV = cms.bool(False),
vertexTag = cms.InputTag("none")
)
process.hltBSoftMuonGetJetsFromAK8DiJet170L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBAK8DiJet170L1FastJetCentral"),
TriggerTypes = cms.vint32(85)
)
process.hltBSoftMuonGetJetsFromAK8Jet170L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBAK8Jet170L1FastJetCentral"),
TriggerTypes = cms.vint32(85)
)
process.hltBSoftMuonGetJetsFromDiJet100PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets100Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet100PFROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets100Eta2p3ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet110L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBDiJet110L1FastJetCentral"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet200L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBDiJet200L1FastJetCentral"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet200PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets200Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet200PFROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets200Eta2p3ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet20L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBDiJet20L1FastJetCentral"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet350PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets350Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet350PFROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets350Eta2p3ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet40L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBDiJet40L1FastJetCentral"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet40PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets40Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet40PFROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets40Eta2p3ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet54PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets54Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet54PFROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets54Eta2p3ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet62PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets62Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet62PFROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltDoublePFBJets62Eta2p3ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromDiJet70L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBDiJet70L1FastJetCentral"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromJet300L1AK8FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBJet300L1AK8FastJetCentral"),
TriggerTypes = cms.vint32(85)
)
process.hltBSoftMuonGetJetsFromJet300L1FastJet = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltBJet300L1FastJetCentral"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonGetJetsFromJet40PF = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltSinglePFBJets40Eta2p3"),
TriggerTypes = cms.vint32(86)
)
process.hltBSoftMuonJet300L1AK8FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet300L1AK8FastJetL25TagInfos")
)
process.hltBSoftMuonJet300L1AK8FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet300L1AK8FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet300L1AK8FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.8),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonJet300L1FastJetL25BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet300L1FastJetL25TagInfos")
)
process.hltBSoftMuonJet300L1FastJetL25TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet300L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltL2Muons"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonJet300L1FastJetMu5SelL3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet300L1FastJetMu5SelL3TagInfos")
)
process.hltBSoftMuonJet300L1FastJetMu5SelL3BJetTagsByDRnoalgo = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet300L1FastJetMu5SelL3TagInfosnoalgo")
)
process.hltBSoftMuonJet300L1FastJetMu5SelL3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet300L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonJet300L1FastJetMu5SelL3TagInfosnoalgo = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet300L1FastJetL25Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu5L3noalgo"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonJet40PFMu12L3BJetTagsByDR = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPSoftLeptonByDistance'),
tagInfos = cms.VInputTag("hltBSoftMuonJet40PFMu12L3TagInfos")
)
process.hltBSoftMuonJet40PFMu12L3TagInfos = cms.EDProducer("SoftLepton",
jets = cms.InputTag("hltBSoftMuonJet40PFMu12L3Jets"),
leptonCands = cms.InputTag(""),
leptonChi2Cut = cms.double(0.0),
leptonDeltaRCut = cms.double(0.4),
leptonId = cms.InputTag(""),
leptons = cms.InputTag("hltBSoftMuonMu12L3"),
muonSelection = cms.uint32(0),
primaryVertex = cms.InputTag("nominal"),
refineJetAxis = cms.uint32(0)
)
process.hltBSoftMuonMu12L3 = cms.EDProducer("RecoTrackRefSelector",
algorithm = cms.vstring(''),
algorithmMaskContains = cms.vstring(),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
invertRapidityCut = cms.bool(False),
lip = cms.double(300.0),
maxChi2 = cms.double(10000.0),
maxPhi = cms.double(3.2),
maxRapidity = cms.double(5.0),
min3DLayer = cms.int32(0),
minHit = cms.int32(0),
minLayer = cms.int32(0),
minPhi = cms.double(-3.2),
minPixelHit = cms.int32(0),
minRapidity = cms.double(-5.0),
originalAlgorithm = cms.vstring(),
ptMin = cms.double(12.0),
quality = cms.vstring(),
src = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged"),
tip = cms.double(120.0),
usePV = cms.bool(False),
vertexTag = cms.InputTag("none")
)
process.hltBSoftMuonMu5L3 = cms.EDProducer("RecoTrackRefSelector",
algorithm = cms.vstring(''),
algorithmMaskContains = cms.vstring(),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
invertRapidityCut = cms.bool(False),
lip = cms.double(300.0),
maxChi2 = cms.double(10000.0),
maxPhi = cms.double(3.2),
maxRapidity = cms.double(5.0),
min3DLayer = cms.int32(0),
minHit = cms.int32(0),
minLayer = cms.int32(0),
minPhi = cms.double(-3.2),
minPixelHit = cms.int32(0),
minRapidity = cms.double(-5.0),
originalAlgorithm = cms.vstring(),
ptMin = cms.double(5.0),
quality = cms.vstring(),
src = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged"),
tip = cms.double(120.0),
usePV = cms.bool(False),
vertexTag = cms.InputTag("none")
)
process.hltBSoftMuonMu5L3noalgo = cms.EDProducer("RecoTrackRefSelector",
algorithm = cms.vstring(),
algorithmMaskContains = cms.vstring(),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
invertRapidityCut = cms.bool(False),
lip = cms.double(300.0),
maxChi2 = cms.double(10000.0),
maxPhi = cms.double(3.2),
maxRapidity = cms.double(5.0),
min3DLayer = cms.int32(0),
minHit = cms.int32(0),
minLayer = cms.int32(0),
minPhi = cms.double(-3.2),
minPixelHit = cms.int32(0),
minRapidity = cms.double(-5.0),
originalAlgorithm = cms.vstring(),
ptMin = cms.double(5.0),
quality = cms.vstring(),
src = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged"),
tip = cms.double(120.0),
usePV = cms.bool(False),
vertexTag = cms.InputTag("none")
)
process.hltBTaggingRegion = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltSelectorCentralJets20L1FastJeta"),
maxNRegions = cms.int32(20),
maxNVertices = cms.int32(2),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(0.0),
originRadius = cms.double(0.3),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(0.5),
zErrorVetex = cms.double(0.3)
)
)
process.hltBoostedDBInclusiveMergedVerticesPFAK8 = cms.EDProducer("CandidateVertexMerger",
maxFraction = cms.double(0.2),
minSignificance = cms.double(10.0),
secondaryVertices = cms.InputTag("hltBoostedDBTrackVertexArbitratorPFAK8")
)
process.hltBoostedDBInclusiveSecondaryVerticesPFAK8 = cms.EDProducer("CandidateVertexMerger",
maxFraction = cms.double(0.7),
minSignificance = cms.double(2.0),
secondaryVertices = cms.InputTag("hltBoostedDBInclusiveVertexFinderPFAK8")
)
process.hltBoostedDBInclusiveVertexFinderPFAK8 = cms.EDProducer("InclusiveCandidateVertexFinder",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterizer = cms.PSet(
clusterMaxDistance = cms.double(0.05),
clusterMaxSignificance = cms.double(4.5),
clusterMinAngleCosine = cms.double(0.5),
distanceRatio = cms.double(20.0),
seedMax3DIPSignificance = cms.double(9999.0),
seedMax3DIPValue = cms.double(9999.0),
seedMin3DIPSignificance = cms.double(1.2),
seedMin3DIPValue = cms.double(0.005)
),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxNTracks = cms.uint32(30),
maximumLongitudinalImpactParameter = cms.double(0.3),
maximumTimeSignificance = cms.double(3.0),
minHits = cms.uint32(8),
minPt = cms.double(0.8),
primaryVertices = cms.InputTag("hltVerticesPFFilter"),
tracks = cms.InputTag("hltParticleFlow"),
useDirectVertexFitter = cms.bool(True),
useVertexReco = cms.bool(True),
vertexMinAngleCosine = cms.double(0.95),
vertexMinDLen2DSig = cms.double(2.5),
vertexMinDLenSig = cms.double(0.5),
vertexReco = cms.PSet(
finder = cms.string('avr'),
primcut = cms.double(1.0),
seccut = cms.double(3.0),
smoothing = cms.bool(True)
)
)
process.hltBoostedDBJetTagsPFAK8 = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltBoostedDoubleSecondaryVertexAK8Computer'),
tagInfos = cms.VInputTag("hltBoostedDBSVAK8TagInfosPF")
)
process.hltBoostedDBLifetimeTagInfosPFAK8 = cms.EDProducer("CandIPProducer",
candidates = cms.InputTag("hltParticleFlow"),
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jets = cms.InputTag("hltPFJetForDBtagAK8"),
maxDeltaR = cms.double(0.4),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesPFFilter"),
useTrackQuality = cms.bool(False)
)
process.hltBoostedDBSVAK8TagInfosPF = cms.EDProducer("BoostedDoubleSVProducer",
R0 = cms.double(0.8),
beta = cms.double(1.0),
maxSVDeltaRToJet = cms.double(0.7),
svTagInfos = cms.InputTag("hltBoostedDBSecondaryVertexTagInfosPFAK8"),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackSelection = cms.PSet(
jetDeltaRMax = cms.double(0.8),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
weights = cms.InputTag("")
)
process.hltBoostedDBSecondaryVertexTagInfosPFAK8 = cms.EDProducer("CandSecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltBoostedDBInclusiveMergedVerticesPFAK8"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltBoostedDBLifetimeTagInfosPFAK8"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(3.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.65),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.4),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltBoostedDBTrackVertexArbitratorPFAK8 = cms.EDProducer("CandidateVertexArbitrator",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
dLenFraction = cms.double(0.333),
dRCut = cms.double(0.4),
distCut = cms.double(0.04),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxTimeSignificance = cms.double(3.5),
primaryVertices = cms.InputTag("hltVerticesPFFilter"),
secondaryVertices = cms.InputTag("hltBoostedDBInclusiveSecondaryVerticesPFAK8"),
sigCut = cms.double(5.0),
trackMinLayers = cms.int32(4),
trackMinPixels = cms.int32(1),
trackMinPt = cms.double(0.4),
tracks = cms.InputTag("hltParticleFlow")
)
process.hltCSCHaloData = cms.EDProducer("CSCHaloDataProducer",
ALCTDigiLabel = cms.InputTag(""),
CSCRecHitLabel = cms.InputTag("hltCsc2DRecHits"),
CSCSegmentLabel = cms.InputTag("hltCscSegments"),
CosmicMuonLabel = cms.InputTag(""),
DetaParam = cms.double(0.1),
DphiParam = cms.double(1.0),
ECALBrhLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ECALErhLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
ExpectedBX = cms.int32(6),
HBHErhLabel = cms.InputTag("hltHbhereco"),
HLTBitLabel = cms.VInputTag(),
HLTResultLabel = cms.InputTag(""),
InnerRMaxParam = cms.double(99999.0),
InnerRMinParam = cms.double(0.0),
L1MuGMTReadoutLabel = cms.InputTag(""),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
RPChits = cms.InputTag("hltRpcRecHits"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
MatchingDEtaThreshold = cms.double(0.4),
MatchingDPhiThreshold = cms.double(0.18),
MatchingDWireThreshold = cms.int32(5),
MaxDtMuonSegment = cms.double(-10.0),
MaxFreeInverseBeta = cms.double(0.0),
MaxOuterMomentumTheta = cms.double(3.0),
MaxSegmentPhiDiff = cms.double(0.1),
MaxSegmentRDiff = cms.double(10.0),
MaxSegmentTheta = cms.double(0.7),
MinOuterMomentumTheta = cms.double(0.1),
MuonLabel = cms.InputTag("hltMuons"),
NormChi2Param = cms.double(8.0),
OuterRMaxParam = cms.double(99999.0),
OuterRMinParam = cms.double(0.0),
RecHitTime0 = cms.double(0.0),
RecHitTimeWindow = cms.double(25.0),
SALabel = cms.InputTag("")
)
process.hltCTPPSPixelClusters = cms.EDProducer("CTPPSPixelClusterProducer",
ADCThreshold = cms.int32(2),
ElectronADCGain = cms.double(135.0),
RPixVerbosity = cms.untracked.int32(0),
SeedADCThreshold = cms.int32(2),
VCaltoElectronGain = cms.int32(50),
VCaltoElectronOffset = cms.int32(-411),
doSingleCalibration = cms.bool(False),
tag = cms.InputTag("hltCTPPSPixelDigis")
)
process.hltCTPPSPixelDigis = cms.EDProducer("CTPPSPixelRawToDigi",
includeErrors = cms.bool(True),
inputLabel = cms.InputTag("rawDataCollector"),
isRun3 = cms.bool(True),
mappingLabel = cms.string('RPix')
)
process.hltCTPPSPixelLocalTracks = cms.EDProducer("CTPPSPixelLocalTrackProducer",
maxHitPerPlane = cms.int32(20),
maxHitPerRomanPot = cms.int32(60),
maxRoadSize = cms.int32(20),
maxTrackPerPattern = cms.int32(5),
maxTrackPerRomanPot = cms.int32(10),
maximumChi2OverNDF = cms.double(5.0),
maximumXLocalDistanceFromTrack = cms.double(0.2),
maximumYLocalDistanceFromTrack = cms.double(0.3),
minRoadSize = cms.int32(3),
numberOfPlanesPerPot = cms.int32(6),
patternFinderAlgorithm = cms.string('RPixRoadFinder'),
roadRadius = cms.double(1.0),
tag = cms.InputTag("hltCTPPSPixelRecHits"),
trackFinderAlgorithm = cms.string('RPixPlaneCombinatoryTracking'),
trackMinNumberOfPoints = cms.uint32(3),
verbosity = cms.untracked.int32(0)
)
process.hltCTPPSPixelRecHits = cms.EDProducer("CTPPSPixelRecHitProducer",
RPixClusterTag = cms.InputTag("hltCTPPSPixelClusters"),
RPixVerbosity = cms.untracked.int32(0)
)
process.hltCaloJetFromPV = cms.EDProducer("PixelJetPuId",
MaxTrackChi2 = cms.double(20.0),
MaxTrackDistanceToJet = cms.double(0.04),
MinEtForwardJets = cms.double(40.0),
MinEtaForwardJets = cms.double(2.4),
MinGoodJetTrackPt = cms.double(1.8),
MinGoodJetTrackPtRatio = cms.double(0.045),
MinTrackPt = cms.double(0.6),
UseForwardJetsAsNoPU = cms.bool(True),
jets = cms.InputTag("hltSelectorJets20L1FastJetForNoPU"),
primaryVertex = cms.InputTag("hltFastPVPixelVertices"),
tracks = cms.InputTag("hltPixelTracksForNoPU")
)
process.hltCaloJetsFive25ForHt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltCaloJetFilterFiveC25"),
TriggerTypes = cms.vint32(86)
)
process.hltCaloJetsQuad30ForHt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltQuadCentralJet30"),
TriggerTypes = cms.vint32(86)
)
process.hltCaloJetsSix25ForHt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltCaloJetFilterSixC25"),
TriggerTypes = cms.vint32(86)
)
process.hltCaloJetsSix30ForHt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltCaloJetFilterSixC30"),
TriggerTypes = cms.vint32(86)
)
process.hltCaloRecHitsBeamHaloCleaned = cms.EDProducer("CaloRecHitsBeamHaloCleaned",
EBRecHitsLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitsLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
GlobalHaloDataLabel = cms.InputTag("hltGlobalHaloData"),
HBHERecHitsLabel = cms.InputTag("hltHbhereco"),
IsHLT = cms.bool(True)
)
process.hltCaloTowerL1sTauVeryBigORSeededRegional = cms.EDProducer("CaloTowerFromL1TSeededCreatorForTauHLT",
TauTrigger = cms.InputTag("hltL1sTauVeryBigOR"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau10Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(9),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau11Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(10),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau12Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(11),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau1Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(0),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau2Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(1),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau3Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(2),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau4Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(3),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau5Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(4),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau6Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(5),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau7Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(6),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau8Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(7),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCaloTowersIsoTau9Regional = cms.EDProducer("CaloTowerFromL1TCreatorForTauHLT",
BX = cms.int32(0),
TauId = cms.int32(8),
TauTrigger = cms.InputTag("hltGtStage2Digis","Tau"),
UseTowersInCone = cms.double(0.8),
minimumE = cms.double(0.8),
minimumEt = cms.double(0.5),
towers = cms.InputTag("hltTowerMakerForAll"),
verbose = cms.untracked.int32(0)
)
process.hltCentralCaloJetptLowPtCollectionProducer = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltDoubleCentralCaloJetpt40"),
TriggerTypes = cms.vint32(85)
)
process.hltCentralCaloJetptMidPtCollectionProducer = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltDoubleCentralCaloJetpt60"),
TriggerTypes = cms.vint32(85)
)
process.hltCleanedHiCorrectedIslandBarrelSuperClustersHI = cms.EDProducer("HiSpikeCleaner",
TimingCut = cms.untracked.double(9999999.0),
etCut = cms.double(8.0),
originalSuperClusterProducer = cms.InputTag("hltHiCorrectedIslandBarrelSuperClustersHI"),
outputColl = cms.string(''),
recHitProducerBarrel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
recHitProducerEndcap = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
swissCutThr = cms.untracked.double(0.95)
)
process.hltCsc2DRecHits = cms.EDProducer("CSCRecHitDProducer",
CSCDebug = cms.untracked.bool(False),
CSCNoOfTimeBinsForDynamicPedestal = cms.int32(2),
CSCStripClusterChargeCut = cms.double(25.0),
CSCStripPeakThreshold = cms.double(10.0),
CSCStripxtalksOffset = cms.double(0.03),
CSCUseCalibrations = cms.bool(True),
CSCUseGasGainCorrections = cms.bool(False),
CSCUseReducedWireTimeWindow = cms.bool(False),
CSCUseStaticPedestals = cms.bool(False),
CSCUseTimingCorrections = cms.bool(True),
CSCWireClusterDeltaT = cms.int32(1),
CSCWireTimeWindowHigh = cms.int32(15),
CSCWireTimeWindowLow = cms.int32(0),
CSCstripWireDeltaTime = cms.int32(8),
ConstSyst_ME12 = cms.double(0.0),
ConstSyst_ME13 = cms.double(0.0),
ConstSyst_ME1a = cms.double(0.022),
ConstSyst_ME1b = cms.double(0.007),
ConstSyst_ME21 = cms.double(0.0),
ConstSyst_ME22 = cms.double(0.0),
ConstSyst_ME31 = cms.double(0.0),
ConstSyst_ME32 = cms.double(0.0),
ConstSyst_ME41 = cms.double(0.0),
NoiseLevel_ME12 = cms.double(9.0),
NoiseLevel_ME13 = cms.double(8.0),
NoiseLevel_ME1a = cms.double(7.0),
NoiseLevel_ME1b = cms.double(8.0),
NoiseLevel_ME21 = cms.double(9.0),
NoiseLevel_ME22 = cms.double(9.0),
NoiseLevel_ME31 = cms.double(9.0),
NoiseLevel_ME32 = cms.double(9.0),
NoiseLevel_ME41 = cms.double(9.0),
UseAverageTime = cms.bool(False),
UseFivePoleFit = cms.bool(True),
UseParabolaFit = cms.bool(False),
XTasymmetry_ME12 = cms.double(0.0),
XTasymmetry_ME13 = cms.double(0.0),
XTasymmetry_ME1a = cms.double(0.0),
XTasymmetry_ME1b = cms.double(0.0),
XTasymmetry_ME21 = cms.double(0.0),
XTasymmetry_ME22 = cms.double(0.0),
XTasymmetry_ME31 = cms.double(0.0),
XTasymmetry_ME32 = cms.double(0.0),
XTasymmetry_ME41 = cms.double(0.0),
readBadChambers = cms.bool(True),
readBadChannels = cms.bool(False),
stripDigiTag = cms.InputTag("hltMuonCSCDigis","MuonCSCStripDigi"),
wireDigiTag = cms.InputTag("hltMuonCSCDigis","MuonCSCWireDigi")
)
process.hltCscSegments = cms.EDProducer("CSCSegmentProducer",
algo_psets = cms.VPSet(cms.PSet(
algo_name = cms.string('CSCSegAlgoST'),
algo_psets = cms.VPSet(
cms.PSet(
BPMinImprovement = cms.double(10000.0),
BrutePruning = cms.bool(True),
CSCDebug = cms.untracked.bool(False),
CorrectTheErrors = cms.bool(True),
Covariance = cms.double(0.0),
ForceCovariance = cms.bool(False),
ForceCovarianceAll = cms.bool(False),
NormChi2Cut2D = cms.double(20.0),
NormChi2Cut3D = cms.double(10.0),
Pruning = cms.bool(True),
SeedBig = cms.double(0.0015),
SeedSmall = cms.double(0.0002),
curvePenalty = cms.double(2.0),
curvePenaltyThreshold = cms.double(0.85),
dPhiFineMax = cms.double(0.025),
dRPhiFineMax = cms.double(8.0),
dXclusBoxMax = cms.double(4.0),
dYclusBoxMax = cms.double(8.0),
hitDropLimit4Hits = cms.double(0.6),
hitDropLimit5Hits = cms.double(0.8),
hitDropLimit6Hits = cms.double(0.3333),
maxDPhi = cms.double(999.0),
maxDTheta = cms.double(999.0),
maxRatioResidualPrune = cms.double(3.0),
maxRecHitsInCluster = cms.int32(20),
minHitsPerSegment = cms.int32(3),
onlyBestSegment = cms.bool(False),
preClustering = cms.bool(True),
preClusteringUseChaining = cms.bool(True),
prePrun = cms.bool(True),
prePrunLimit = cms.double(3.17),
tanPhiMax = cms.double(0.5),
tanThetaMax = cms.double(1.2),
useShowering = cms.bool(False),
yweightPenalty = cms.double(1.5),
yweightPenaltyThreshold = cms.double(1.0)
),
cms.PSet(
BPMinImprovement = cms.double(10000.0),
BrutePruning = cms.bool(True),
CSCDebug = cms.untracked.bool(False),
CorrectTheErrors = cms.bool(True),
Covariance = cms.double(0.0),
ForceCovariance = cms.bool(False),
ForceCovarianceAll = cms.bool(False),
NormChi2Cut2D = cms.double(20.0),
NormChi2Cut3D = cms.double(10.0),
Pruning = cms.bool(True),
SeedBig = cms.double(0.0015),
SeedSmall = cms.double(0.0002),
curvePenalty = cms.double(2.0),
curvePenaltyThreshold = cms.double(0.85),
dPhiFineMax = cms.double(0.025),
dRPhiFineMax = cms.double(8.0),
dXclusBoxMax = cms.double(4.0),
dYclusBoxMax = cms.double(8.0),
hitDropLimit4Hits = cms.double(0.6),
hitDropLimit5Hits = cms.double(0.8),
hitDropLimit6Hits = cms.double(0.3333),
maxDPhi = cms.double(999.0),
maxDTheta = cms.double(999.0),
maxRatioResidualPrune = cms.double(3.0),
maxRecHitsInCluster = cms.int32(24),
minHitsPerSegment = cms.int32(3),
onlyBestSegment = cms.bool(False),
preClustering = cms.bool(True),
preClusteringUseChaining = cms.bool(True),
prePrun = cms.bool(True),
prePrunLimit = cms.double(3.17),
tanPhiMax = cms.double(0.5),
tanThetaMax = cms.double(1.2),
useShowering = cms.bool(False),
yweightPenalty = cms.double(1.5),
yweightPenaltyThreshold = cms.double(1.0)
)
),
chamber_types = cms.vstring(
'ME1/a',
'ME1/b',
'ME1/2',
'ME1/3',
'ME2/1',
'ME2/2',
'ME3/1',
'ME3/2',
'ME4/1',
'ME4/2'
),
parameters_per_chamber_type = cms.vint32(
2, 1, 1, 1, 1,
1, 1, 1, 1, 1
)
)),
algo_type = cms.int32(1),
inputObjects = cms.InputTag("hltCsc2DRecHits")
)
process.hltDeDxEstimatorProducer = cms.EDProducer("DeDxEstimatorProducer",
MeVperADCPixel = cms.double(3.61e-06),
MeVperADCStrip = cms.double(0.00095665),
ProbabilityMode = cms.string('Accumulation'),
Reccord = cms.string('SiStripDeDxMip_3D_Rcd'),
ShapeTest = cms.bool(False),
UseCalibration = cms.bool(False),
UsePixel = cms.bool(False),
UseStrip = cms.bool(True),
calibrationPath = cms.string(''),
estimator = cms.string('generic'),
exponent = cms.double(-2.0),
fraction = cms.double(0.4),
tracks = cms.InputTag("hltMergedTracks")
)
process.hltDeepBLifetimePFPatTagInfos = cms.EDProducer("CandIPProducer",
candidates = cms.InputTag("hltParticleFlowROIForBTag"),
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jets = cms.InputTag("hltAK4PFJetsROIForBTag"),
maxDeltaR = cms.double(0.4),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesPFFilterROIForBTag"),
useTrackQuality = cms.bool(False)
)
process.hltDeepBLifetimePFPuppiPatTagInfos = cms.EDProducer("CandIPProducer",
candidates = cms.InputTag("hltParticleFlow"),
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jets = cms.InputTag("hltAK4PFPuppiJets"),
maxDeltaR = cms.double(0.4),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesPFFilter"),
useTrackQuality = cms.bool(False)
)
process.hltDeepBLifetimeTagInfosPF = cms.EDProducer("CandIPProducer",
candidates = cms.InputTag("hltParticleFlow"),
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jets = cms.InputTag("hltPFJetForBtag"),
maxDeltaR = cms.double(0.4),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesPFFilter"),
useTrackQuality = cms.bool(False)
)
process.hltDeepBLifetimeTagInfosPFAK8 = cms.EDProducer("CandIPProducer",
candidates = cms.InputTag("hltParticleFlow"),
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jets = cms.InputTag("hltPFJetForBtagAK8"),
maxDeltaR = cms.double(0.4),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesPFFilter"),
useTrackQuality = cms.bool(False)
)
process.hltDeepBLifetimeTagInfosPFROIForBTag = cms.EDProducer("CandIPProducer",
candidates = cms.InputTag("hltParticleFlowROIForBTag"),
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
maxDeltaR = cms.double(0.4),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesPFFilterROIForBTag"),
useTrackQuality = cms.bool(False)
)
process.hltDeepCombinedSecondaryVertexBJetCaloPatTagInfos = cms.EDProducer("TrackDeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltInclusiveSecondaryVertexFinderPatTagInfos")
)
process.hltDeepCombinedSecondaryVertexBJetPatTagInfos = cms.EDProducer("DeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltDeepSecondaryVertexPFPatTagInfos")
)
process.hltDeepCombinedSecondaryVertexBJetTagsCalo = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsInfosCalo"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsInfosCaloROIForBTag"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBJetTagsInfos = cms.EDProducer("DeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltDeepSecondaryVertexTagInfosPF")
)
process.hltDeepCombinedSecondaryVertexBJetTagsInfosAK8 = cms.EDProducer("DeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltDeepSecondaryVertexTagInfosPFAK8")
)
process.hltDeepCombinedSecondaryVertexBJetTagsInfosCalo = cms.EDProducer("TrackDeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltInclusiveSecondaryVertexFinderTagInfos")
)
process.hltDeepCombinedSecondaryVertexBJetTagsInfosCaloROIForBTag = cms.EDProducer("TrackDeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltInclusiveSecondaryVertexFinderTagInfosROIForBTag")
)
process.hltDeepCombinedSecondaryVertexBJetTagsInfosROIForBTag = cms.EDProducer("DeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltDeepSecondaryVertexTagInfosPFROIForBTag")
)
process.hltDeepCombinedSecondaryVertexBJetTagsPF = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsInfos"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBJetTagsPFAK8 = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsInfosAK8"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsInfosROIForBTag"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBPFPatJetTags = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetPatTagInfos"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBPFPuppiPatJetTags = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBPuppiJetPatTagInfos"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepCombinedSecondaryVertexBPuppiJetPatTagInfos = cms.EDProducer("DeepNNTagInfoProducer",
computer = cms.PSet(
SoftLeptonFlip = cms.bool(False),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
),
svTagInfos = cms.InputTag("hltDeepSecondaryVertexPFPuppiPatTagInfos")
)
process.hltDeepCombinedSecondaryVertexCaloPatBJetTags = cms.EDProducer("DeepFlavourJetTagsProducer",
NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'),
checkSVForDefaults = cms.bool(True),
meanPadding = cms.bool(True),
src = cms.InputTag("hltDeepCombinedSecondaryVertexBJetCaloPatTagInfos"),
toAdd = cms.PSet(
probbb = cms.string('probb')
)
)
process.hltDeepInclusiveMergedVerticesPF = cms.EDProducer("CandidateVertexMerger",
maxFraction = cms.double(0.2),
minSignificance = cms.double(10.0),
secondaryVertices = cms.InputTag("hltDeepTrackVertexArbitratorPF")
)
process.hltDeepInclusiveMergedVerticesPFROIForBTag = cms.EDProducer("CandidateVertexMerger",
maxFraction = cms.double(0.2),
minSignificance = cms.double(10.0),
secondaryVertices = cms.InputTag("hltDeepTrackVertexArbitratorPFROIForBTag")
)
process.hltDeepInclusiveSecondaryVerticesPF = cms.EDProducer("CandidateVertexMerger",
maxFraction = cms.double(0.7),
minSignificance = cms.double(2.0),
secondaryVertices = cms.InputTag("hltDeepInclusiveVertexFinderPF")
)
process.hltDeepInclusiveSecondaryVerticesPFROIForBTag = cms.EDProducer("CandidateVertexMerger",
maxFraction = cms.double(0.7),
minSignificance = cms.double(2.0),
secondaryVertices = cms.InputTag("hltDeepInclusiveVertexFinderPFROIForBTag")
)
process.hltDeepInclusiveVertexFinderPF = cms.EDProducer("InclusiveCandidateVertexFinder",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterizer = cms.PSet(
clusterMaxDistance = cms.double(0.05),
clusterMaxSignificance = cms.double(4.5),
clusterMinAngleCosine = cms.double(0.5),
distanceRatio = cms.double(20.0),
seedMax3DIPSignificance = cms.double(9999.0),
seedMax3DIPValue = cms.double(9999.0),
seedMin3DIPSignificance = cms.double(1.2),
seedMin3DIPValue = cms.double(0.005)
),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxNTracks = cms.uint32(30),
maximumLongitudinalImpactParameter = cms.double(0.3),
maximumTimeSignificance = cms.double(3.0),
minHits = cms.uint32(8),
minPt = cms.double(0.8),
primaryVertices = cms.InputTag("hltVerticesPFFilter"),
tracks = cms.InputTag("hltParticleFlow"),
useDirectVertexFitter = cms.bool(True),
useVertexReco = cms.bool(True),
vertexMinAngleCosine = cms.double(0.95),
vertexMinDLen2DSig = cms.double(2.5),
vertexMinDLenSig = cms.double(0.5),
vertexReco = cms.PSet(
finder = cms.string('avr'),
primcut = cms.double(1.0),
seccut = cms.double(3.0),
smoothing = cms.bool(True)
)
)
process.hltDeepInclusiveVertexFinderPFROIForBTag = cms.EDProducer("InclusiveCandidateVertexFinder",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterizer = cms.PSet(
clusterMaxDistance = cms.double(0.05),
clusterMaxSignificance = cms.double(4.5),
clusterMinAngleCosine = cms.double(0.5),
distanceRatio = cms.double(20.0),
seedMax3DIPSignificance = cms.double(9999.0),
seedMax3DIPValue = cms.double(9999.0),
seedMin3DIPSignificance = cms.double(1.2),
seedMin3DIPValue = cms.double(0.005)
),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxNTracks = cms.uint32(30),
maximumLongitudinalImpactParameter = cms.double(0.3),
maximumTimeSignificance = cms.double(3.0),
minHits = cms.uint32(8),
minPt = cms.double(0.8),
primaryVertices = cms.InputTag("hltVerticesPFFilterROIForBTag"),
tracks = cms.InputTag("hltParticleFlowROIForBTag"),
useDirectVertexFitter = cms.bool(True),
useVertexReco = cms.bool(True),
vertexMinAngleCosine = cms.double(0.95),
vertexMinDLen2DSig = cms.double(2.5),
vertexMinDLenSig = cms.double(0.5),
vertexReco = cms.PSet(
finder = cms.string('avr'),
primcut = cms.double(1.0),
seccut = cms.double(3.0),
smoothing = cms.bool(True)
)
)
process.hltDeepJetDiscriminatorsJetTagsROIForBTag = cms.EDProducer("BTagProbabilityToDiscriminator",
discriminators = cms.VPSet(cms.PSet(
denominator = cms.VInputTag(
cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probb"), cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probbb"), cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","problepb"), cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probc"), cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probuds"),
cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probg")
),
name = cms.string('BvsAll'),
numerator = cms.VInputTag(cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probb"), cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","probbb"), cms.InputTag("hltPFDeepFlavourJetTagsROIForBTag","problepb"))
))
)
process.hltDeepSecondaryVertexPFPatTagInfos = cms.EDProducer("CandSecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltDeepInclusiveMergedVerticesPFROIForBTag"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltDeepBLifetimePFPatTagInfos"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.4),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltDeepSecondaryVertexPFPuppiPatTagInfos = cms.EDProducer("CandSecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltDeepInclusiveMergedVerticesPF"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltDeepBLifetimePFPuppiPatTagInfos"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.4),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
),
weights = cms.InputTag("hltPFPuppi")
)
process.hltDeepSecondaryVertexTagInfosPF = cms.EDProducer("CandSecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltDeepInclusiveMergedVerticesPF"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltDeepBLifetimeTagInfosPF"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.4),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltDeepSecondaryVertexTagInfosPFAK8 = cms.EDProducer("CandSecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltDeepInclusiveMergedVerticesPF"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltDeepBLifetimeTagInfosPFAK8"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.4),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltDeepSecondaryVertexTagInfosPFROIForBTag = cms.EDProducer("CandSecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltDeepInclusiveMergedVerticesPFROIForBTag"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltDeepBLifetimeTagInfosPFROIForBTag"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(3),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.4),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltDeepTrackVertexArbitratorPF = cms.EDProducer("CandidateVertexArbitrator",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
dLenFraction = cms.double(0.333),
dRCut = cms.double(0.4),
distCut = cms.double(0.04),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxTimeSignificance = cms.double(3.5),
primaryVertices = cms.InputTag("hltVerticesPFFilter"),
secondaryVertices = cms.InputTag("hltDeepInclusiveSecondaryVerticesPF"),
sigCut = cms.double(5.0),
trackMinLayers = cms.int32(4),
trackMinPixels = cms.int32(1),
trackMinPt = cms.double(0.4),
tracks = cms.InputTag("hltParticleFlow")
)
process.hltDeepTrackVertexArbitratorPFROIForBTag = cms.EDProducer("CandidateVertexArbitrator",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
dLenFraction = cms.double(0.333),
dRCut = cms.double(0.4),
distCut = cms.double(0.04),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxTimeSignificance = cms.double(3.5),
primaryVertices = cms.InputTag("hltVerticesPFFilterROIForBTag"),
secondaryVertices = cms.InputTag("hltDeepInclusiveSecondaryVerticesPFROIForBTag"),
sigCut = cms.double(5.0),
trackMinLayers = cms.int32(4),
trackMinPixels = cms.int32(1),
trackMinPt = cms.double(0.4),
tracks = cms.InputTag("hltParticleFlowROIForBTag")
)
process.hltDiMuonLinks = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltDiMuonMerging"),
LinkCollection = cms.InputTag("hltL3MuonsIterL3Links"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.8)
)
process.hltDiMuonLinksIter01TkMuMerge = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltDiMuonMergingIter01TkMu"),
LinkCollection = cms.InputTag("hltL3MuonsIterL3Links"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.19)
)
process.hltDiMuonLinksNoVtx = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltDiMuonMergingNoVtx"),
LinkCollection = cms.InputTag("hltIterL3MuonsFromL2LinksCombinationNoVtx"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.8)
)
process.hltDiMuonMerging = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(100.0),
LostHitPenalty = cms.double(0.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonAndMuonFromL1Merged", "hltMuCtfTracks"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonAndMuonFromL1Merged", "hltMuCtfTracks"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltDiMuonMergingIter01TkMu = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonAndMuonFromL1Merged", "hltIter1Merged"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonAndMuonFromL1Merged", "hltIter1Merged"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltDiMuonMergingNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(100.0),
LostHitPenalty = cms.double(0.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonAndMuonFromL1MergedNoVtx", "hltMuCtfTracks"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonAndMuonFromL1MergedNoVtx", "hltMuCtfTracks"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltDisplacedHLTCaloJetCollectionProducerLowPt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltTwoPromptHLTL3DisplacedDijetFullTracksHLTCaloJetTagFilterLowPt"),
TriggerTypes = cms.vint32(85)
)
process.hltDisplacedHLTCaloJetCollectionProducerMidPt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltTwoPromptHLTL3DisplacedDijetFullTracksHLTCaloJetTagFilterMidPt"),
TriggerTypes = cms.vint32(85)
)
process.hltDisplacedhltIter4ClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2ClustersRefRemovalForBTag"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClustersRegForBTag"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2PFlowTrackSelectionHighPurityForBTag")
)
process.hltDisplacedhltIter4MaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval"),
src = cms.InputTag("hltSiStripClustersRegForBTag")
)
process.hltDisplacedhltIter4PFlowCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDisplacedhltIter4MaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter4PSetTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDisplacedhltIter4PFlowPixelLessSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltDisplacedhltIter4PFlowCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDisplacedhltIter4MaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDisplacedhltIter4PFlowCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDisplacedhltIter4PFlowPixelLessClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClustersRegForBTag"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClustersRegForBTag"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDisplacedhltIter4PFlowPixelLessHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDisplacedhltIter4PFlowPixelLessClusterCheck"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltDisplacedhltIter4PixelLessLayerTriplets"),
trackingRegions = cms.InputTag("hltDisplacedhltIter4PFlowPixelLessTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltDisplacedhltIter4PFlowPixelLessHitTriplets = cms.EDProducer("MultiHitFromChi2EDProducer",
ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
chi2VsPtCut = cms.bool(True),
chi2_cuts = cms.vdouble(3.0, 4.0, 5.0, 5.0),
detIdsToDebug = cms.vint32(0, 0, 0),
doublets = cms.InputTag("hltDisplacedhltIter4PFlowPixelLessHitDoublets"),
extraHitRPhitolerance = cms.double(0.0),
extraHitRZtolerance = cms.double(0.0),
extraPhiKDBox = cms.double(0.005),
extraRKDBox = cms.double(0.2),
extraZKDBox = cms.double(0.2),
fnSigmaRZ = cms.double(2.0),
maxChi2 = cms.double(5.0),
maxElement = cms.uint32(100000),
phiPreFiltering = cms.double(0.3),
pt_interv = cms.vdouble(0.4, 0.7, 1.0, 2.0),
refitHits = cms.bool(True),
useFixedPreFiltering = cms.bool(False)
)
process.hltDisplacedhltIter4PFlowPixelLessSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'),
ComponentName = cms.string('PixelClusterShapeSeedComparitor'),
FilterAtHelixStage = cms.bool(True),
FilterPixelHits = cms.bool(False),
FilterStripHits = cms.bool(False)
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDisplacedhltIter4PFlowPixelLessHitTriplets")
)
process.hltDisplacedhltIter4PFlowPixelLessTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltSelector4CentralJetsL1FastJet"),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltDisplacedhltIter4MaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(1.0),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltDisplacedhltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(12.0)
)
)
process.hltDisplacedhltIter4PFlowTrackSelectionHighPurity = cms.EDProducer("AnalyticalTrackSelector",
applyAbsCutsIfNoPV = cms.bool(False),
applyAdaptedPVCuts = cms.bool(True),
beamspot = cms.InputTag("hltOnlineBeamSpot"),
chi2n_no1Dmod_par = cms.double(9999.0),
chi2n_par = cms.double(0.25),
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
d0_par1 = cms.vdouble(1.0, 4.0),
d0_par2 = cms.vdouble(1.0, 4.0),
dz_par1 = cms.vdouble(1.0, 4.0),
dz_par2 = cms.vdouble(1.0, 4.0),
keepAllTracks = cms.bool(False),
maxNumberLostLayers = cms.uint32(0),
max_d0 = cms.double(100.0),
max_d0NoPV = cms.double(100.0),
max_eta = cms.double(9999.0),
max_lostHitFraction = cms.double(1.0),
max_minMissHitOutOrIn = cms.int32(99),
max_relpterr = cms.double(9999.0),
max_z0 = cms.double(100.0),
max_z0NoPV = cms.double(100.0),
minHitsToBypassChecks = cms.uint32(20),
minNumber3DLayers = cms.uint32(0),
minNumberLayers = cms.uint32(5),
min_eta = cms.double(-9999.0),
min_nhits = cms.uint32(0),
nSigmaZ = cms.double(3.0),
qualityBit = cms.string('highPurity'),
res_par = cms.vdouble(0.003, 0.001),
src = cms.InputTag("hltDisplacedhltIter4PFlowCtfWithMaterialTracks"),
useVertices = cms.bool(True),
useVtxError = cms.bool(False),
vertexCut = cms.string('tracksSize>=3'),
vertices = cms.InputTag("hltDisplacedhltTrimmedPixelVertices"),
vtxNumber = cms.int32(-1)
)
process.hltDisplacedhltIter4PixelLessLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
),
FPix = cms.PSet(
),
MTEC = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
maxRing = cms.int32(3),
minRing = cms.int32(3),
skipClusters = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval"),
useRingSlector = cms.bool(True)
),
MTIB = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
skipClusters = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval")
),
MTID = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
maxRing = cms.int32(3),
minRing = cms.int32(3),
skipClusters = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval"),
useRingSlector = cms.bool(True)
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
maxRing = cms.int32(2),
minRing = cms.int32(1),
skipClusters = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval"),
useRingSlector = cms.bool(True)
),
TIB = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
skipClusters = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval")
),
TID = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
maxRing = cms.int32(2),
minRing = cms.int32(1),
skipClusters = cms.InputTag("hltDisplacedhltIter4ClustersRefRemoval"),
useRingSlector = cms.bool(True)
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'TIB1+TIB2+MTIB3',
'TIB1+TIB2+MTID1_pos',
'TIB1+TIB2+MTID1_neg',
'TID1_pos+TID2_pos+TID3_pos',
'TID1_neg+TID2_neg+TID3_neg',
'TID1_pos+TID2_pos+MTID3_pos',
'TID1_neg+TID2_neg+MTID3_neg'
)
)
process.hltDisplacedhltTrimmedPixelVertices = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltFastPVPixelVertices")
)
process.hltDisplacedmumuVtxNoMatchingProducer = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(99999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu3L3FilteredNoVtx"),
Src = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
matchToPrevious = cms.bool(False)
)
process.hltDisplacedmumuVtxProducerDiMu5EG3 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu5EG3L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0Jpsi = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0JpsiL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0JpsiL1s4R0er1p5R = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0JpsiL1s4R0er1p5RL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0JpsiL1sNoOS = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0JpsiL1sNoOSL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0LowMass = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0LowMassL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s0er1p5 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0LowMassL1s0er1p5L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s0er1p5R = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0LowMassL1s0er1p5RL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s4 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0LowMassL1s4L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s4R = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0LowMassL1s4RL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0LowMassL1sTM530 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0LowMassL1sTM530L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0UpsilonL1s4p5L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5NoOS = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0UpsilonL1s4p5NoOSL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5er2p0 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0UpsilonL1s4p5er2p0L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5er2p0M = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0UpsilonL1s4p5er2p0ML3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s5 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0UpsilonL1s5L3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s5M = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon0UpsilonL1s5ML3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon10PsiPrimeBarrelnoCow = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon10PsiPrimeBarrelnoCowL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon12Upsilonsv3 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon12Upsilony1p4L3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon14PhiBarrelnoCow = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon14PhiBarrelnoCowL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon18PsiPrimes = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon18PsiPrimeL3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon18PsiPrimesNoCorrL1 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon18PsiPrimeNoCorrL1L3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon20JpsiBarrelnoCow = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon20JpsiBarrelnoCowL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon24PhiNoCorrL1 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon24PhiNoCorrL1L3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon24UpsilonsNoCorrL1 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon24UpsilonNoCorrL1L3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon25Jpsis = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon25JpsiL3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDimuon25JpsisNoCorrL1 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDimuon25JpsiNoCorrL1L3fL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu3Tau3mu = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu3TrkTau3muL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu3TrkTau3muNoL1MassL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu43Jpsi = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu43JpsiDisplacedL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu4Bs = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu4BsL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu4Jpsi = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu4JpsiDisplacedL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu4LowMassNonResonantDisplacedL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerDoubleMu4PsiPrime = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu4PsiPrimeDisplacedL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerJpsiMuon3p5 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(3.5),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltJpsiMuonL3Filtered3p5"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerUpsilon0MuonL1sTM0 = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltUpsilon0MuonL3FilteredL1sTM0"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerUpsilon0MuonNoL1Mass = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltUpsilon0MuonL3FilteredNoL1Mass"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerUpsilonMuon = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltUpsilonMuonL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDisplacedmumuVtxProducerUpsilonMuon53p52OpenMuon = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltUpsilonMuon53p52OpenMuonL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidatesOpenMu"),
matchToPrevious = cms.bool(True)
)
process.hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu2JpsiDoubleTrkL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltDoubletRecoveryCkfTrackCandidatesDisplacedJpsiReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPixelSeedsDisplacedJpsiReg"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryCkfTrackCandidatesDisplacedJpsiRegDoubleTrk = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPixelSeedsDisplacedJpsiRegDoubleTrk"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryCkfTrackCandidatesDisplacedNRReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPixelSeedsDisplacedNRReg"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryCkfTrackCandidatesDisplacedPsiPrimeReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPixelSeedsDisplacedPsiPrimeReg"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryCkfTrackCandidatesDisplacedTau3muNoL1MassReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPixelSeedsDisplacedTau3muNoL1MassReg"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryCkfTrackCandidatesDisplacedTau3muReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPixelSeedsDisplacedTau3muReg"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2ClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2PFlowTrackSelectionHighPurity")
)
process.hltDoubletRecoveryClustersRefRemovalDisplacedJpsiReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiReg")
)
process.hltDoubletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk")
)
process.hltDoubletRecoveryClustersRefRemovalDisplacedNRReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedNRReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltTripletRecoveryTrackSelectionHighPurityDisplacedNRReg")
)
process.hltDoubletRecoveryClustersRefRemovalDisplacedPsiPrimeReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltTripletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg")
)
process.hltDoubletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg")
)
process.hltDoubletRecoveryClustersRefRemovalDisplacedTau3muReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muReg")
)
process.hltDoubletRecoveryClustersRefRemovalForBTag = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2ClustersRefRemovalForBTag"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClustersRegForBTag"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2PFlowTrackSelectionHighPurityForBTag")
)
process.hltDoubletRecoveryClustersRefRemovalTauReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2ClustersRefRemovalTauReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2PFlowTrackSelectionHighPurityTauReg")
)
process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryCkfTrackCandidatesDisplacedJpsiReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryCkfTrackCandidatesDisplacedJpsiRegDoubleTrk"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedNRReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryCkfTrackCandidatesDisplacedNRReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryCkfTrackCandidatesDisplacedPsiPrimeReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryCkfTrackCandidatesDisplacedTau3muNoL1MassReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryCkfTrackCandidatesDisplacedTau3muReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedJpsiReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedNRReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedTau3muReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventForBTag = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalForBTag"),
src = cms.InputTag("hltSiStripClustersRegForBTag")
)
process.hltDoubletRecoveryMaskedMeasurementTrackerEventTauReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltDoubletRecoveryClustersRefRemovalTauReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltDoubletRecoveryPFlowCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPFlowPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryPFlowCkfTrackCandidatesForBTag = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventForBTag"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPFlowPixelSeedsForBTag"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryPFlowCkfTrackCandidatesTauReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventTauReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltDoubletRecoveryPFlowPixelSeedsTauReg"),
useHitsSplitting = cms.bool(False)
)
process.hltDoubletRecoveryPFlowCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryPFlowCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryPFlowCtfWithMaterialTracksForBTag = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventForBTag"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryPFlowCkfTrackCandidatesForBTag"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryPFlowCtfWithMaterialTracksTauReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltDoubletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventTauReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltDoubletRecoveryPFlowCkfTrackCandidatesTauReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltDoubletRecoveryPFlowPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPFlowPixelClusterCheckForBTag = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClustersRegForBTag"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClustersRegForBTag"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPFlowPixelClusterCheckTauReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPFlowPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPFlowPixelClusterCheck"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayersAndRegions")
)
process.hltDoubletRecoveryPFlowPixelHitDoubletsForBTag = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPFlowPixelClusterCheckForBTag"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayersAndRegionsForBTag")
)
process.hltDoubletRecoveryPFlowPixelHitDoubletsTauReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPFlowPixelClusterCheckTauReg"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayersAndRegionsTauReg")
)
process.hltDoubletRecoveryPFlowPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPFlowPixelHitDoublets")
)
process.hltDoubletRecoveryPFlowPixelSeedsForBTag = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPFlowPixelHitDoubletsForBTag")
)
process.hltDoubletRecoveryPFlowPixelSeedsTauReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPFlowPixelHitDoubletsTauReg")
)
process.hltDoubletRecoveryPFlowTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryPFlowCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltDoubletRecoveryPFlowTrackCutClassifierForBTag = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryPFlowCtfWithMaterialTracksForBTag"),
vertices = cms.InputTag("hltFastPVPixelVertices")
)
process.hltDoubletRecoveryPFlowTrackCutClassifierTauReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryPFlowCtfWithMaterialTracksTauReg"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltDoubletRecoveryPFlowTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryPFlowTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryPFlowTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryPFlowCtfWithMaterialTracks")
)
process.hltDoubletRecoveryPFlowTrackSelectionHighPurityForBTag = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryPFlowTrackCutClassifierForBTag","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryPFlowTrackCutClassifierForBTag","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryPFlowCtfWithMaterialTracksForBTag")
)
process.hltDoubletRecoveryPFlowTrackSelectionHighPurityTauReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryPFlowTrackCutClassifierTauReg","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryPFlowTrackCutClassifierTauReg","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryPFlowCtfWithMaterialTracksTauReg")
)
process.hltDoubletRecoveryPixelClusterCheckDisplacedJpsiReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPixelClusterCheckDisplacedJpsiRegDoubleTrk = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPixelClusterCheckDisplacedNRReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPixelClusterCheckDisplacedPsiPrimeReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPixelClusterCheckDisplacedTau3muNoL1MassReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPixelClusterCheckDisplacedTau3muReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltDoubletRecoveryPixelHitDoubletsDisplacedJpsiReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPixelClusterCheckDisplacedJpsiReg"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayerPairsDisplacedJpsiReg")
)
process.hltDoubletRecoveryPixelHitDoubletsDisplacedJpsiRegDoubleTrk = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPixelClusterCheckDisplacedJpsiRegDoubleTrk"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayerPairsDisplacedJpsiRegDoubleTrk")
)
process.hltDoubletRecoveryPixelHitDoubletsDisplacedNRReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPixelClusterCheckDisplacedNRReg"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayerPairsDisplacedNRReg")
)
process.hltDoubletRecoveryPixelHitDoubletsDisplacedPsiPrimeReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPixelClusterCheckDisplacedPsiPrimeReg"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayerPairsDisplacedPsiPrimeReg")
)
process.hltDoubletRecoveryPixelHitDoubletsDisplacedTau3muNoL1MassReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPixelClusterCheckDisplacedTau3muNoL1MassReg"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayerPairsDisplacedTau3muNoL1MassReg")
)
process.hltDoubletRecoveryPixelHitDoubletsDisplacedTau3muReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltDoubletRecoveryPixelClusterCheckDisplacedTau3muReg"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag(""),
trackingRegions = cms.InputTag(""),
trackingRegionsSeedingLayers = cms.InputTag("hltDoubletRecoveryPixelLayerPairsDisplacedTau3muReg")
)
process.hltDoubletRecoveryPixelLayerPairsDisplacedJpsiReg = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedJpsiReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedJpsiReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(1.0),
deltaPhi_Cand = cms.double(1.0),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayerPairsDisplacedJpsiRegDoubleTrk = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(1.0),
deltaPhi_Cand = cms.double(1.0),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayerPairsDisplacedNRReg = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedNRReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedNRReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(1.0),
deltaPhi_Cand = cms.double(1.0),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayerPairsDisplacedPsiPrimeReg = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(1.0),
deltaPhi_Cand = cms.double(1.0),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayerPairsDisplacedTau3muNoL1MassReg = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(1.0),
deltaPhi_Cand = cms.double(1.0),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayerPairsDisplacedTau3muReg = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedTau3muReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalDisplacedTau3muReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(1.0),
deltaPhi_Cand = cms.double(1.0),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayersAndRegions = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEvent"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(1.2),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayersAndRegionsForBTag = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalForBTag"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalForBTag"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventForBTag"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(1.2),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltFastPVPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigisRegForBTag"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigisRegForBTag"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelLayersAndRegionsTauReg = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalTauReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltDoubletRecoveryClustersRefRemovalTauReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta_Cand = cms.double(0.5),
deltaPhi_Cand = cms.double(0.5),
extraEta = cms.double(0.0),
extraPhi = cms.double(0.0),
input = cms.InputTag("hltL2TausForPixelIsolationL1TauSeeded"),
maxNVertices = cms.int32(3),
measurementTrackerName = cms.InputTag("hltDoubletRecoveryMaskedMeasurementTrackerEventTauReg"),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
operationMode = cms.string('VerticesFixed'),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(1.2),
searchOpt = cms.bool(False),
seedingMode = cms.string('Candidate'),
vertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVertex = cms.double(0.03)
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
createPlottingFiles = cms.untracked.bool(False),
debug = cms.untracked.bool(False),
ignoreSingleFPixPanelModules = cms.bool(True),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltDoubletRecoveryPixelSeedsDisplacedJpsiReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPixelHitDoubletsDisplacedJpsiReg")
)
process.hltDoubletRecoveryPixelSeedsDisplacedJpsiRegDoubleTrk = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPixelHitDoubletsDisplacedJpsiRegDoubleTrk")
)
process.hltDoubletRecoveryPixelSeedsDisplacedNRReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPixelHitDoubletsDisplacedNRReg")
)
process.hltDoubletRecoveryPixelSeedsDisplacedPsiPrimeReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPixelHitDoubletsDisplacedPsiPrimeReg")
)
process.hltDoubletRecoveryPixelSeedsDisplacedTau3muNoL1MassReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPixelHitDoubletsDisplacedTau3muNoL1MassReg")
)
process.hltDoubletRecoveryPixelSeedsDisplacedTau3muReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltDoubletRecoveryPixelHitDoubletsDisplacedTau3muReg")
)
process.hltDoubletRecoveryTrackCutClassifierDisplacedJpsiReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi")
)
process.hltDoubletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk"),
vertices = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi")
)
process.hltDoubletRecoveryTrackCutClassifierDisplacedNRReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedNRReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant")
)
process.hltDoubletRecoveryTrackCutClassifierDisplacedPsiPrimeReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime")
)
process.hltDoubletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass")
)
process.hltDoubletRecoveryTrackCutClassifierDisplacedTau3muReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu")
)
process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedJpsiReg","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedJpsiReg","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiReg")
)
process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk")
)
process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedNRReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedNRReg","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedNRReg","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedNRReg")
)
process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedPsiPrimeReg","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedPsiPrimeReg","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg")
)
process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg")
)
process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedTau3muReg","MVAValues"),
originalQualVals = cms.InputTag("hltDoubletRecoveryTrackCutClassifierDisplacedTau3muReg","QualityMasks"),
originalSource = cms.InputTag("hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muReg")
)
process.hltDt1DRecHits = cms.EDProducer("DTRecHitProducer",
debug = cms.untracked.bool(False),
dtDigiLabel = cms.InputTag("hltMuonDTDigis"),
recAlgo = cms.string('DTLinearDriftFromDBAlgo'),
recAlgoConfig = cms.PSet(
debug = cms.untracked.bool(False),
doVdriftCorr = cms.bool(True),
maxTime = cms.double(420.0),
minTime = cms.double(-3.0),
readLegacyTTrigDB = cms.bool(True),
readLegacyVDriftDB = cms.bool(True),
stepTwoFromDigi = cms.bool(False),
tTrigMode = cms.string('DTTTrigSyncFromDB'),
tTrigModeConfig = cms.PSet(
debug = cms.untracked.bool(False),
doT0Correction = cms.bool(True),
doTOFCorrection = cms.bool(True),
doWirePropCorrection = cms.bool(True),
t0Label = cms.string(''),
tTrigLabel = cms.string(''),
tofCorrType = cms.int32(0),
vPropWire = cms.double(24.4),
wirePropCorrType = cms.int32(0)
),
useUncertDB = cms.bool(True)
)
)
process.hltDt4DSegments = cms.EDProducer("DTRecSegment4DProducer",
Reco4DAlgoConfig = cms.PSet(
AllDTRecHits = cms.bool(True),
Reco2DAlgoConfig = cms.PSet(
AlphaMaxPhi = cms.double(1.0),
AlphaMaxTheta = cms.double(0.9),
MaxAllowedHits = cms.uint32(50),
debug = cms.untracked.bool(False),
hit_afterT0_resolution = cms.double(0.03),
nSharedHitsMax = cms.int32(2),
nUnSharedHitsMin = cms.int32(2),
performT0SegCorrection = cms.bool(False),
performT0_vdriftSegCorrection = cms.bool(False),
perform_delta_rejecting = cms.bool(False),
recAlgo = cms.string('DTLinearDriftFromDBAlgo'),
recAlgoConfig = cms.PSet(
debug = cms.untracked.bool(False),
doVdriftCorr = cms.bool(True),
maxTime = cms.double(420.0),
minTime = cms.double(-3.0),
readLegacyTTrigDB = cms.bool(True),
readLegacyVDriftDB = cms.bool(True),
stepTwoFromDigi = cms.bool(False),
tTrigMode = cms.string('DTTTrigSyncFromDB'),
tTrigModeConfig = cms.PSet(
debug = cms.untracked.bool(False),
doT0Correction = cms.bool(True),
doTOFCorrection = cms.bool(True),
doWirePropCorrection = cms.bool(True),
t0Label = cms.string(''),
tTrigLabel = cms.string(''),
tofCorrType = cms.int32(0),
vPropWire = cms.double(24.4),
wirePropCorrType = cms.int32(0)
),
useUncertDB = cms.bool(True)
),
segmCleanerMode = cms.int32(2)
),
Reco2DAlgoName = cms.string('DTCombinatorialPatternReco'),
debug = cms.untracked.bool(False),
hit_afterT0_resolution = cms.double(0.03),
nSharedHitsMax = cms.int32(2),
nUnSharedHitsMin = cms.int32(2),
performT0SegCorrection = cms.bool(False),
performT0_vdriftSegCorrection = cms.bool(False),
perform_delta_rejecting = cms.bool(False),
recAlgo = cms.string('DTLinearDriftFromDBAlgo'),
recAlgoConfig = cms.PSet(
debug = cms.untracked.bool(False),
doVdriftCorr = cms.bool(True),
maxTime = cms.double(420.0),
minTime = cms.double(-3.0),
readLegacyTTrigDB = cms.bool(True),
readLegacyVDriftDB = cms.bool(True),
stepTwoFromDigi = cms.bool(False),
tTrigMode = cms.string('DTTTrigSyncFromDB'),
tTrigModeConfig = cms.PSet(
debug = cms.untracked.bool(False),
doT0Correction = cms.bool(True),
doTOFCorrection = cms.bool(True),
doWirePropCorrection = cms.bool(True),
t0Label = cms.string(''),
tTrigLabel = cms.string(''),
tofCorrType = cms.int32(0),
vPropWire = cms.double(24.4),
wirePropCorrType = cms.int32(0)
),
useUncertDB = cms.bool(True)
),
segmCleanerMode = cms.int32(2)
),
Reco4DAlgoName = cms.string('DTCombinatorialPatternReco4D'),
debug = cms.untracked.bool(False),
recHits1DLabel = cms.InputTag("hltDt1DRecHits"),
recHits2DLabel = cms.InputTag("dt2DSegments")
)
process.hltDt4DSegmentsMeanTimer = cms.EDProducer("DTRecSegment4DProducer",
Reco4DAlgoConfig = cms.PSet(
AllDTRecHits = cms.bool(True),
Reco2DAlgoConfig = cms.PSet(
AlphaMaxPhi = cms.double(1.0),
AlphaMaxTheta = cms.double(0.9),
MaxAllowedHits = cms.uint32(50),
MaxChi2 = cms.double(4.0),
debug = cms.untracked.bool(False),
hit_afterT0_resolution = cms.double(0.03),
nSharedHitsMax = cms.int32(2),
nUnSharedHitsMin = cms.int32(2),
performT0SegCorrection = cms.bool(False),
performT0_vdriftSegCorrection = cms.bool(False),
perform_delta_rejecting = cms.bool(False),
recAlgo = cms.string('DTLinearDriftFromDBAlgo'),
recAlgoConfig = cms.PSet(
debug = cms.untracked.bool(False),
doVdriftCorr = cms.bool(True),
maxTime = cms.double(420.0),
minTime = cms.double(-3.0),
readLegacyTTrigDB = cms.bool(True),
readLegacyVDriftDB = cms.bool(True),
stepTwoFromDigi = cms.bool(False),
tTrigMode = cms.string('DTTTrigSyncFromDB'),
tTrigModeConfig = cms.PSet(
debug = cms.untracked.bool(False),
doT0Correction = cms.bool(True),
doTOFCorrection = cms.bool(True),
doWirePropCorrection = cms.bool(True),
t0Label = cms.string(''),
tTrigLabel = cms.string(''),
tofCorrType = cms.int32(0),
vPropWire = cms.double(24.4),
wirePropCorrType = cms.int32(0)
),
useUncertDB = cms.bool(True)
),
segmCleanerMode = cms.int32(2)
),
Reco2DAlgoName = cms.string('DTMeantimerPatternReco'),
debug = cms.untracked.bool(False),
hit_afterT0_resolution = cms.double(0.03),
nSharedHitsMax = cms.int32(2),
nUnSharedHitsMin = cms.int32(2),
performT0SegCorrection = cms.bool(False),
performT0_vdriftSegCorrection = cms.bool(False),
perform_delta_rejecting = cms.bool(False),
recAlgo = cms.string('DTLinearDriftFromDBAlgo'),
recAlgoConfig = cms.PSet(
debug = cms.untracked.bool(False),
doVdriftCorr = cms.bool(True),
maxTime = cms.double(420.0),
minTime = cms.double(-3.0),
readLegacyTTrigDB = cms.bool(True),
readLegacyVDriftDB = cms.bool(True),
stepTwoFromDigi = cms.bool(False),
tTrigMode = cms.string('DTTTrigSyncFromDB'),
tTrigModeConfig = cms.PSet(
debug = cms.untracked.bool(False),
doT0Correction = cms.bool(True),
doTOFCorrection = cms.bool(True),
doWirePropCorrection = cms.bool(True),
t0Label = cms.string(''),
tTrigLabel = cms.string(''),
tofCorrType = cms.int32(0),
vPropWire = cms.double(24.4),
wirePropCorrType = cms.int32(0)
),
useUncertDB = cms.bool(True)
),
segmCleanerMode = cms.int32(2)
),
Reco4DAlgoName = cms.string('DTMeantimerPatternReco4D'),
debug = cms.untracked.bool(False),
recHits1DLabel = cms.InputTag("hltDt1DRecHits"),
recHits2DLabel = cms.InputTag("dt2DSegments")
)
process.hltEcalCalibrationRaw = cms.EDProducer("EvFFEDSelector",
fedList = cms.vuint32(
601, 602, 603, 604, 605,
606, 607, 608, 609, 610,
611, 612, 613, 614, 615,
616, 617, 618, 619, 620,
621, 622, 623, 624, 625,
626, 627, 628, 629, 630,
631, 632, 633, 634, 635,
636, 637, 638, 639, 640,
641, 642, 643, 644, 645,
646, 647, 648, 649, 650,
651, 652, 653, 654, 1024
),
inputTag = cms.InputTag("rawDataCollector")
)
process.hltEcalDetIdToBeRecovered = cms.EDProducer("EcalDetIdToBeRecoveredProducer",
ebDetIdToBeRecovered = cms.string('ebDetId'),
ebFEToBeRecovered = cms.string('ebFE'),
ebIntegrityChIdErrors = cms.InputTag("hltEcalDigis","EcalIntegrityChIdErrors"),
ebIntegrityGainErrors = cms.InputTag("hltEcalDigis","EcalIntegrityGainErrors"),
ebIntegrityGainSwitchErrors = cms.InputTag("hltEcalDigis","EcalIntegrityGainSwitchErrors"),
ebSrFlagCollection = cms.InputTag("hltEcalDigis"),
eeDetIdToBeRecovered = cms.string('eeDetId'),
eeFEToBeRecovered = cms.string('eeFE'),
eeIntegrityChIdErrors = cms.InputTag("hltEcalDigis","EcalIntegrityChIdErrors"),
eeIntegrityGainErrors = cms.InputTag("hltEcalDigis","EcalIntegrityGainErrors"),
eeIntegrityGainSwitchErrors = cms.InputTag("hltEcalDigis","EcalIntegrityGainSwitchErrors"),
eeSrFlagCollection = cms.InputTag("hltEcalDigis"),
integrityBlockSizeErrors = cms.InputTag("hltEcalDigis","EcalIntegrityBlockSizeErrors"),
integrityTTIdErrors = cms.InputTag("hltEcalDigis","EcalIntegrityTTIdErrors")
)
process.hltEcalDigisGPU = cms.EDProducer("EcalRawToDigiGPU",
FEDs = cms.vint32(
601, 602, 603, 604, 605,
606, 607, 608, 609, 610,
611, 612, 613, 614, 615,
616, 617, 618, 619, 620,
621, 622, 623, 624, 625,
626, 627, 628, 629, 630,
631, 632, 633, 634, 635,
636, 637, 638, 639, 640,
641, 642, 643, 644, 645,
646, 647, 648, 649, 650,
651, 652, 653, 654
),
InputLabel = cms.InputTag("rawDataCollector"),
digisLabelEB = cms.string('ebDigis'),
digisLabelEE = cms.string('eeDigis'),
maxChannelsEB = cms.uint32(61200),
maxChannelsEE = cms.uint32(14648),
maxFedSize = cms.uint32(10240),
mightGet = cms.optional.untracked.vstring
)
process.hltEcalDigisLegacy = cms.EDProducer("EcalRawToDigi",
DoRegional = cms.bool(False),
FEDs = cms.vint32(
601, 602, 603, 604, 605,
606, 607, 608, 609, 610,
611, 612, 613, 614, 615,
616, 617, 618, 619, 620,
621, 622, 623, 624, 625,
626, 627, 628, 629, 630,
631, 632, 633, 634, 635,
636, 637, 638, 639, 640,
641, 642, 643, 644, 645,
646, 647, 648, 649, 650,
651, 652, 653, 654
),
FedLabel = cms.InputTag("listfeds"),
InputLabel = cms.InputTag("rawDataCollector"),
eventPut = cms.bool(True),
feIdCheck = cms.bool(True),
feUnpacking = cms.bool(True),
forceToKeepFRData = cms.bool(False),
headerUnpacking = cms.bool(True),
memUnpacking = cms.bool(True),
numbTriggerTSamples = cms.int32(1),
numbXtalTSamples = cms.int32(10),
orderedDCCIdList = cms.vint32(
1, 2, 3, 4, 5,
6, 7, 8, 9, 10,
11, 12, 13, 14, 15,
16, 17, 18, 19, 20,
21, 22, 23, 24, 25,
26, 27, 28, 29, 30,
31, 32, 33, 34, 35,
36, 37, 38, 39, 40,
41, 42, 43, 44, 45,
46, 47, 48, 49, 50,
51, 52, 53, 54
),
orderedFedList = cms.vint32(
601, 602, 603, 604, 605,
606, 607, 608, 609, 610,
611, 612, 613, 614, 615,
616, 617, 618, 619, 620,
621, 622, 623, 624, 625,
626, 627, 628, 629, 630,
631, 632, 633, 634, 635,
636, 637, 638, 639, 640,
641, 642, 643, 644, 645,
646, 647, 648, 649, 650,
651, 652, 653, 654
),
silentMode = cms.untracked.bool(True),
srpUnpacking = cms.bool(True),
syncCheck = cms.bool(True),
tccUnpacking = cms.bool(True)
)
process.hltEcalHaloData = cms.EDProducer("EcalHaloDataProducer",
AngleCutParam = cms.double(0.51),
EBRecHitEnergyThresholdParam = cms.double(0.3),
EBRecHitLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitEnergyThresholdParam = cms.double(0.3),
EERecHitLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
ESRecHitEnergyThresholdParam = cms.double(0.3),
ESRecHitLabel = cms.InputTag("hltEcalPreshowerRecHit","EcalRecHitsES"),
HBHERecHitLabel = cms.InputTag("hltHbhereco"),
NHitsEcalThresholdParam = cms.int32(4),
PhotonLabel = cms.InputTag(""),
RoundnessCutParam = cms.double(0.41),
SumEcalEnergyThresholdParam = cms.double(10.0),
SuperClusterLabel = cms.InputTag("")
)
process.hltEcalPreshowerDigis = cms.EDProducer("ESRawToDigi",
ESdigiCollection = cms.string(''),
InstanceES = cms.string(''),
LookupTable = cms.FileInPath('EventFilter/ESDigiToRaw/data/ES_lookup_table.dat'),
debugMode = cms.untracked.bool(False),
sourceTag = cms.InputTag("rawDataCollector")
)
process.hltEcalPreshowerRecHit = cms.EDProducer("ESRecHitProducer",
ESRecoAlgo = cms.int32(0),
ESdigiCollection = cms.InputTag("hltEcalPreshowerDigis"),
ESrechitCollection = cms.string('EcalRecHitsES'),
algo = cms.string('ESRecHitWorker')
)
process.hltEcalUncalibRecHitGPU = cms.EDProducer("EcalUncalibRecHitProducerGPU",
EBtimeConstantTerm = cms.double(0.6),
EBtimeFitLimits_Lower = cms.double(0.2),
EBtimeFitLimits_Upper = cms.double(1.4),
EBtimeNconst = cms.double(28.5),
EEtimeConstantTerm = cms.double(1),
EEtimeFitLimits_Lower = cms.double(0.2),
EEtimeFitLimits_Upper = cms.double(1.4),
EEtimeNconst = cms.double(31.8),
amplitudeThresholdEB = cms.double(10),
amplitudeThresholdEE = cms.double(10),
digisLabelEB = cms.InputTag("hltEcalDigisGPU","ebDigis"),
digisLabelEE = cms.InputTag("hltEcalDigisGPU","eeDigis"),
kernelMinimizeThreads = cms.untracked.vuint32(32, 1, 1),
maxNumberHitsEB = cms.uint32(61200),
maxNumberHitsEE = cms.uint32(14648),
mightGet = cms.optional.untracked.vstring,
outOfTimeThresholdGain12mEB = cms.double(5),
outOfTimeThresholdGain12mEE = cms.double(1000),
outOfTimeThresholdGain12pEB = cms.double(5),
outOfTimeThresholdGain12pEE = cms.double(1000),
outOfTimeThresholdGain61mEB = cms.double(5),
outOfTimeThresholdGain61mEE = cms.double(1000),
outOfTimeThresholdGain61pEB = cms.double(5),
outOfTimeThresholdGain61pEE = cms.double(1000),
recHitsLabelEB = cms.string('EcalUncalibRecHitsEB'),
recHitsLabelEE = cms.string('EcalUncalibRecHitsEE'),
shouldRunTimingComputation = cms.bool(False)
)
process.hltEcalUncalibRecHitSoA = cms.EDProducer("EcalCPUUncalibRecHitProducer",
containsTimingInformation = cms.bool(False),
mightGet = cms.optional.untracked.vstring,
recHitsInLabelEB = cms.InputTag("hltEcalUncalibRecHitGPU","EcalUncalibRecHitsEB"),
recHitsInLabelEE = cms.InputTag("hltEcalUncalibRecHitGPU","EcalUncalibRecHitsEE"),
recHitsOutLabelEB = cms.string('EcalUncalibRecHitsEB'),
recHitsOutLabelEE = cms.string('EcalUncalibRecHitsEE')
)
process.hltEgammaCandidates = cms.EDProducer("EgammaHLTRecoEcalCandidateProducers",
recoEcalCandidateCollection = cms.string(''),
scHybridBarrelProducer = cms.InputTag("hltParticleFlowSuperClusterECALL1Seeded","hltParticleFlowSuperClusterECALBarrel"),
scIslandEndcapProducer = cms.InputTag("hltParticleFlowSuperClusterECALL1Seeded","hltParticleFlowSuperClusterECALEndcapWithPreshower")
)
process.hltEgammaCandidatesUnseeded = cms.EDProducer("EgammaHLTRecoEcalCandidateProducers",
recoEcalCandidateCollection = cms.string(''),
scHybridBarrelProducer = cms.InputTag("hltParticleFlowSuperClusterECALUnseeded","hltParticleFlowSuperClusterECALBarrel"),
scIslandEndcapProducer = cms.InputTag("hltParticleFlowSuperClusterECALUnseeded","hltParticleFlowSuperClusterECALEndcapWithPreshower")
)
process.hltEgammaCkfTrackCandidatesForGSF = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string(''),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetTrajectoryBuilderForGsfElectrons')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(True),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(1000000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltEgammaElectronPixelSeeds"),
useHitsSplitting = cms.bool(True)
)
process.hltEgammaClusterShape = cms.EDProducer("EgammaHLTClusterShapeProducer",
ecalRechitEB = cms.InputTag("hltRechitInRegionsECAL","EcalRecHitsEB"),
ecalRechitEE = cms.InputTag("hltRechitInRegionsECAL","EcalRecHitsEE"),
isIeta = cms.bool(True),
multThresEB = cms.double(1.0),
multThresEE = cms.double(1.25),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates")
)
process.hltEgammaClusterShapeUnseeded = cms.EDProducer("EgammaHLTClusterShapeProducer",
ecalRechitEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ecalRechitEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
isIeta = cms.bool(True),
multThresEB = cms.double(1.0),
multThresEE = cms.double(1.25),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded")
)
process.hltEgammaEcalPFClusterIso = cms.EDProducer("EgammaHLTEcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(False),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.0),
drVetoEndcap = cms.double(0.0),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducer = cms.InputTag("hltParticleFlowClusterECALL1Seeded"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0)
)
process.hltEgammaEcalPFClusterIsoR02 = cms.EDProducer("EgammaHLTEcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(False),
drMax = cms.double(0.2),
drVetoBarrel = cms.double(0.0),
drVetoEndcap = cms.double(0.0),
effectiveAreas = cms.vdouble(0.12876, 0.09324),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducer = cms.InputTag("hltParticleFlowClusterECALL1Seeded"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0)
)
process.hltEgammaEcalPFClusterIsoUnseeded = cms.EDProducer("EgammaHLTEcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(False),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.0),
drVetoEndcap = cms.double(0.0),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducer = cms.InputTag("hltParticleFlowClusterECALUnseeded"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0)
)
process.hltEgammaEleGsfTrackIso = cms.EDProducer("EgammaHLTElectronTrackIsolationProducers",
beamSpotProducer = cms.InputTag("hltOnlineBeamSpot"),
egTrkIsoConeSize = cms.double(0.2),
egTrkIsoPtMin = cms.double(1.0),
egTrkIsoRSpan = cms.double(999999.0),
egTrkIsoStripBarrel = cms.double(0.01),
egTrkIsoStripEndcap = cms.double(0.01),
egTrkIsoVetoConeSizeBarrel = cms.double(0.03),
egTrkIsoVetoConeSizeEndcap = cms.double(0.03),
egTrkIsoZSpan = cms.double(0.15),
electronProducer = cms.InputTag("hltEgammaGsfElectrons"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
trackProducer = cms.InputTag("hltMergedTracks"),
useGsfTrack = cms.bool(True),
useSCRefs = cms.bool(True)
)
process.hltEgammaEleGsfTrackIsoPixelOnly = cms.EDProducer("EgammaHLTElectronTrackIsolationProducers",
beamSpotProducer = cms.InputTag("hltOnlineBeamSpot"),
egTrkIsoConeSize = cms.double(0.2),
egTrkIsoPtMin = cms.double(1.0),
egTrkIsoRSpan = cms.double(999999.0),
egTrkIsoStripBarrel = cms.double(0.01),
egTrkIsoStripEndcap = cms.double(0.01),
egTrkIsoVetoConeSizeBarrel = cms.double(0.03),
egTrkIsoVetoConeSizeEndcap = cms.double(0.03),
egTrkIsoZSpan = cms.double(0.15),
electronProducer = cms.InputTag("hltEgammaGsfElectrons"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
trackProducer = cms.InputTag("hltPixelTracksZetaClean"),
useGsfTrack = cms.bool(True),
useSCRefs = cms.bool(True)
)
process.hltEgammaElectronPixelSeeds = cms.EDProducer("ElectronNHitSeedProducer",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
initialSeeds = cms.InputTag("hltElePixelSeedsCombined"),
matcherConfig = cms.PSet(
detLayerGeom = cms.ESInputTag("","hltESPGlobalDetLayerGeometry"),
matchingCuts = cms.VPSet(
cms.PSet(
dPhiMaxHighEt = cms.vdouble(0.05),
dPhiMaxHighEtThres = cms.vdouble(20.0),
dPhiMaxLowEtGrad = cms.vdouble(-0.002),
dRZMaxHighEt = cms.vdouble(9999.0),
dRZMaxHighEtThres = cms.vdouble(0.0),
dRZMaxLowEtGrad = cms.vdouble(0.0),
version = cms.int32(2)
),
cms.PSet(
dPhiMaxHighEt = cms.vdouble(0.003),
dPhiMaxHighEtThres = cms.vdouble(0.0),
dPhiMaxLowEtGrad = cms.vdouble(0.0),
dRZMaxHighEt = cms.vdouble(0.05),
dRZMaxHighEtThres = cms.vdouble(30.0),
dRZMaxLowEtGrad = cms.vdouble(-0.002),
etaBins = cms.vdouble(),
version = cms.int32(2)
),
cms.PSet(
dPhiMaxHighEt = cms.vdouble(0.003),
dPhiMaxHighEtThres = cms.vdouble(0.0),
dPhiMaxLowEtGrad = cms.vdouble(0.0),
dRZMaxHighEt = cms.vdouble(0.05),
dRZMaxHighEtThres = cms.vdouble(30.0),
dRZMaxLowEtGrad = cms.vdouble(-0.002),
etaBins = cms.vdouble(),
version = cms.int32(2)
)
),
minNrHits = cms.vuint32(2, 3),
minNrHitsValidLayerBins = cms.vint32(4),
navSchool = cms.ESInputTag("","SimpleNavigationSchool"),
paramMagField = cms.ESInputTag("","ParabolicMf"),
useRecoVertex = cms.bool(False)
),
measTkEvt = cms.InputTag("hltSiStripClusters"),
superClusters = cms.VInputTag("hltEgammaSuperClustersToPixelMatch"),
vertices = cms.InputTag("")
)
process.hltEgammaElectronPixelSeedsUnseeded = cms.EDProducer("ElectronNHitSeedProducer",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
initialSeeds = cms.InputTag("hltElePixelSeedsCombinedUnseeded"),
matcherConfig = cms.PSet(
detLayerGeom = cms.ESInputTag("","hltESPGlobalDetLayerGeometry"),
matchingCuts = cms.VPSet(
cms.PSet(
dPhiMaxHighEt = cms.vdouble(0.05),
dPhiMaxHighEtThres = cms.vdouble(20.0),
dPhiMaxLowEtGrad = cms.vdouble(-0.002),
dRZMaxHighEt = cms.vdouble(9999.0),
dRZMaxHighEtThres = cms.vdouble(0.0),
dRZMaxLowEtGrad = cms.vdouble(0.0),
version = cms.int32(2)
),
cms.PSet(
dPhiMaxHighEt = cms.vdouble(0.003),
dPhiMaxHighEtThres = cms.vdouble(0.0),
dPhiMaxLowEtGrad = cms.vdouble(0.0),
dRZMaxHighEt = cms.vdouble(0.05),
dRZMaxHighEtThres = cms.vdouble(30.0),
dRZMaxLowEtGrad = cms.vdouble(-0.002),
etaBins = cms.vdouble(),
version = cms.int32(2)
),
cms.PSet(
dPhiMaxHighEt = cms.vdouble(0.003),
dPhiMaxHighEtThres = cms.vdouble(0.0),
dPhiMaxLowEtGrad = cms.vdouble(0.0),
dRZMaxHighEt = cms.vdouble(0.05),
dRZMaxHighEtThres = cms.vdouble(30.0),
dRZMaxLowEtGrad = cms.vdouble(-0.002),
etaBins = cms.vdouble(),
version = cms.int32(2)
)
),
minNrHits = cms.vuint32(2, 3),
minNrHitsValidLayerBins = cms.vint32(4),
navSchool = cms.ESInputTag("","SimpleNavigationSchool"),
paramMagField = cms.ESInputTag("","ParabolicMf"),
useRecoVertex = cms.bool(False)
),
measTkEvt = cms.InputTag("hltSiStripClusters"),
superClusters = cms.VInputTag("hltEgammaSuperClustersToPixelMatchUnseeded"),
vertices = cms.InputTag("")
)
process.hltEgammaGsfElectrons = cms.EDProducer("EgammaHLTPixelMatchElectronProducers",
BSProducer = cms.InputTag("hltOnlineBeamSpot"),
GsfTrackProducer = cms.InputTag("hltEgammaGsfTracks"),
TrackProducer = cms.InputTag(""),
UseGsfTracks = cms.bool(True)
)
process.hltEgammaGsfTrackVars = cms.EDProducer("EgammaHLTGsfTrackVarProducer",
beamSpotProducer = cms.InputTag("hltOnlineBeamSpot"),
inputCollection = cms.InputTag("hltEgammaGsfTracks"),
lowerTrackNrToRemoveCut = cms.int32(-1),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
upperTrackNrToRemoveCut = cms.int32(9999),
useDefaultValuesForBarrel = cms.bool(False),
useDefaultValuesForEndcap = cms.bool(False)
)
process.hltEgammaGsfTracks = cms.EDProducer("GsfTrackProducer",
AlgorithmName = cms.string('gsf'),
Fitter = cms.string('hltESPGsfElectronFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string('hltESPMeasurementTracker'),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
Propagator = cms.string('hltESPFwdElectronPropagator'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
producer = cms.string(''),
src = cms.InputTag("hltEgammaCkfTrackCandidatesForGSF"),
useHitsSplitting = cms.bool(False)
)
process.hltEgammaHToverET = cms.EDProducer("EgammaHLTBcHcalIsolationProducersRegional",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
caloTowerProducer = cms.InputTag("hltTowerMakerForAll"),
depth = cms.int32(-1),
doEtSum = cms.bool(True),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.105, 0.17),
etMin = cms.double(0.0),
innerCone = cms.double(0.0),
outerCone = cms.double(0.14),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0),
useSingleTower = cms.bool(False)
)
process.hltEgammaHcalPFClusterIso = cms.EDProducer("EgammaHLTHcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(False),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.0),
drVetoEndcap = cms.double(0.0),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducerHCAL = cms.InputTag("hltParticleFlowClusterHCAL"),
pfClusterProducerHFEM = cms.InputTag(""),
pfClusterProducerHFHAD = cms.InputTag(""),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0),
useEt = cms.bool(True),
useHF = cms.bool(False)
)
process.hltEgammaHcalPFClusterIsoR02 = cms.EDProducer("EgammaHLTHcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(False),
drMax = cms.double(0.2),
drVetoBarrel = cms.double(0.0),
drVetoEndcap = cms.double(0.0),
effectiveAreas = cms.vdouble(0.0888, 0.111),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducerHCAL = cms.InputTag("hltParticleFlowClusterHCAL"),
pfClusterProducerHFEM = cms.InputTag(""),
pfClusterProducerHFHAD = cms.InputTag(""),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0),
useEt = cms.bool(True),
useHF = cms.bool(False)
)
process.hltEgammaHcalPFClusterIsoUnseeded = cms.EDProducer("EgammaHLTHcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(False),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.0),
drVetoEndcap = cms.double(0.0),
effectiveAreas = cms.vdouble(0.05956, 0.13052),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducerHCAL = cms.InputTag("hltParticleFlowClusterHCAL"),
pfClusterProducerHFEM = cms.InputTag(""),
pfClusterProducerHFHAD = cms.InputTag(""),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0),
useEt = cms.bool(True),
useHF = cms.bool(False)
)
process.hltEgammaHollowTrackIso = cms.EDProducer("EgammaHLTPhotonTrackIsolationProducersRegional",
countTracks = cms.bool(False),
egTrkIsoConeSize = cms.double(0.29),
egTrkIsoPtMin = cms.double(1.0),
egTrkIsoRSpan = cms.double(999999.0),
egTrkIsoStripBarrel = cms.double(0.03),
egTrkIsoStripEndcap = cms.double(0.03),
egTrkIsoVetoConeSize = cms.double(0.06),
egTrkIsoZSpan = cms.double(999999.0),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
trackProducer = cms.InputTag("hltMergedTracks")
)
process.hltEgammaHollowTrackIsoUnseeded = cms.EDProducer("EgammaHLTPhotonTrackIsolationProducersRegional",
countTracks = cms.bool(False),
egTrkIsoConeSize = cms.double(0.29),
egTrkIsoPtMin = cms.double(1.0),
egTrkIsoRSpan = cms.double(999999.0),
egTrkIsoStripBarrel = cms.double(0.03),
egTrkIsoStripEndcap = cms.double(0.03),
egTrkIsoVetoConeSize = cms.double(0.06),
egTrkIsoZSpan = cms.double(999999.0),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded"),
trackProducer = cms.InputTag("hltMergedTracks")
)
process.hltEgammaHoverE = cms.EDProducer("EgammaHLTBcHcalIsolationProducersRegional",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
caloTowerProducer = cms.InputTag("hltTowerMakerForAll"),
depth = cms.int32(-1),
doEtSum = cms.bool(False),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.105, 0.17),
etMin = cms.double(0.0),
innerCone = cms.double(0.0),
outerCone = cms.double(0.14),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0),
useSingleTower = cms.bool(False)
)
process.hltEgammaHoverEUnseeded = cms.EDProducer("EgammaHLTBcHcalIsolationProducersRegional",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
caloTowerProducer = cms.InputTag("hltTowerMakerForAll"),
depth = cms.int32(-1),
doEtSum = cms.bool(False),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.105, 0.17),
etMin = cms.double(0.0),
innerCone = cms.double(0.0),
outerCone = cms.double(0.14),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoScale = cms.double(1.0),
useSingleTower = cms.bool(False)
)
process.hltEgammaPixelMatchVars = cms.EDProducer("EgammaHLTPixelMatchVarProducer",
dPhi1SParams = cms.PSet(
bins = cms.VPSet(
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00112, 0.000752, -0.00122, 0.00109),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(1),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00222, 0.000196, -0.000203, 0.000447),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(2),
yMin = cms.int32(2)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00236, 0.000691, 0.000199, 0.000416),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(99999),
yMin = cms.int32(3)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00823, -0.0029),
funcType = cms.string('TF1:=pol1'),
xMax = cms.double(2.0),
xMin = cms.double(1.5),
yMax = cms.int32(1),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00282),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(3.0),
xMin = cms.double(2.0),
yMax = cms.int32(1),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.010838, -0.00345),
funcType = cms.string('TF1:=pol1'),
xMax = cms.double(2.0),
xMin = cms.double(1.5),
yMax = cms.int32(2),
yMin = cms.int32(2)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.0043),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(3.0),
xMin = cms.double(2.0),
yMax = cms.int32(2),
yMin = cms.int32(2)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.0208, -0.0125, 0.00231),
funcType = cms.string('TF1:=pol2'),
xMax = cms.double(3.0),
xMin = cms.double(1.5),
yMax = cms.int32(99999),
yMin = cms.int32(3)
)
)
),
dPhi2SParams = cms.PSet(
bins = cms.VPSet(
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00013),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(1.6),
xMin = cms.double(0.0),
yMax = cms.int32(99999),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00045, -0.000199),
funcType = cms.string('TF1:=pol1'),
xMax = cms.double(1.9),
xMin = cms.double(1.5),
yMax = cms.int32(99999),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(7.94e-05),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(3.0),
xMin = cms.double(1.9),
yMax = cms.int32(99999),
yMin = cms.int32(1)
)
)
),
dRZ2SParams = cms.PSet(
bins = cms.VPSet(
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00299, 0.000299, -4.13e-06, 0.00191),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(99999),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.248, -0.329, 0.148, -0.0222),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(3.0),
xMin = cms.double(1.5),
yMax = cms.int32(99999),
yMin = cms.int32(1)
)
)
),
pixelSeedsProducer = cms.InputTag("hltEgammaElectronPixelSeeds"),
productsToWrite = cms.int32(0),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates")
)
process.hltEgammaPixelMatchVarsUnseeded = cms.EDProducer("EgammaHLTPixelMatchVarProducer",
dPhi1SParams = cms.PSet(
bins = cms.VPSet(
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00112, 0.000752, -0.00122, 0.00109),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(1),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00222, 0.000196, -0.000203, 0.000447),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(2),
yMin = cms.int32(2)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00236, 0.000691, 0.000199, 0.000416),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(99999),
yMin = cms.int32(3)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00823, -0.0029),
funcType = cms.string('TF1:=pol1'),
xMax = cms.double(2.0),
xMin = cms.double(1.5),
yMax = cms.int32(1),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00282),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(3.0),
xMin = cms.double(2.0),
yMax = cms.int32(1),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.010838, -0.00345),
funcType = cms.string('TF1:=pol1'),
xMax = cms.double(2.0),
xMin = cms.double(1.5),
yMax = cms.int32(2),
yMin = cms.int32(2)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.0043),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(3.0),
xMin = cms.double(2.0),
yMax = cms.int32(2),
yMin = cms.int32(2)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.0208, -0.0125, 0.00231),
funcType = cms.string('TF1:=pol2'),
xMax = cms.double(3.0),
xMin = cms.double(1.5),
yMax = cms.int32(99999),
yMin = cms.int32(3)
)
)
),
dPhi2SParams = cms.PSet(
bins = cms.VPSet(
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00013),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(1.6),
xMin = cms.double(0.0),
yMax = cms.int32(99999),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00045, -0.000199),
funcType = cms.string('TF1:=pol1'),
xMax = cms.double(1.9),
xMin = cms.double(1.5),
yMax = cms.int32(99999),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(7.94e-05),
funcType = cms.string('TF1:=pol0'),
xMax = cms.double(3.0),
xMin = cms.double(1.9),
yMax = cms.int32(99999),
yMin = cms.int32(1)
)
)
),
dRZ2SParams = cms.PSet(
bins = cms.VPSet(
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.00299, 0.000299, -4.13e-06, 0.00191),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(1.5),
xMin = cms.double(0.0),
yMax = cms.int32(99999),
yMin = cms.int32(1)
),
cms.PSet(
binType = cms.string('AbsEtaClus'),
funcParams = cms.vdouble(0.248, -0.329, 0.148, -0.0222),
funcType = cms.string('TF1:=pol3'),
xMax = cms.double(3.0),
xMin = cms.double(1.5),
yMax = cms.int32(99999),
yMin = cms.int32(1)
)
)
),
pixelSeedsProducer = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
productsToWrite = cms.int32(0),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded")
)
process.hltEgammaR9ID = cms.EDProducer("EgammaHLTR9IDProducer",
ecalRechitEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ecalRechitEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidates")
)
process.hltEgammaR9IDUnseeded = cms.EDProducer("EgammaHLTR9IDProducer",
ecalRechitEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ecalRechitEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
recoEcalCandidateProducer = cms.InputTag("hltEgammaCandidatesUnseeded")
)
process.hltEgammaSuperClustersToPixelMatch = cms.EDProducer("EgammaHLTFilteredSuperClusterProducer",
cands = cms.InputTag("hltEgammaCandidates"),
cuts = cms.VPSet(cms.PSet(
barrelCut = cms.PSet(
cutOverE = cms.double(0.2),
useEt = cms.bool(False)
),
endcapCut = cms.PSet(
cutOverE = cms.double(0.2),
useEt = cms.bool(False)
),
var = cms.InputTag("hltEgammaHoverE")
)),
minEtCutEB = cms.double(0.0),
minEtCutEE = cms.double(0.0)
)
process.hltEgammaSuperClustersToPixelMatchUnseeded = cms.EDProducer("EgammaHLTFilteredSuperClusterProducer",
cands = cms.InputTag("hltEgammaCandidatesUnseeded"),
cuts = cms.VPSet(cms.PSet(
barrelCut = cms.PSet(
cutOverE = cms.double(0.2),
useEt = cms.bool(False)
),
endcapCut = cms.PSet(
cutOverE = cms.double(0.2),
useEt = cms.bool(False)
),
var = cms.InputTag("hltEgammaHoverEUnseeded")
)),
minEtCutEB = cms.double(0.0),
minEtCutEE = cms.double(0.0)
)
process.hltEle12JetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLTrackIsoFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltEle15JetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30TrackIsoFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltEle23JetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30TrackIsoFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltEle30JetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle30erJetC34WPTightGsfTrackIsoFilter"),
minDeltaR = cms.double(0.4),
numLeptons = cms.uint32(1)
)
process.hltEle50CaloIdVTGsfTrkIdTCleanAK4PFJet = cms.EDProducer("HLTPFJetCollectionsForBoostedLeptonPlusJets",
HltLeptonTag = cms.InputTag("hltEle50CaloIdVTGsfTrkIdTGsfDphiFilter"),
SourceJetTag = cms.InputTag("hltPFJetsCorrectedMatchedToL1"),
minDeltaR = cms.double(0.5)
)
process.hltEle8JetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLTrackIsoFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltElePixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltPixelLayerPairs"),
trackingRegions = cms.InputTag("hltEleSeedsTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltElePixelHitDoubletsForTriplets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltEleSeedsTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltElePixelHitDoubletsForTripletsUnseeded = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltEleSeedsTrackingRegionsUnseeded"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltElePixelHitDoubletsUnseeded = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltPixelLayerPairs"),
trackingRegions = cms.InputTag("hltEleSeedsTrackingRegionsUnseeded"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltElePixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltElePixelHitDoubletsForTriplets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltElePixelHitTripletsUnseeded = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltElePixelHitDoubletsForTripletsUnseeded"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltElePixelSeedsCombined = cms.EDProducer("SeedCombiner",
seedCollections = cms.VInputTag("hltElePixelSeedsDoublets", "hltElePixelSeedsTriplets")
)
process.hltElePixelSeedsCombinedUnseeded = cms.EDProducer("SeedCombiner",
seedCollections = cms.VInputTag("hltElePixelSeedsDoubletsUnseeded", "hltElePixelSeedsTripletsUnseeded")
)
process.hltElePixelSeedsDoublets = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltElePixelHitDoublets")
)
process.hltElePixelSeedsDoubletsUnseeded = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltElePixelHitDoubletsUnseeded")
)
process.hltElePixelSeedsTriplets = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltElePixelHitTriplets")
)
process.hltElePixelSeedsTripletsUnseeded = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltElePixelHitTripletsUnseeded")
)
process.hltEleSeedsTrackingRegions = cms.EDProducer("TrackingRegionsFromSuperClustersEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
defaultZ = cms.double(0.0),
deltaEtaRegion = cms.double(0.1),
deltaPhiRegion = cms.double(0.4),
measurementTrackerEvent = cms.InputTag(""),
minBSDeltaZ = cms.double(0.0),
nrSigmaForBSDeltaZ = cms.double(4.0),
originHalfLength = cms.double(12.5),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(1.5),
superClusters = cms.VInputTag("hltEgammaSuperClustersToPixelMatch"),
useZInBeamspot = cms.bool(False),
useZInVertex = cms.bool(False),
vertices = cms.InputTag(""),
whereToUseMeasTracker = cms.string('kNever')
)
)
process.hltEleSeedsTrackingRegionsUnseeded = cms.EDProducer("TrackingRegionsFromSuperClustersEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
defaultZ = cms.double(0.0),
deltaEtaRegion = cms.double(0.1),
deltaPhiRegion = cms.double(0.4),
measurementTrackerEvent = cms.InputTag(""),
minBSDeltaZ = cms.double(0.0),
nrSigmaForBSDeltaZ = cms.double(4.0),
originHalfLength = cms.double(12.5),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(1.5),
superClusters = cms.VInputTag("hltEgammaSuperClustersToPixelMatchUnseeded"),
useZInBeamspot = cms.bool(False),
useZInVertex = cms.bool(False),
vertices = cms.InputTag(""),
whereToUseMeasTracker = cms.string('kNever')
)
)
process.hltFEDSelector = cms.EDProducer("EvFFEDSelector",
fedList = cms.vuint32(1023, 1024),
inputTag = cms.InputTag("rawDataCollector")
)
process.hltFEDSelectorL1 = cms.EDProducer("EvFFEDSelector",
fedList = cms.vuint32(1404),
inputTag = cms.InputTag("rawDataCollector")
)
process.hltFastPVJetTracksAssociator = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltSelector4CentralJetsL1FastJet"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltFastPVPixelTracks"),
useAssigned = cms.bool(False)
)
process.hltFastPVPixelTracks = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltFastPVPixelTracksFilter"),
Fitter = cms.InputTag("hltFastPVPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltFastPVPixelTracksHitQuadruplets"),
passLabel = cms.string('')
)
process.hltFastPVPixelTracksFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.0),
tipMax = cms.double(999.0)
)
process.hltFastPVPixelTracksFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltFastPVPixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadrupletsRegForBTag"),
trackingRegions = cms.InputTag("hltFastPVPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltFastPVPixelTracksHitDoubletsRecover = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadrupletsRegForBTag"),
trackingRegions = cms.InputTag("hltFastPVPixelTracksTrackingRegionsRecover"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltFastPVPixelTracksHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegForBTagCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltFastPVPixelTracksHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltFastPVPixelTracksHitQuadrupletsRecover = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegForBTagCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltFastPVPixelTracksHitDoubletsRecover"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(False),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltFastPVPixelTracksMerger = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltFastPVPixelTracks", "hltFastPVPixelTracksRecover"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(False),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltFastPVPixelTracks", "hltFastPVPixelTracksRecover"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltFastPVPixelTracksRecover = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltFastPVPixelTracksRecoverFilter"),
Fitter = cms.InputTag("hltFastPVPixelTracksRecoverFitter"),
SeedingHitSets = cms.InputTag("hltFastPVPixelTracksHitQuadrupletsRecover"),
passLabel = cms.string('')
)
process.hltFastPVPixelTracksRecoverFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.0),
tipMax = cms.double(999.0)
)
process.hltFastPVPixelTracksRecoverFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltFastPVPixelTracksTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltSelector4CentralJetsL1FastJet"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(0.0),
nSigmaZVertex = cms.double(0.0),
originRadius = cms.double(0.3),
precise = cms.bool(True),
ptMin = cms.double(0.9),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltFastPrimaryVertex"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(0.0),
zErrorVetex = cms.double(1.5)
)
)
process.hltFastPVPixelTracksTrackingRegionsRecover = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltFastPVJetVertexChecker"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotFixed'),
nSigmaZBeamSpot = cms.double(0.0),
nSigmaZVertex = cms.double(0.0),
originRadius = cms.double(0.3),
precise = cms.bool(True),
ptMin = cms.double(0.9),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag(""),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(20.0),
zErrorVetex = cms.double(0.0)
)
)
process.hltFastPVPixelVertices = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForBTag')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltFastPVPixelTracksMerger"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(10.0),
ZSeparation = cms.double(0.07),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltFastPixelBLifetimeL3Associator = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltMergedTracksForBTag"),
useAssigned = cms.bool(False)
)
process.hltFastPixelBLifetimeL3AssociatorPat = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltSelectorCentralJets30L1FastJeta"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltMergedTracksROIForBTag"),
useAssigned = cms.bool(False)
)
process.hltFastPixelBLifetimeL3AssociatorROIForBTag = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltMergedTracksROIForBTag"),
useAssigned = cms.bool(False)
)
process.hltFastPrimaryVertex = cms.EDProducer("FastPrimaryVertexWithWeightsProducer",
EC_weight = cms.double(0.008),
PixelCellHeightOverWidth = cms.double(1.8),
barrel = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusters = cms.InputTag("hltSiPixelClustersRegForBTag"),
endCap = cms.bool(True),
jets = cms.InputTag("hltSelector4CentralJetsL1FastJet"),
maxDeltaPhi = cms.double(0.21),
maxDeltaPhi_EC = cms.double(0.14),
maxJetEta = cms.double(2.6),
maxJetEta_EC = cms.double(2.6),
maxSizeX = cms.double(2.1),
maxSizeY_q = cms.double(2.0),
maxZ = cms.double(19.0),
minJetEta_EC = cms.double(1.3),
minJetPt = cms.double(0.0),
minSizeY_q = cms.double(-0.6),
njets = cms.int32(999),
peakSizeY_q = cms.double(1.0),
pixelCPE = cms.string('hltESPPixelCPEGeneric'),
ptWeighting = cms.bool(True),
ptWeighting_offset = cms.double(-1.0),
ptWeighting_slope = cms.double(0.05),
weightCut_step2 = cms.double(0.05),
weightCut_step3 = cms.double(0.1),
weight_SizeX1 = cms.double(0.88),
weight_charge_down = cms.double(11000.0),
weight_charge_peak = cms.double(22000.0),
weight_charge_up = cms.double(190000.0),
weight_dPhi = cms.double(0.13888888),
weight_dPhi_EC = cms.double(0.064516129),
weight_rho_up = cms.double(22.0),
zClusterSearchArea_step2 = cms.double(3.0),
zClusterSearchArea_step3 = cms.double(0.55),
zClusterWidth_step1 = cms.double(2.0),
zClusterWidth_step2 = cms.double(0.65),
zClusterWidth_step3 = cms.double(0.3)
)
process.hltFixedGridRhoFastjetAll = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(5.0),
pfCandidatesTag = cms.InputTag("hltParticleFlow")
)
process.hltFixedGridRhoFastjetAllCalo = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(5.0),
pfCandidatesTag = cms.InputTag("hltTowerMakerForAll")
)
process.hltFixedGridRhoFastjetAllCaloForMuons = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(2.5),
pfCandidatesTag = cms.InputTag("hltTowerMakerForAll")
)
process.hltFixedGridRhoFastjetAllROIForBTag = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(5.0),
pfCandidatesTag = cms.InputTag("hltParticleFlowROIForBTag")
)
process.hltFixedGridRhoFastjetECALMFForMuons = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(2.5),
pfCandidatesTag = cms.InputTag("hltTowerMakerForECALMF")
)
process.hltFixedGridRhoFastjetHCAL = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(2.5),
pfCandidatesTag = cms.InputTag("hltTowerMakerForHCAL")
)
process.hltFixedGridRhoFastjetPixelOnlyAll = cms.EDProducer("FixedGridRhoProducerFastjet",
gridSpacing = cms.double(0.55),
maxRapidity = cms.double(5.0),
pfCandidatesTag = cms.InputTag("hltPixelOnlyParticleFlow")
)
process.hltGemRecHits = cms.EDProducer("GEMRecHitProducer",
applyMasking = cms.bool(False),
deadFile = cms.optional.FileInPath,
gemDigiLabel = cms.InputTag("hltMuonGEMDigis"),
maskFile = cms.optional.FileInPath,
mightGet = cms.optional.untracked.vstring,
recAlgo = cms.string('GEMRecHitStandardAlgo'),
recAlgoConfig = cms.PSet(
)
)
process.hltGemSegments = cms.EDProducer("GEMSegmentProducer",
algo_name = cms.string('GEMSegmentAlgorithm'),
algo_pset = cms.PSet(
clusterOnlySameBXRecHits = cms.bool(True),
dEtaChainBoxMax = cms.double(0.05),
dPhiChainBoxMax = cms.double(0.02),
dXclusBoxMax = cms.double(1.0),
dYclusBoxMax = cms.double(5.0),
maxRecHitsInCluster = cms.int32(4),
minHitsPerSegment = cms.uint32(2),
preClustering = cms.bool(True),
preClusteringUseChaining = cms.bool(True)
),
ge0_name = cms.string('GE0SegAlgoRU'),
ge0_pset = cms.PSet(
allowWideSegments = cms.bool(True),
doCollisions = cms.bool(True),
maxChi2Additional = cms.double(100.0),
maxChi2GoodSeg = cms.double(50),
maxChi2Prune = cms.double(50),
maxETASeeds = cms.double(0.1),
maxNumberOfHits = cms.uint32(300),
maxNumberOfHitsPerLayer = cms.uint32(100),
maxPhiAdditional = cms.double(0.001096605744),
maxPhiSeeds = cms.double(0.001096605744),
maxTOFDiff = cms.double(25),
minNumberOfHits = cms.uint32(4),
requireCentralBX = cms.bool(True)
),
gemRecHitLabel = cms.InputTag("hltGemRecHits")
)
process.hltGlbTrkMuonCands = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltGlbTrkMuons")
)
process.hltGlbTrkMuonCandsNoVtx = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltGlbTrkMuonsNoVtx")
)
process.hltGlbTrkMuonLowPtIter01MergeCands = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltGlbTrkMuonsLowPtIter01Merge")
)
process.hltGlbTrkMuons = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAntiKT4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMerging")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltDiMuonMerging", "hltDiMuonLinks"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(8.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltGlbTrkMuonsLowPtIter01Merge = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAntiKT4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMerging")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltDiMuonMergingIter01TkMu", "hltDiMuonLinksIter01TkMuMerge"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(1.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltGlbTrkMuonsNoVtx = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAntiKT4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMerging")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltDiMuonMergingNoVtx", "hltDiMuonLinksNoVtx"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(8.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltGlobalHaloData = cms.EDProducer("GlobalHaloDataProducer",
CSCHaloDataLabel = cms.InputTag("hltCSCHaloData"),
CSCRecHitLabel = cms.InputTag("hltCsc2DRecHits"),
CSCSegmentLabel = cms.InputTag("hltCscSegments"),
CaloTowerEtThresholdParam = cms.double(0.3),
EcalHaloDataLabel = cms.InputTag("hltEcalHaloData"),
EcalMaxMatchingRadiusParam = cms.double(330.0),
EcalMinMatchingRadiusParam = cms.double(110.0),
HcalHaloDataLabel = cms.InputTag("hltHcalHaloData"),
HcalMaxMatchingRadiusParam = cms.double(490.0),
HcalMinMatchingRadiusParam = cms.double(110.0),
IsHLT = cms.bool(True),
MaxSegmentTheta = cms.double(0.7),
MuonLabel = cms.InputTag("hltMuons"),
calotowerLabel = cms.InputTag("hltTowerMakerForAll"),
dphicalosegm_thresh_eb = cms.double(0.04),
dphicalosegm_thresh_ee = cms.double(0.04),
dphicalosegm_thresh_hb = cms.double(0.15),
dphicalosegm_thresh_he = cms.double(0.1),
dtcalosegm_thresh_eb = cms.double(15.0),
dtcalosegm_thresh_ee = cms.double(15.0),
dtcalosegm_thresh_hb = cms.double(15.0),
dtcalosegm_thresh_he = cms.double(15.0),
metLabel = cms.InputTag("hltMet"),
rcalominrsegm_highthresh_eb = cms.double(15.0),
rcalominrsegm_highthresh_ee = cms.double(30.0),
rcalominrsegm_highthresh_hb = cms.double(20.0),
rcalominrsegm_highthresh_he = cms.double(30.0),
rcalominrsegm_lowthresh_eb = cms.double(-30.0),
rcalominrsegm_lowthresh_ee = cms.double(-30.0),
rcalominrsegm_lowthresh_hb = cms.double(-100.0),
rcalominrsegm_lowthresh_he = cms.double(-30.0),
rh_et_threshforcscmatching_eb = cms.double(10.0),
rh_et_threshforcscmatching_ee = cms.double(10.0),
rh_et_threshforcscmatching_hb = cms.double(20.0),
rh_et_threshforcscmatching_he = cms.double(20.0)
)
process.hltGsfEle17NoIsoJetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle17CaloIdMGsfTrackIdMDphiFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltGsfEle23NoIsoJetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle23CaloIdMGsfTrackIdMDphiFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltGsfEle8NoIsoJetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltEle8CaloIdMGsfTrackIdMDphiFilter"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltGtStage2Digis = cms.EDProducer("L1TRawToDigi",
CTP7 = cms.untracked.bool(False),
DmxFWId = cms.uint32(0),
FWId = cms.uint32(0),
FWOverride = cms.bool(False),
FedIds = cms.vint32(1404),
InputLabel = cms.InputTag("rawDataCollector"),
MTF7 = cms.untracked.bool(False),
MinFeds = cms.uint32(0),
Setup = cms.string('stage2::GTSetup'),
TMTCheck = cms.bool(True),
debug = cms.untracked.bool(False),
lenAMC13Header = cms.untracked.int32(8),
lenAMC13Trailer = cms.untracked.int32(8),
lenAMCHeader = cms.untracked.int32(8),
lenAMCTrailer = cms.untracked.int32(0),
lenSlinkHeader = cms.untracked.int32(8),
lenSlinkTrailer = cms.untracked.int32(8)
)
process.hltGtStage2ObjectMap = cms.EDProducer("L1TGlobalProducer",
AlgoBlkInputTag = cms.InputTag("hltGtStage2Digis"),
AlgorithmTriggersUnmasked = cms.bool(True),
AlgorithmTriggersUnprescaled = cms.bool(True),
AlternativeNrBxBoardDaq = cms.uint32(0),
BstLengthBytes = cms.int32(-1),
EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
EmulateBxInEvent = cms.int32(1),
EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
ExtInputTag = cms.InputTag("hltGtStage2Digis"),
GetPrescaleColumnFromData = cms.bool(False),
JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1DataBxInEvent = cms.int32(5),
MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
PrescaleCSVFile = cms.string('prescale_L1TGlobal.csv'),
PrescaleSet = cms.uint32(1),
PrintL1Menu = cms.untracked.bool(False),
ProduceL1GtDaqRecord = cms.bool(True),
ProduceL1GtObjectMapRecord = cms.bool(True),
RequireMenuToMatchAlgoBlkInput = cms.bool(True),
TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
TriggerMenuLuminosity = cms.string('startup'),
Verbosity = cms.untracked.int32(0)
)
process.hltHbherecoFromGPU = cms.EDProducer("HcalCPURecHitsProducer",
mightGet = cms.optional.untracked.vstring,
produceLegacy = cms.bool(True),
produceSoA = cms.bool(True),
recHitsLegacyLabelOut = cms.string(''),
recHitsM0LabelIn = cms.InputTag("hltHbherecoGPU"),
recHitsM0LabelOut = cms.string('')
)
process.hltHbherecoGPU = cms.EDProducer("HBHERecHitProducerGPU",
applyTimeSlew = cms.bool(True),
digisLabelF01HE = cms.InputTag("hltHcalDigisGPU"),
digisLabelF3HB = cms.InputTag("hltHcalDigisGPU"),
digisLabelF5HB = cms.InputTag("hltHcalDigisGPU"),
firstSampleShift = cms.int32(0),
kernelMinimizeThreads = cms.vuint32(16, 1, 1),
kprep1dChannelsPerBlock = cms.uint32(32),
maxChannels = cms.uint32(10000),
maxTimeSamples = cms.uint32(10),
meanTime = cms.double(0),
mightGet = cms.optional.untracked.vstring,
recHitsLabelM0HBHE = cms.string(''),
sipmQNTStoSum = cms.int32(3),
sipmQTSShift = cms.int32(0),
slopeTimeSlewParameters = cms.vdouble(-3.178648, -1.5610227, -1.075824),
timeSigmaHPD = cms.double(5),
timeSigmaSiPM = cms.double(2.5),
tmaxTimeSlewParameters = cms.vdouble(16, 10, 6.25),
ts4Thresh = cms.double(0),
tzeroTimeSlewParameters = cms.vdouble(23.960177, 11.977461, 9.109694),
useEffectivePedestals = cms.bool(True)
)
process.hltHcalCalibrationRaw = cms.EDProducer("EvFFEDSelector",
fedList = cms.vuint32(
700, 701, 702, 703, 704,
705, 706, 707, 708, 709,
710, 711, 712, 713, 714,
715, 716, 717, 718, 719,
720, 721, 722, 723, 724,
725, 726, 727, 728, 729,
730, 731, 1024, 1100, 1101,
1102, 1103, 1104, 1105, 1106,
1107, 1108, 1109, 1110, 1111,
1112, 1113, 1114, 1115, 1116,
1117, 1118, 1119, 1120, 1121,
1122, 1123, 1124, 1125, 1126,
1127, 1128, 1129, 1130, 1131,
1132, 1133, 1134, 1135, 1136,
1137, 1138, 1139, 1140, 1141,
1142, 1143, 1144, 1145, 1146,
1147, 1148, 1149, 1150, 1151,
1152, 1153, 1154, 1155, 1156,
1157, 1158, 1159, 1160, 1161,
1162, 1163, 1164, 1165, 1166,
1167, 1168, 1169, 1170, 1171,
1172, 1173, 1174, 1175, 1176,
1177, 1178, 1179, 1180, 1181,
1182, 1183, 1184, 1185, 1186,
1187, 1188, 1189, 1190, 1191,
1192, 1193, 1194, 1195, 1196,
1197, 1198, 1199
),
inputTag = cms.InputTag("rawDataCollector")
)
process.hltHcalDigis = cms.EDProducer("HcalRawToDigi",
ComplainEmptyData = cms.untracked.bool(False),
ElectronicsMap = cms.string(''),
ExpectedOrbitMessageTime = cms.untracked.int32(-1),
FEDs = cms.untracked.vint32(),
FilterDataQuality = cms.bool(True),
HcalFirstFED = cms.untracked.int32(700),
InputLabel = cms.InputTag("rawDataCollector"),
UnpackCalib = cms.untracked.bool(True),
UnpackTTP = cms.untracked.bool(False),
UnpackUMNio = cms.untracked.bool(True),
UnpackZDC = cms.untracked.bool(True),
UnpackerMode = cms.untracked.int32(0),
firstSample = cms.int32(0),
lastSample = cms.int32(9),
saveQIE10DataNSamples = cms.untracked.vint32(),
saveQIE10DataTags = cms.untracked.vstring(),
saveQIE11DataNSamples = cms.untracked.vint32(),
saveQIE11DataTags = cms.untracked.vstring(),
silent = cms.untracked.bool(True)
)
process.hltHcalDigisGPU = cms.EDProducer("HcalDigisProducerGPU",
digisLabelF01HE = cms.string(''),
digisLabelF3HB = cms.string(''),
digisLabelF5HB = cms.string(''),
hbheDigisLabel = cms.InputTag("hltHcalDigis"),
maxChannelsF01HE = cms.uint32(10000),
maxChannelsF3HB = cms.uint32(10000),
maxChannelsF5HB = cms.uint32(10000),
mightGet = cms.optional.untracked.vstring,
qie11DigiLabel = cms.InputTag("hltHcalDigis")
)
process.hltHcalHaloData = cms.EDProducer("HcalHaloDataProducer",
EBRecHitLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitLabel = cms.InputTag("hltHbhereco"),
HBRecHitEnergyThresholdParam = cms.double(0.5),
HERecHitEnergyThresholdParam = cms.double(0.5),
HFRecHitLabel = cms.InputTag("hltHfreco"),
HORecHitLabel = cms.InputTag("hltHoreco"),
HcalMaxMatchingRadiusParam = cms.double(490.0),
HcalMinMatchingRadiusParam = cms.double(110.0),
NHitsHcalThresholdParam = cms.int32(4),
SumHcalEnergyThresholdParam = cms.double(18.0),
caloTowerCollName = cms.InputTag("hltTowerMakerForAll")
)
process.hltHcalITIPTCorrectorHB = cms.EDProducer("IPTCorrector",
associationCone = cms.double(0.2),
corTracksLabel = cms.InputTag("hltIter0PFlowCtfWithMaterialTracks"),
filterLabel = cms.InputTag("hltIsolPixelTrackL2FilterHB")
)
process.hltHcalITIPTCorrectorHE = cms.EDProducer("IPTCorrector",
associationCone = cms.double(0.2),
corTracksLabel = cms.InputTag("hltIter0PFlowCtfWithMaterialTracks"),
filterLabel = cms.InputTag("hltIsolPixelTrackL2FilterHE")
)
process.hltHfprereco = cms.EDProducer("HFPreReconstructor",
digiLabel = cms.InputTag("hltHcalDigis"),
dropZSmarkedPassed = cms.bool(True),
forceSOI = cms.int32(-1),
soiShift = cms.int32(0),
sumAllTimeSlices = cms.bool(False),
tsFromDB = cms.bool(False)
)
process.hltHfreco = cms.EDProducer("HFPhase1Reconstructor",
HFStripFilter = cms.PSet(
gap = cms.int32(2),
lstrips = cms.int32(2),
maxStripTime = cms.double(10.0),
maxThreshold = cms.double(100.0),
seedHitIetaMax = cms.int32(35),
stripThreshold = cms.double(40.0),
timeMax = cms.double(6.0),
verboseLevel = cms.untracked.int32(10),
wedgeCut = cms.double(0.05)
),
PETstat = cms.PSet(
HcalAcceptSeverityLevel = cms.int32(9),
longETParams = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0
),
longEnergyParams = cms.vdouble(
43.5, 45.7, 48.32, 51.36, 54.82,
58.7, 63.0, 67.72, 72.86, 78.42,
84.4, 90.8, 97.62
),
long_R = cms.vdouble(0.98),
long_R_29 = cms.vdouble(0.8),
shortETParams = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0
),
shortEnergyParams = cms.vdouble(
35.1773, 35.37, 35.7933, 36.4472, 37.3317,
38.4468, 39.7925, 41.3688, 43.1757, 45.2132,
47.4813, 49.98, 52.7093
),
short_R = cms.vdouble(0.8),
short_R_29 = cms.vdouble(0.8)
),
S8S1stat = cms.PSet(
HcalAcceptSeverityLevel = cms.int32(9),
isS8S1 = cms.bool(True),
longETParams = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0
),
longEnergyParams = cms.vdouble(
40.0, 100.0, 100.0, 100.0, 100.0,
100.0, 100.0, 100.0, 100.0, 100.0,
100.0, 100.0, 100.0
),
long_optimumSlope = cms.vdouble(
0.3, 0.1, 0.1, 0.1, 0.1,
0.1, 0.1, 0.1, 0.1, 0.1,
0.1, 0.1, 0.1
),
shortETParams = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0
),
shortEnergyParams = cms.vdouble(
40.0, 100.0, 100.0, 100.0, 100.0,
100.0, 100.0, 100.0, 100.0, 100.0,
100.0, 100.0, 100.0
),
short_optimumSlope = cms.vdouble(
0.3, 0.1, 0.1, 0.1, 0.1,
0.1, 0.1, 0.1, 0.1, 0.1,
0.1, 0.1, 0.1
)
),
S9S1stat = cms.PSet(
HcalAcceptSeverityLevel = cms.int32(9),
isS8S1 = cms.bool(False),
longETParams = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0
),
longEnergyParams = cms.vdouble(
43.5, 45.7, 48.32, 51.36, 54.82,
58.7, 63.0, 67.72, 72.86, 78.42,
84.4, 90.8, 97.62
),
long_optimumSlope = cms.vdouble(
-99999.0, 0.0164905, 0.0238698, 0.0321383, 0.041296,
0.0513428, 0.0622789, 0.0741041, 0.0868186, 0.100422,
0.135313, 0.136289, 0.0589927
),
shortETParams = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0
),
shortEnergyParams = cms.vdouble(
35.1773, 35.37, 35.7933, 36.4472, 37.3317,
38.4468, 39.7925, 41.3688, 43.1757, 45.2132,
47.4813, 49.98, 52.7093
),
short_optimumSlope = cms.vdouble(
-99999.0, 0.0164905, 0.0238698, 0.0321383, 0.041296,
0.0513428, 0.0622789, 0.0741041, 0.0868186, 0.100422,
0.135313, 0.136289, 0.0589927
)
),
algoConfigClass = cms.string('HFPhase1PMTParams'),
algorithm = cms.PSet(
Class = cms.string('HFFlexibleTimeCheck'),
energyWeights = cms.vdouble(
1.0, 1.0, 1.0, 0.0, 1.0,
0.0, 2.0, 0.0, 2.0, 0.0,
2.0, 0.0, 1.0, 0.0, 0.0,
1.0, 0.0, 1.0, 0.0, 2.0,
0.0, 2.0, 0.0, 2.0, 0.0,
1.0
),
rejectAllFailures = cms.bool(True),
soiPhase = cms.uint32(1),
tfallIfNoTDC = cms.double(-101.0),
timeShift = cms.double(0.0),
tlimits = cms.vdouble(-1000.0, 1000.0, -1000.0, 1000.0),
triseIfNoTDC = cms.double(-100.0)
),
checkChannelQualityForDepth3and4 = cms.bool(False),
inputLabel = cms.InputTag("hltHfprereco"),
runHFStripFilter = cms.bool(False),
setNoiseFlags = cms.bool(True),
useChannelQualityFromDB = cms.bool(False)
)
process.hltHiCorrectedIslandBarrelSuperClustersHI = cms.EDProducer("HiEgammaSCCorrectionMaker",
VerbosityLevel = cms.string('ERROR'),
applyEnergyCorrection = cms.bool(True),
corectedSuperClusterCollection = cms.string(''),
etThresh = cms.double(0.0),
isl_fCorrPset = cms.PSet(
brLinearHighThr = cms.double(0.0),
brLinearLowThr = cms.double(0.0),
fBremThVect = cms.vdouble(1.2, 1.2),
fBremVect = cms.vdouble(
-0.773799, 2.73438, -1.07235, 0.986821, -0.0101822,
0.000306744, 1.00595, -0.0495958, 0.00451986, 1.00595,
-0.0495958, 0.00451986
),
fEtEtaVect = cms.vdouble(
0.9497, 0.006985, 1.03754, -0.0142667, -0.0233993,
0.0, 0.0, 0.908915, 0.0137322, 16.9602,
-29.3093, 19.8976, -5.92666, 0.654571
),
fEtaVect = cms.vdouble(
0.993, 0.0, 0.00546, 1.165, -0.180844,
0.040312
),
maxR9 = cms.double(1.5),
minR9Barrel = cms.double(0.94),
minR9Endcap = cms.double(0.95)
),
rawSuperClusterProducer = cms.InputTag("hltHiIslandSuperClustersHI","islandBarrelSuperClustersHI"),
recHitProducer = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
sigmaElectronicNoise = cms.double(0.03),
superClusterAlgo = cms.string('Island')
)
process.hltHiCorrectedIslandEndcapSuperClustersHI = cms.EDProducer("HiEgammaSCCorrectionMaker",
VerbosityLevel = cms.string('ERROR'),
applyEnergyCorrection = cms.bool(True),
corectedSuperClusterCollection = cms.string(''),
etThresh = cms.double(0.0),
isl_fCorrPset = cms.PSet(
brLinearHighThr = cms.double(0.0),
brLinearLowThr = cms.double(0.0),
fBremThVect = cms.vdouble(1.2, 1.2),
fBremVect = cms.vdouble(
-0.773799, 2.73438, -1.07235, 0.986821, -0.0101822,
0.000306744, 1.00595, -0.0495958, 0.00451986, 1.00595,
-0.0495958, 0.00451986
),
fEtEtaVect = cms.vdouble(
0.9497, 0.006985, 1.03754, -0.0142667, -0.0233993,
0.0, 0.0, 0.908915, 0.0137322, 16.9602,
-29.3093, 19.8976, -5.92666, 0.654571
),
fEtaVect = cms.vdouble(
0.993, 0.0, 0.00546, 1.165, -0.180844,
0.040312
),
maxR9 = cms.double(1.5),
minR9Barrel = cms.double(0.94),
minR9Endcap = cms.double(0.95)
),
rawSuperClusterProducer = cms.InputTag("hltHiIslandSuperClustersHI","islandEndcapSuperClustersHI"),
recHitProducer = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
sigmaElectronicNoise = cms.double(0.15),
superClusterAlgo = cms.string('Island')
)
process.hltHiIslandSuperClustersHI = cms.EDProducer("HiSuperClusterProducer",
VerbosityLevel = cms.string('ERROR'),
barrelBCEnergyThreshold = cms.double(0.0),
barrelClusterCollection = cms.string('islandBarrelBasicClustersHI'),
barrelClusterProducer = cms.string('hltIslandBasicClustersHI'),
barrelEtaSearchRoad = cms.double(0.07),
barrelPhiSearchRoad = cms.double(0.8),
barrelSuperclusterCollection = cms.string('islandBarrelSuperClustersHI'),
doBarrel = cms.bool(True),
doEndcaps = cms.bool(True),
endcapBCEnergyThreshold = cms.double(0.0),
endcapClusterCollection = cms.string('islandEndcapBasicClustersHI'),
endcapClusterProducer = cms.string('hltIslandBasicClustersHI'),
endcapEtaSearchRoad = cms.double(0.14),
endcapPhiSearchRoad = cms.double(0.6),
endcapSuperclusterCollection = cms.string('islandEndcapSuperClustersHI'),
seedTransverseEnergyThreshold = cms.double(1.0)
)
process.hltHighPtTkMuonCands = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltHighPtTkMuons")
)
process.hltHighPtTkMuons = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAntiKT4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForPF"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMerging")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltIter2HighPtTkMuMerged"),
inputCollectionTypes = cms.vstring('inner tracks'),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(8.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltHoreco = cms.EDProducer("HcalHitReconstructor",
HFInWindowStat = cms.PSet(
),
PETstat = cms.PSet(
),
S8S1stat = cms.PSet(
),
S9S1stat = cms.PSet(
),
Subdetector = cms.string('HO'),
correctForPhaseContainment = cms.bool(True),
correctForTimeslew = cms.bool(True),
correctTiming = cms.bool(False),
correctionPhaseNS = cms.double(13.0),
dataOOTCorrectionCategory = cms.string('Data'),
dataOOTCorrectionName = cms.string(''),
digiLabel = cms.InputTag("hltHcalDigis"),
digiTimeFromDB = cms.bool(True),
digistat = cms.PSet(
),
dropZSmarkedPassed = cms.bool(True),
firstAuxTS = cms.int32(4),
firstSample = cms.int32(4),
hfTimingTrustParameters = cms.PSet(
),
mcOOTCorrectionCategory = cms.string('MC'),
mcOOTCorrectionName = cms.string(''),
recoParamsFromDB = cms.bool(True),
samplesToAdd = cms.int32(4),
saturationParameters = cms.PSet(
maxADCvalue = cms.int32(127)
),
setHSCPFlags = cms.bool(False),
setNegativeFlags = cms.bool(False),
setNoiseFlags = cms.bool(False),
setPulseShapeFlags = cms.bool(False),
setSaturationFlags = cms.bool(False),
setTimingTrustFlags = cms.bool(False),
tsFromDB = cms.bool(True),
useLeakCorrection = cms.bool(False)
)
process.hltHpsCombinatoricRecoTaus = cms.EDProducer("RecoTauProducer",
buildNullTaus = cms.bool(False),
builders = cms.VPSet(cms.PSet(
decayModes = cms.VPSet(
cms.PSet(
maxPiZeros = cms.uint32(0),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(1),
nPiZeros = cms.uint32(0)
),
cms.PSet(
maxPiZeros = cms.uint32(6),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(1),
nPiZeros = cms.uint32(1)
),
cms.PSet(
maxPiZeros = cms.uint32(5),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(1),
nPiZeros = cms.uint32(2)
),
cms.PSet(
maxPiZeros = cms.uint32(0),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(2),
nPiZeros = cms.uint32(0)
),
cms.PSet(
maxPiZeros = cms.uint32(3),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(2),
nPiZeros = cms.uint32(1)
),
cms.PSet(
maxPiZeros = cms.uint32(0),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(3),
nPiZeros = cms.uint32(0)
),
cms.PSet(
maxPiZeros = cms.uint32(3),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(3),
nPiZeros = cms.uint32(1)
)
),
isolationConeSize = cms.double(0.5),
minAbsPhotonSumPt_insideSignalCone = cms.double(2.5),
minAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
minRelPhotonSumPt_insideSignalCone = cms.double(0.1),
minRelPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
name = cms.string('combinatoric'),
pfCandSrc = cms.InputTag("hltParticleFlowForTaus"),
plugin = cms.string('RecoTauBuilderCombinatoricPlugin'),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.03),
minGammaEt = cms.double(1.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(1.0),
minTrackVertexWeight = cms.double(-1.0)
),
leadingTrkOrPFCandOption = cms.string('leadPFCand'),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.4),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
minTrackVertexWeight = cms.double(-1.0)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
minTrackVertexWeight = cms.double(-1.0)
)
),
signalConeSize = cms.string('max(min(0.1, 3.0/pt()), 0.05)')
)),
chargedHadronSrc = cms.InputTag("hltHpsTauPFJetsRecoTauChargedHadronsWithNeutrals"),
jetRegionSrc = cms.InputTag("hltTauPFJets08Region"),
jetSrc = cms.InputTag("hltAK4PFJetsForTaus"),
maxJetAbsEta = cms.double(2.5),
minJetPt = cms.double(14.0),
modifiers = cms.VPSet(
cms.PSet(
DataType = cms.string('AOD'),
EcalStripSumE_deltaEta = cms.double(0.03),
EcalStripSumE_deltaPhiOverQ_maxValue = cms.double(0.5),
EcalStripSumE_deltaPhiOverQ_minValue = cms.double(-0.1),
EcalStripSumE_minClusEnergy = cms.double(0.1),
ElecPreIDLeadTkMatch_maxDR = cms.double(0.01),
ElectronPreIDProducer = cms.InputTag("elecpreid"),
maximumForElectrionPreIDOutput = cms.double(-0.1),
name = cms.string('elec_rej'),
plugin = cms.string('RecoTauElectronRejectionPlugin')
),
cms.PSet(
name = cms.string('tau_mass'),
plugin = cms.string('PFRecoTauMassPlugin'),
verbosity = cms.int32(0)
)
),
outputSelection = cms.string('leadPFChargedHadrCand().isNonnull()'),
piZeroSrc = cms.InputTag("hltPFTauPiZeros"),
verbosity = cms.int32(0)
)
process.hltHpsCombinatoricRecoTausReg = cms.EDProducer("RecoTauProducer",
buildNullTaus = cms.bool(False),
builders = cms.VPSet(cms.PSet(
decayModes = cms.VPSet(
cms.PSet(
maxPiZeros = cms.uint32(0),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(1),
nPiZeros = cms.uint32(0)
),
cms.PSet(
maxPiZeros = cms.uint32(6),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(1),
nPiZeros = cms.uint32(1)
),
cms.PSet(
maxPiZeros = cms.uint32(5),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(1),
nPiZeros = cms.uint32(2)
),
cms.PSet(
maxPiZeros = cms.uint32(0),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(2),
nPiZeros = cms.uint32(0)
),
cms.PSet(
maxPiZeros = cms.uint32(3),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(2),
nPiZeros = cms.uint32(1)
),
cms.PSet(
maxPiZeros = cms.uint32(0),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(3),
nPiZeros = cms.uint32(0)
),
cms.PSet(
maxPiZeros = cms.uint32(3),
maxTracks = cms.uint32(6),
nCharged = cms.uint32(3),
nPiZeros = cms.uint32(1)
)
),
isolationConeSize = cms.double(0.5),
minAbsPhotonSumPt_insideSignalCone = cms.double(2.5),
minAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
minRelPhotonSumPt_insideSignalCone = cms.double(0.1),
minRelPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
name = cms.string('combinatoric'),
pfCandSrc = cms.InputTag("hltParticleFlowReg"),
plugin = cms.string('RecoTauBuilderCombinatoricPlugin'),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.03),
minGammaEt = cms.double(1.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(1.0),
minTrackVertexWeight = cms.double(-1.0)
),
leadingTrkOrPFCandOption = cms.string('leadPFCand'),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.4),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
minTrackVertexWeight = cms.double(-1.0)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
minTrackVertexWeight = cms.double(-1.0)
)
),
signalConeSize = cms.string('max(min(0.1, 3.0/pt()), 0.05)')
)),
chargedHadronSrc = cms.InputTag("hltHpsTauPFJetsRecoTauChargedHadronsWithNeutralsReg"),
jetRegionSrc = cms.InputTag("hltTauPFJets08RegionReg"),
jetSrc = cms.InputTag("hltAK4PFJetsReg"),
maxJetAbsEta = cms.double(2.5),
minJetPt = cms.double(14.0),
modifiers = cms.VPSet(
cms.PSet(
DataType = cms.string('AOD'),
EcalStripSumE_deltaEta = cms.double(0.03),
EcalStripSumE_deltaPhiOverQ_maxValue = cms.double(0.5),
EcalStripSumE_deltaPhiOverQ_minValue = cms.double(-0.1),
EcalStripSumE_minClusEnergy = cms.double(0.1),
ElecPreIDLeadTkMatch_maxDR = cms.double(0.01),
ElectronPreIDProducer = cms.InputTag("elecpreid"),
maximumForElectrionPreIDOutput = cms.double(-0.1),
name = cms.string('elec_rej'),
plugin = cms.string('RecoTauElectronRejectionPlugin')
),
cms.PSet(
name = cms.string('tau_mass'),
plugin = cms.string('PFRecoTauMassPlugin'),
verbosity = cms.int32(0)
)
),
outputSelection = cms.string('leadPFChargedHadrCand().isNonnull()'),
piZeroSrc = cms.InputTag("hltPFTauPiZerosReg"),
verbosity = cms.int32(0)
)
process.hltHpsL1JetsHLTDoublePFTau30TrackPt1MediumChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauMaxMass"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolation"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationTightOOSCPhotonsAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotonsAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationTightOOSCPhotonsMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotons"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolation"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationTightOOSCPhotonsAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotonsAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationTightOOSCPhotonsMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotons"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchForMu22Tau28Reg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sMu22erIsoTau28er"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackPt1TightChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolation"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationTightOOSCPhotonsAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotonsAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationTightOOSCPhotonsMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotons"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltHpsPFTauAgainstMuonDiscriminator = cms.EDProducer("PFRecoTauDiscriminationAgainstMuon2",
HoPMin = cms.double(-1.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
dRmuonMatch = cms.double(0.3),
dRmuonMatchLimitedToJetArea = cms.bool(False),
discriminatorOption = cms.string('custom'),
doCaloMuonVeto = cms.bool(False),
maskHitsCSC = cms.vint32(0, 0, 0, 0),
maskHitsDT = cms.vint32(0, 0, 0, 0),
maskHitsRPC = cms.vint32(0, 0, 0, 0),
maskMatchesCSC = cms.vint32(1, 0, 0, 0),
maskMatchesDT = cms.vint32(0, 0, 0, 0),
maskMatchesRPC = cms.vint32(0, 0, 0, 0),
maxNumberOfHitsLast2Stations = cms.int32(-1),
maxNumberOfMatches = cms.int32(1),
minPtMatchedMuon = cms.double(5.0),
srcMuons = cms.InputTag(""),
verbosity = cms.int32(0)
)
process.hltHpsPFTauDiscriminationByDecayModeFindingNewDMs = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection",
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
decayModes = cms.VPSet(
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.'),
minMass = cms.double(-1000.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.1349),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.2))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.0),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.0))'),
maxPi0Mass = cms.double(0.8),
minMass = cms.double(0.4),
minPi0Mass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(2),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.2'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('max(1.6, min(1.6*sqrt(pt/100.), 4.0))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.7),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(False),
phi = cms.bool(False)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.9),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
)
),
matchingCone = cms.double(0.5),
minPixelHits = cms.int32(0),
minTauPt = cms.double(18.0),
requireTauChargedHadronsToBeChargedPFCands = cms.bool(False),
verbosity = cms.int32(0)
)
process.hltHpsPFTauDiscriminationByDecayModeFindingNewDMsReg = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection",
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
decayModes = cms.VPSet(
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.'),
minMass = cms.double(-1000.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.1349),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.2))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.0),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.0))'),
maxPi0Mass = cms.double(0.8),
minMass = cms.double(0.4),
minPi0Mass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(2),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.2'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('max(1.6, min(1.6*sqrt(pt/100.), 4.0))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.7),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(False),
phi = cms.bool(False)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.9),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
)
),
matchingCone = cms.double(0.5),
minPixelHits = cms.int32(0),
minTauPt = cms.double(18.0),
requireTauChargedHadronsToBeChargedPFCands = cms.bool(False),
verbosity = cms.int32(0)
)
process.hltHpsPFTauLooseAbsOrRelChargedIsolationDiscriminator = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauLooseAbsoluteChargedIsolationDiscriminator"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauLooseRelativeChargedIsolationDiscriminator"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauLooseAbsoluteChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.9),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauLooseRelativeChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.05),
relativeSumPtOffset = cms.double(50.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminator = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauMediumAbsoluteChargedIsolationDiscriminator"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauMediumRelativeChargedIsolationDiscriminator"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauMediumAbsoluteChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauMediumRelativeChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauMediumAbsoluteChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(0.33333),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.7),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.357),
rhoProducer = cms.InputTag("NotUsed"),
rhoUEOffsetCorrection = cms.double(0.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauMediumAbsoluteChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(0.33333),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.7),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.357),
rhoProducer = cms.InputTag("NotUsed"),
rhoUEOffsetCorrection = cms.double(0.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauMediumChargedIsolationAndTightOOSCPhotonsDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauMediumRelativeChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.05),
relativeSumPtOffset = cms.double(60.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauMediumRelativeChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.05),
relativeSumPtOffset = cms.double(60.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauProducer = cms.EDProducer("RecoTauPiZeroUnembedder",
src = cms.InputTag("hltHpsPFTauProducerSansRefs")
)
process.hltHpsPFTauProducerReg = cms.EDProducer("RecoTauPiZeroUnembedder",
src = cms.InputTag("hltHpsPFTauProducerSansRefsReg")
)
process.hltHpsPFTauProducerSansRefs = cms.EDProducer("RecoTauCleaner",
cleaners = cms.VPSet(
cms.PSet(
name = cms.string('HPS_Select'),
plugin = cms.string('RecoTauDiscriminantCleanerPlugin'),
src = cms.InputTag("hltHpsSelectionDiscriminator")
),
cms.PSet(
minTrackPt = cms.double(5.0),
name = cms.string('killSoftTwoProngTaus'),
plugin = cms.string('RecoTauSoftTwoProngTausCleanerPlugin')
),
cms.PSet(
name = cms.string('ChargedHadronMultiplicity'),
plugin = cms.string('RecoTauChargedHadronMultiplicityCleanerPlugin')
),
cms.PSet(
name = cms.string('Pt'),
plugin = cms.string('RecoTauStringCleanerPlugin'),
selection = cms.string('leadPFCand().isNonnull()'),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt()'),
tolerance = cms.double(0.01)
),
cms.PSet(
name = cms.string('StripMultiplicity'),
plugin = cms.string('RecoTauStringCleanerPlugin'),
selection = cms.string('leadPFCand().isNonnull()'),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-signalPiZeroCandidates().size()')
),
cms.PSet(
name = cms.string('CombinedIsolation'),
plugin = cms.string('RecoTauStringCleanerPlugin'),
selection = cms.string('leadPFCand().isNonnull()'),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('isolationPFChargedHadrCandsPtSum() + isolationPFGammaCandsEtSum()')
)
),
outputSelection = cms.string(''),
src = cms.InputTag("hltHpsCombinatoricRecoTaus"),
verbosity = cms.int32(0)
)
process.hltHpsPFTauProducerSansRefsReg = cms.EDProducer("RecoTauCleaner",
cleaners = cms.VPSet(
cms.PSet(
name = cms.string('HPS_Select'),
plugin = cms.string('RecoTauDiscriminantCleanerPlugin'),
src = cms.InputTag("hltHpsSelectionDiscriminatorReg")
),
cms.PSet(
minTrackPt = cms.double(5.0),
name = cms.string('killSoftTwoProngTaus'),
plugin = cms.string('RecoTauSoftTwoProngTausCleanerPlugin')
),
cms.PSet(
name = cms.string('ChargedHadronMultiplicity'),
plugin = cms.string('RecoTauChargedHadronMultiplicityCleanerPlugin')
),
cms.PSet(
name = cms.string('Pt'),
plugin = cms.string('RecoTauStringCleanerPlugin'),
selection = cms.string('leadPFCand().isNonnull()'),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt()'),
tolerance = cms.double(0.01)
),
cms.PSet(
name = cms.string('StripMultiplicity'),
plugin = cms.string('RecoTauStringCleanerPlugin'),
selection = cms.string('leadPFCand().isNonnull()'),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-signalPiZeroCandidates().size()')
),
cms.PSet(
name = cms.string('CombinedIsolation'),
plugin = cms.string('RecoTauStringCleanerPlugin'),
selection = cms.string('leadPFCand().isNonnull()'),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('isolationPFChargedHadrCandsPtSum() + isolationPFGammaCandsEtSum()')
)
),
outputSelection = cms.string(''),
src = cms.InputTag("hltHpsCombinatoricRecoTausReg"),
verbosity = cms.int32(0)
)
process.hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminator = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightAbsoluteChargedIsolationDiscriminator"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightRelativeChargedIsolationDiscriminator"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightAbsoluteChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightRelativeChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauTightAbsoluteChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(0.33333),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.2),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.357),
rhoProducer = cms.InputTag("NotUsed"),
rhoUEOffsetCorrection = cms.double(0.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauTightAbsoluteChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(0.33333),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.2),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.357),
rhoProducer = cms.InputTag("NotUsed"),
rhoUEOffsetCorrection = cms.double(0.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauTightChargedIsolationAndTightOOSCPhotonsDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(True),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.1),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(True),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.1),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauTightRelativeChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.04),
relativeSumPtOffset = cms.double(70.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauTightRelativeChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.04),
relativeSumPtOffset = cms.double(70.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltHpsPFTauTrackFindingDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducer"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltHpsPFTauTrackFindingDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(0.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltHpsPFTauTrackPt1DiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(1.0),
PFTauProducer = cms.InputTag("hltHpsPFTauProducerReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltHpsSelectionDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection",
PFTauProducer = cms.InputTag("hltHpsCombinatoricRecoTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
decayModes = cms.VPSet(
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.'),
minMass = cms.double(-1000.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.1349),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.2))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.0),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.0))'),
maxPi0Mass = cms.double(0.8),
minMass = cms.double(0.4),
minPi0Mass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(2),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.2'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('max(1.6, min(1.6*sqrt(pt/100.), 4.0))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.7),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(False),
phi = cms.bool(False)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.9),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
)
),
matchingCone = cms.double(0.5),
minPixelHits = cms.int32(0),
minTauPt = cms.double(0.0),
requireTauChargedHadronsToBeChargedPFCands = cms.bool(False),
verbosity = cms.int32(0)
)
process.hltHpsSelectionDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection",
PFTauProducer = cms.InputTag("hltHpsCombinatoricRecoTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
decayModes = cms.VPSet(
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.'),
minMass = cms.double(-1000.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.1349),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.2))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(True),
mass = cms.bool(True),
phi = cms.bool(True)
),
assumeStripMass = cms.double(0.0),
maxMass = cms.string('max(1.72, min(1.72*sqrt(pt/100.), 4.0))'),
maxPi0Mass = cms.double(0.8),
minMass = cms.double(0.4),
minPi0Mass = cms.double(0.0),
nCharged = cms.uint32(1),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(2),
nTracksMin = cms.uint32(1)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.2'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('max(1.6, min(1.6*sqrt(pt/100.), 4.0))'),
minMass = cms.double(0.0),
nCharged = cms.uint32(2),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(True),
phi = cms.bool(True)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.7),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(0),
nTracksMin = cms.uint32(2)
),
cms.PSet(
applyBendCorrection = cms.PSet(
eta = cms.bool(False),
mass = cms.bool(False),
phi = cms.bool(False)
),
maxMass = cms.string('1.6'),
minMass = cms.double(0.9),
nCharged = cms.uint32(3),
nChargedPFCandsMin = cms.uint32(1),
nPiZeros = cms.uint32(1),
nTracksMin = cms.uint32(2)
)
),
matchingCone = cms.double(0.5),
minPixelHits = cms.int32(0),
minTauPt = cms.double(0.0),
requireTauChargedHadronsToBeChargedPFCands = cms.bool(False),
verbosity = cms.int32(0)
)
process.hltHpsTauPFJetsRecoTauChargedHadronsWithNeutrals = cms.EDProducer("PFRecoTauChargedHadronProducer",
builders = cms.VPSet(
cms.PSet(
chargedHadronCandidatesParticleIds = cms.vint32(1, 2, 3),
dRmergeNeutralHadronWrtChargedHadron = cms.double(0.005),
dRmergeNeutralHadronWrtElectron = cms.double(0.05),
dRmergeNeutralHadronWrtNeutralHadron = cms.double(0.01),
dRmergeNeutralHadronWrtOther = cms.double(0.005),
dRmergePhotonWrtChargedHadron = cms.double(0.005),
dRmergePhotonWrtElectron = cms.double(0.005),
dRmergePhotonWrtNeutralHadron = cms.double(0.01),
dRmergePhotonWrtOther = cms.double(0.005),
maxUnmatchedBlockElementsNeutralHadron = cms.int32(1),
maxUnmatchedBlockElementsPhoton = cms.int32(1),
minBlockElementMatchesNeutralHadron = cms.int32(2),
minBlockElementMatchesPhoton = cms.int32(2),
minMergeChargedHadronPt = cms.double(100.0),
minMergeGammaEt = cms.double(0.0),
minMergeNeutralHadronEt = cms.double(0.0),
name = cms.string('chargedPFCandidates'),
plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
)
),
cms.PSet(
chargedHadronCandidatesParticleIds = cms.vint32(5),
dRmergeNeutralHadronWrtChargedHadron = cms.double(0.005),
dRmergeNeutralHadronWrtElectron = cms.double(0.05),
dRmergeNeutralHadronWrtNeutralHadron = cms.double(0.01),
dRmergeNeutralHadronWrtOther = cms.double(0.005),
dRmergePhotonWrtChargedHadron = cms.double(0.005),
dRmergePhotonWrtElectron = cms.double(0.005),
dRmergePhotonWrtNeutralHadron = cms.double(0.01),
dRmergePhotonWrtOther = cms.double(0.005),
maxUnmatchedBlockElementsNeutralHadron = cms.int32(1),
maxUnmatchedBlockElementsPhoton = cms.int32(1),
minBlockElementMatchesNeutralHadron = cms.int32(2),
minBlockElementMatchesPhoton = cms.int32(2),
minMergeChargedHadronPt = cms.double(0.0),
minMergeGammaEt = cms.double(0.0),
minMergeNeutralHadronEt = cms.double(0.0),
name = cms.string('PFNeutralHadrons'),
plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
)
)
),
jetSrc = cms.InputTag("hltAK4PFJetsForTaus"),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
outputSelection = cms.string('pt > 0.5'),
ranking = cms.VPSet(
cms.PSet(
name = cms.string('ChargedPFCandidate'),
plugin = cms.string('PFRecoTauChargedHadronStringQuality'),
selection = cms.string("algoIs(\'kChargedPFCandidate\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt')
),
cms.PSet(
name = cms.string('ChargedPFCandidate'),
plugin = cms.string('PFRecoTauChargedHadronStringQuality'),
selection = cms.string("algoIs(\'kPFNeutralHadron\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt')
)
),
verbosity = cms.int32(0)
)
process.hltHpsTauPFJetsRecoTauChargedHadronsWithNeutralsReg = cms.EDProducer("PFRecoTauChargedHadronProducer",
builders = cms.VPSet(
cms.PSet(
chargedHadronCandidatesParticleIds = cms.vint32(1, 2, 3),
dRmergeNeutralHadronWrtChargedHadron = cms.double(0.005),
dRmergeNeutralHadronWrtElectron = cms.double(0.05),
dRmergeNeutralHadronWrtNeutralHadron = cms.double(0.01),
dRmergeNeutralHadronWrtOther = cms.double(0.005),
dRmergePhotonWrtChargedHadron = cms.double(0.005),
dRmergePhotonWrtElectron = cms.double(0.005),
dRmergePhotonWrtNeutralHadron = cms.double(0.01),
dRmergePhotonWrtOther = cms.double(0.005),
maxUnmatchedBlockElementsNeutralHadron = cms.int32(1),
maxUnmatchedBlockElementsPhoton = cms.int32(1),
minBlockElementMatchesNeutralHadron = cms.int32(2),
minBlockElementMatchesPhoton = cms.int32(2),
minMergeChargedHadronPt = cms.double(100.0),
minMergeGammaEt = cms.double(0.0),
minMergeNeutralHadronEt = cms.double(0.0),
name = cms.string('chargedPFCandidates'),
plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
)
),
cms.PSet(
chargedHadronCandidatesParticleIds = cms.vint32(5),
dRmergeNeutralHadronWrtChargedHadron = cms.double(0.005),
dRmergeNeutralHadronWrtElectron = cms.double(0.05),
dRmergeNeutralHadronWrtNeutralHadron = cms.double(0.01),
dRmergeNeutralHadronWrtOther = cms.double(0.005),
dRmergePhotonWrtChargedHadron = cms.double(0.005),
dRmergePhotonWrtElectron = cms.double(0.005),
dRmergePhotonWrtNeutralHadron = cms.double(0.01),
dRmergePhotonWrtOther = cms.double(0.005),
maxUnmatchedBlockElementsNeutralHadron = cms.int32(1),
maxUnmatchedBlockElementsPhoton = cms.int32(1),
minBlockElementMatchesNeutralHadron = cms.int32(2),
minBlockElementMatchesPhoton = cms.int32(2),
minMergeChargedHadronPt = cms.double(0.0),
minMergeGammaEt = cms.double(0.0),
minMergeNeutralHadronEt = cms.double(0.0),
name = cms.string('PFNeutralHadrons'),
plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
)
)
),
jetSrc = cms.InputTag("hltAK4PFJetsReg"),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
outputSelection = cms.string('pt > 0.5'),
ranking = cms.VPSet(
cms.PSet(
name = cms.string('ChargedPFCandidate'),
plugin = cms.string('PFRecoTauChargedHadronStringQuality'),
selection = cms.string("algoIs(\'kChargedPFCandidate\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt')
),
cms.PSet(
name = cms.string('ChargedPFCandidate'),
plugin = cms.string('PFRecoTauChargedHadronStringQuality'),
selection = cms.string("algoIs(\'kPFNeutralHadron\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt')
)
),
verbosity = cms.int32(0)
)
process.hltHtMht = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4CaloJetsCorrected"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(40.0),
minPtJetMht = cms.double(30.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltHtMhtCaloJetsFiveC25 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltCaloJetsFive25ForHt"),
maxEtaJetHt = cms.double(3.1),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(5),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(25.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(True)
)
process.hltHtMhtCaloJetsQuadC30 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltCaloJetsQuad30ForHt"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(4),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(True)
)
process.hltHtMhtCaloJetsSixC25 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltCaloJetsSix25ForHt"),
maxEtaJetHt = cms.double(2.6),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(6),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(25.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(True)
)
process.hltHtMhtCaloJetsSixC30 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltCaloJetsSix30ForHt"),
maxEtaJetHt = cms.double(2.6),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(6),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(True)
)
process.hltHtMhtEcal = cms.EDProducer("HLTCaloTowerHtMhtProducer",
maxEtaTowerHt = cms.double(5.0),
maxEtaTowerMht = cms.double(5.0),
minPtTowerHt = cms.double(1.5),
minPtTowerMht = cms.double(1.5),
towersLabel = cms.InputTag("hltTowerMakerEcal"),
usePt = cms.bool(False)
)
process.hltHtMhtForMC = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4CaloJetsCorrected"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltHtMhtJet10 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4CaloJetsCorrected"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(10.0),
minPtJetMht = cms.double(10.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltHtMhtJet30 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4CaloJetsCorrected"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(30.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltHtMhtPFCentralJetsLooseIDQuadC30 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltPFCentralJetLooseIDQuad30forHt"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(4),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltHtMhtPFCentralJetsLooseIDQuadC30ROIForBTag = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltPFCentralJetLooseIDQuad30forHtROIForBTag"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(4),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlowROIForBTag"),
usePt = cms.bool(True)
)
process.hltHtMhtPFJetsFive30er3p0 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltPFJetsFive30ForHt"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(5),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltHtMhtPFJetsFive30er3p0ROIForBTag = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltPFJetsFive30ForHtROIForBTag"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(5),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlowROIForBTag"),
usePt = cms.bool(True)
)
process.hltHtMhtPFJetsSix30er2p5 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltPFJetsSix30ForHt"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(6),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltHtMhtPFJetsSix30er2p5ROIForBTag = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltPFJetsSix30ForHtROIForBTag"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(6),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlowROIForBTag"),
usePt = cms.bool(True)
)
process.hltImpactParameterPatTagInfos = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltFastPixelBLifetimeL3AssociatorPat"),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesL3FilterROIForBTag"),
useTrackQuality = cms.bool(False)
)
process.hltImpactParameterTagInfos = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltFastPixelBLifetimeL3Associator"),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesL3","WithBS"),
useTrackQuality = cms.bool(False)
)
process.hltImpactParameterTagInfosROIForBTag = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(True),
computeProbabilities = cms.bool(True),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltFastPixelBLifetimeL3AssociatorROIForBTag"),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(0.2),
minimumNumberOfHits = cms.int32(3),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltVerticesL3FilterROIForBTag"),
useTrackQuality = cms.bool(False)
)
process.hltInclusiveMergedVertices = cms.EDProducer("VertexMerger",
maxFraction = cms.double(0.2),
minSignificance = cms.double(10.0),
secondaryVertices = cms.InputTag("hltTrackVertexArbitrator")
)
process.hltInclusiveMergedVerticesROIForBTag = cms.EDProducer("VertexMerger",
maxFraction = cms.double(0.2),
minSignificance = cms.double(10.0),
secondaryVertices = cms.InputTag("hltTrackVertexArbitratorROIForBTag")
)
process.hltInclusiveSecondaryVertexFinderPatTagInfos = cms.EDProducer("SecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltInclusiveMergedVerticesROIForBTag"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltImpactParameterPatTagInfos"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(2),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.5),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltInclusiveSecondaryVertexFinderTagInfos = cms.EDProducer("SecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltInclusiveMergedVertices"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltImpactParameterTagInfos"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(2),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.5),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltInclusiveSecondaryVertexFinderTagInfosROIForBTag = cms.EDProducer("SecondaryVertexProducer",
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
constraint = cms.string('BeamSpot'),
extSVCollection = cms.InputTag("hltInclusiveMergedVerticesROIForBTag"),
extSVDeltaRToJet = cms.double(0.3),
minimumTrackWeight = cms.double(0.5),
trackIPTagInfos = cms.InputTag("hltImpactParameterTagInfosROIForBTag"),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(99999.9),
maxDistToAxis = cms.double(0.2),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(2),
ptMin = cms.double(1.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(2),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip3dSig'),
useExternalSV = cms.bool(True),
usePVError = cms.bool(True),
vertexCuts = cms.PSet(
distSig2dMax = cms.double(99999.9),
distSig2dMin = cms.double(2.0),
distSig3dMax = cms.double(99999.9),
distSig3dMin = cms.double(-99999.9),
distVal2dMax = cms.double(2.5),
distVal2dMin = cms.double(0.01),
distVal3dMax = cms.double(99999.9),
distVal3dMin = cms.double(-99999.9),
fracPV = cms.double(0.79),
massMax = cms.double(6.5),
maxDeltaRToJetAxis = cms.double(0.5),
minimumTrackWeight = cms.double(0.5),
multiplicityMin = cms.uint32(2),
useTrackWeights = cms.bool(True),
v0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
)
),
vertexReco = cms.PSet(
finder = cms.string('avr'),
minweight = cms.double(0.5),
primcut = cms.double(1.8),
seccut = cms.double(6.0),
smoothing = cms.bool(False),
weightthreshold = cms.double(0.001)
),
vertexSelection = cms.PSet(
sortCriterium = cms.string('dist3dError')
)
)
process.hltInclusiveSecondaryVertices = cms.EDProducer("VertexMerger",
maxFraction = cms.double(0.7),
minSignificance = cms.double(2.0),
secondaryVertices = cms.InputTag("hltInclusiveVertexFinder")
)
process.hltInclusiveSecondaryVerticesROIForBTag = cms.EDProducer("VertexMerger",
maxFraction = cms.double(0.7),
minSignificance = cms.double(2.0),
secondaryVertices = cms.InputTag("hltInclusiveVertexFinderROIForBTag")
)
process.hltInclusiveVertexFinder = cms.EDProducer("InclusiveVertexFinder",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterizer = cms.PSet(
clusterMaxDistance = cms.double(0.05),
clusterMaxSignificance = cms.double(4.5),
clusterMinAngleCosine = cms.double(0.5),
distanceRatio = cms.double(20.0),
seedMax3DIPSignificance = cms.double(9999.0),
seedMax3DIPValue = cms.double(9999.0),
seedMin3DIPSignificance = cms.double(1.2),
seedMin3DIPValue = cms.double(0.005)
),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxNTracks = cms.uint32(30),
maximumLongitudinalImpactParameter = cms.double(0.3),
maximumTimeSignificance = cms.double(3.0),
minHits = cms.uint32(8),
minPt = cms.double(0.8),
primaryVertices = cms.InputTag("hltVerticesL3"),
tracks = cms.InputTag("hltMergedTracksForBTag"),
useDirectVertexFitter = cms.bool(True),
useVertexReco = cms.bool(True),
vertexMinAngleCosine = cms.double(0.95),
vertexMinDLen2DSig = cms.double(2.5),
vertexMinDLenSig = cms.double(0.5),
vertexReco = cms.PSet(
finder = cms.string('avr'),
primcut = cms.double(1.0),
seccut = cms.double(3.0),
smoothing = cms.bool(True)
)
)
process.hltInclusiveVertexFinderROIForBTag = cms.EDProducer("InclusiveVertexFinder",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterizer = cms.PSet(
clusterMaxDistance = cms.double(0.05),
clusterMaxSignificance = cms.double(4.5),
clusterMinAngleCosine = cms.double(0.5),
distanceRatio = cms.double(20.0),
seedMax3DIPSignificance = cms.double(9999.0),
seedMax3DIPValue = cms.double(9999.0),
seedMin3DIPSignificance = cms.double(1.2),
seedMin3DIPValue = cms.double(0.005)
),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxNTracks = cms.uint32(30),
maximumLongitudinalImpactParameter = cms.double(0.3),
maximumTimeSignificance = cms.double(3.0),
minHits = cms.uint32(8),
minPt = cms.double(0.8),
primaryVertices = cms.InputTag("hltVerticesL3FilterROIForBTag"),
tracks = cms.InputTag("hltMergedTracksROIForBTag"),
useDirectVertexFitter = cms.bool(True),
useVertexReco = cms.bool(True),
vertexMinAngleCosine = cms.double(0.95),
vertexMinDLen2DSig = cms.double(2.5),
vertexMinDLenSig = cms.double(0.5),
vertexReco = cms.PSet(
finder = cms.string('avr'),
primcut = cms.double(1.0),
seccut = cms.double(3.0),
smoothing = cms.bool(True)
)
)
process.hltIslandBasicClustersHI = cms.EDProducer("IslandClusterProducer",
IslandBarrelSeedThr = cms.double(0.5),
IslandEndcapSeedThr = cms.double(0.18),
RecHitFlagToBeExcludedEB = cms.vstring(
'kWeird',
'kDiWeird',
'kOutOfTime',
'kTowerRecovered'
),
RecHitFlagToBeExcludedEE = cms.vstring(
'kWeird',
'kDiWeird',
'kOutOfTime',
'kTowerRecovered'
),
SeedRecHitFlagToBeExcludedEB = cms.vstring(
'kFaultyHardware',
'kTowerRecovered',
'kDead'
),
SeedRecHitFlagToBeExcludedEE = cms.vstring(
'kFaultyHardware',
'kNeighboursRecovered',
'kTowerRecovered',
'kDead',
'kWeird'
),
VerbosityLevel = cms.string('ERROR'),
barrelClusterCollection = cms.string('islandBarrelBasicClustersHI'),
barrelHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
barrelShapeAssociation = cms.string('islandBarrelShapeAssoc'),
clustershapecollectionEB = cms.string('islandBarrelShape'),
clustershapecollectionEE = cms.string('islandEndcapShape'),
endcapClusterCollection = cms.string('islandEndcapBasicClustersHI'),
endcapHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
endcapShapeAssociation = cms.string('islandEndcapShapeAssoc'),
posCalcParameters = cms.PSet(
LogWeighted = cms.bool(True),
T0_barl = cms.double(7.4),
T0_endc = cms.double(3.1),
T0_endcPresh = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89)
)
)
process.hltIsolEcalPixelTrackProdHB = cms.EDProducer("IsolatedEcalPixelTrackCandidateProducer",
EBHitCountEnergyThreshold = cms.double(0.5),
EBHitEnergyThreshold = cms.double(0.1),
EBRecHitSource = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EEFacHitCountEnergyThreshold = cms.double(10.0),
EEHitEnergyThreshold0 = cms.double(-41.0664),
EEHitEnergyThreshold1 = cms.double(68.795),
EEHitEnergyThreshold2 = cms.double(-38.143),
EEHitEnergyThreshold3 = cms.double(7.043),
EERecHitSource = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
EcalConeSizeEta0 = cms.double(0.09),
EcalConeSizeEta1 = cms.double(0.14),
filterLabel = cms.InputTag("hltIsolPixelTrackL2FilterHB")
)
process.hltIsolEcalPixelTrackProdHE = cms.EDProducer("IsolatedEcalPixelTrackCandidateProducer",
EBHitCountEnergyThreshold = cms.double(0.5),
EBHitEnergyThreshold = cms.double(0.1),
EBRecHitSource = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EEFacHitCountEnergyThreshold = cms.double(10.0),
EEHitEnergyThreshold0 = cms.double(-41.0664),
EEHitEnergyThreshold1 = cms.double(68.795),
EEHitEnergyThreshold2 = cms.double(-38.143),
EEHitEnergyThreshold3 = cms.double(7.043),
EERecHitSource = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
EcalConeSizeEta0 = cms.double(0.09),
EcalConeSizeEta1 = cms.double(0.14),
filterLabel = cms.InputTag("hltIsolPixelTrackL2FilterHE")
)
process.hltIsolPixelTrackProdHB = cms.EDProducer("IsolatedPixelTrackCandidateL1TProducer",
EBEtaBoundary = cms.double(1.479),
ExtrapolationConeSize = cms.double(1.0),
L1GTSeedLabel = cms.InputTag("hltL1sV0SingleJet3OR"),
L1eTauJetsSource = cms.InputTag("hltGtStage2Digis","Tau"),
MagFieldRecordName = cms.string('VolumeBasedMagneticField'),
MaxVtxDXYIsol = cms.double(101.0),
MaxVtxDXYSeed = cms.double(101.0),
PixelIsolationConeSizeAtEC = cms.double(40.0),
PixelTracksSources = cms.VInputTag("hltPixelTracksQuadruplets"),
VertexLabel = cms.InputTag("hltTrimmedPixelVertices"),
maxPTrackForIsolation = cms.double(3.0),
minPTrack = cms.double(5.0),
tauAssociationCone = cms.double(0.0),
tauUnbiasCone = cms.double(1.2)
)
process.hltIsolPixelTrackProdHE = cms.EDProducer("IsolatedPixelTrackCandidateL1TProducer",
EBEtaBoundary = cms.double(1.479),
ExtrapolationConeSize = cms.double(1.0),
L1GTSeedLabel = cms.InputTag("hltL1sV0SingleJet3OR"),
L1eTauJetsSource = cms.InputTag("hltGtStage2Digis","Tau"),
MagFieldRecordName = cms.string('VolumeBasedMagneticField'),
MaxVtxDXYIsol = cms.double(101.0),
MaxVtxDXYSeed = cms.double(101.0),
PixelIsolationConeSizeAtEC = cms.double(40.0),
PixelTracksSources = cms.VInputTag("hltPixelTracksQuadruplets"),
VertexLabel = cms.InputTag("hltTrimmedPixelVertices"),
maxPTrackForIsolation = cms.double(3.0),
minPTrack = cms.double(5.0),
tauAssociationCone = cms.double(0.0),
tauUnbiasCone = cms.double(1.2)
)
process.hltIter02DisplacedHLTCaloJetCollectionProducerLowPt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltL4PromptDisplacedDijetFullTracksHLTCaloJetTagFilterLowPt"),
TriggerTypes = cms.vint32(85)
)
process.hltIter02DisplacedHLTCaloJetCollectionProducerMidPt = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltL4PromptDisplacedDijetFullTracksHLTCaloJetTagFilterMidPt"),
TriggerTypes = cms.vint32(85)
)
process.hltIter0DisplacedJpsiCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0DisplacedJpsiPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0DisplacedJpsiCkfTrackCandidatesDoubleTrk = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0DisplacedJpsiPixelSeedsFromPixelTracksDoubleTrk"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0DisplacedJpsiCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0DisplacedJpsiCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0DisplacedJpsiCtfWithMaterialTracksDoubleTrk = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0DisplacedJpsiCkfTrackCandidatesDoubleTrk"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0DisplacedJpsiPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsJpsi"),
InputVertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0DisplacedJpsiPixelSeedsFromPixelTracksDoubleTrk = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsJpsiDoubleTrk"),
InputVertexCollection = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0DisplacedJpsiTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0DisplacedJpsiCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi")
)
process.hltIter0DisplacedJpsiTrackCutClassifierDoubleTrk = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0DisplacedJpsiCtfWithMaterialTracksDoubleTrk"),
vertices = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi")
)
process.hltIter0DisplacedJpsiTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0DisplacedJpsiTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0DisplacedJpsiTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0DisplacedJpsiCtfWithMaterialTracks")
)
process.hltIter0DisplacedJpsiTrackSelectionHighPurityDoubleTrk = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0DisplacedJpsiTrackCutClassifierDoubleTrk","MVAValues"),
originalQualVals = cms.InputTag("hltIter0DisplacedJpsiTrackCutClassifierDoubleTrk","QualityMasks"),
originalSource = cms.InputTag("hltIter0DisplacedJpsiCtfWithMaterialTracksDoubleTrk")
)
process.hltIter0DisplacedNRCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0DisplacedNRPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0DisplacedNRCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0DisplacedNRCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0DisplacedNRPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsNR"),
InputVertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0DisplacedNRTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0DisplacedNRCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant")
)
process.hltIter0DisplacedNRTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0DisplacedNRTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0DisplacedNRTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0DisplacedNRCtfWithMaterialTracks")
)
process.hltIter0DisplacedPsiPrimeCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0DisplacedPsiPrimePixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0DisplacedPsiPrimeCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0DisplacedPsiPrimeCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0DisplacedPsiPrimePixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsPsiPrime"),
InputVertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0DisplacedPsiPrimeTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0DisplacedPsiPrimeCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime")
)
process.hltIter0DisplacedPsiPrimeTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0DisplacedPsiPrimeTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0DisplacedPsiPrimeTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0DisplacedPsiPrimeCtfWithMaterialTracks")
)
process.hltIter0DisplacedTau3muCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0DisplacedTau3muPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0DisplacedTau3muCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0DisplacedTau3muCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0DisplacedTau3muNoL1MassCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0DisplacedTau3muNoL1MassPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0DisplacedTau3muNoL1MassCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0DisplacedTau3muNoL1MassCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0DisplacedTau3muNoL1MassPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsTau3muNoL1Mass"),
InputVertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0DisplacedTau3muNoL1MassTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0DisplacedTau3muNoL1MassCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass")
)
process.hltIter0DisplacedTau3muNoL1MassTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0DisplacedTau3muNoL1MassTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0DisplacedTau3muNoL1MassTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0DisplacedTau3muNoL1MassCtfWithMaterialTracks")
)
process.hltIter0DisplacedTau3muPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsTau3mu"),
InputVertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0DisplacedTau3muTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0DisplacedTau3muCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu")
)
process.hltIter0DisplacedTau3muTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0DisplacedTau3muTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0DisplacedTau3muTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0DisplacedTau3muCtfWithMaterialTracks")
)
process.hltIter0HighPtTkMuCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0HighPtTkMuPSetTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0HighPtTkMuPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0HighPtTkMuCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0HighPtTkMuCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0HighPtTkMuPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIter0HighPtTkMuPixelTracks"),
InputVertexCollection = cms.InputTag("notUsed"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0HighPtTkMuPixelTracks = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIter0HighPtTkMuPixelTracksFilter"),
Fitter = cms.InputTag("hltIter0HighPtTkMuPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIter0HighPtTkMuPixelTracksHitTriplets"),
passLabel = cms.string('')
)
process.hltIter0HighPtTkMuPixelTracksFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltIter0HighPtTkMuPixelTracksFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltIter0HighPtTkMuPixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter0HighPtTkMuPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter0HighPtTkMuPixelTracksHitTriplets = cms.EDProducer("PixelTripletHLTEDProducer",
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter0HighPtTkMuPixelTracksHitDoublets"),
extraHitRPhitolerance = cms.double(0.06),
extraHitRZtolerance = cms.double(0.06),
maxElement = cms.uint32(100000),
phiPreFiltering = cms.double(0.3),
produceIntermediateHitTriplets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
useBending = cms.bool(True),
useFixedPreFiltering = cms.bool(False),
useMultScattering = cms.bool(True)
)
process.hltIter0HighPtTkMuPixelTracksTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.35),
deltaPhi = cms.double(0.2),
input = cms.InputTag("hltL1MuonsPt15"),
maxNRegions = cms.int32(2),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(10.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIter0HighPtTkMuTrackSelectionHighPurity = cms.EDProducer("AnalyticalTrackSelector",
applyAbsCutsIfNoPV = cms.bool(False),
applyAdaptedPVCuts = cms.bool(True),
beamspot = cms.InputTag("hltOnlineBeamSpot"),
chi2n_no1Dmod_par = cms.double(9999.0),
chi2n_par = cms.double(0.7),
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
d0_par1 = cms.vdouble(0.3, 4.0),
d0_par2 = cms.vdouble(0.4, 4.0),
dz_par1 = cms.vdouble(0.35, 4.0),
dz_par2 = cms.vdouble(0.4, 4.0),
keepAllTracks = cms.bool(False),
maxNumberLostLayers = cms.uint32(1),
max_d0 = cms.double(100.0),
max_d0NoPV = cms.double(100.0),
max_eta = cms.double(9999.0),
max_lostHitFraction = cms.double(1.0),
max_minMissHitOutOrIn = cms.int32(99),
max_relpterr = cms.double(9999.0),
max_z0 = cms.double(100.0),
max_z0NoPV = cms.double(100.0),
minHitsToBypassChecks = cms.uint32(20),
minNumber3DLayers = cms.uint32(0),
minNumberLayers = cms.uint32(3),
min_eta = cms.double(-9999.0),
min_nhits = cms.uint32(0),
nSigmaZ = cms.double(3.0),
qualityBit = cms.string('highPurity'),
res_par = cms.vdouble(0.003, 0.001),
src = cms.InputTag("hltIter0HighPtTkMuCtfWithMaterialTracks"),
useVertices = cms.bool(False),
useVtxError = cms.bool(False),
vertexCut = cms.string('tracksSize>=3'),
vertices = cms.InputTag("notUsed"),
vtxNumber = cms.int32(-1)
)
process.hltIter0IterL3FromL1MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('none'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksFiltered","","@currentProcess"),
useHitsSplitting = cms.bool(True)
)
process.hltIter0IterL3FromL1MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('none'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksNoVtx"),
useHitsSplitting = cms.bool(True)
)
process.hltIter0IterL3FromL1MuonCkfTrackCandidatesOpenMu = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('none'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksOpenMu"),
useHitsSplitting = cms.bool(True)
)
process.hltIter0IterL3FromL1MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0IterL3FromL1MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0IterL3FromL1MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0IterL3FromL1MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0IterL3FromL1MuonCtfWithMaterialTracksOpenMu = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0IterL3FromL1MuonCkfTrackCandidatesOpenMu"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksInRegionL1"),
InputVertexCollection = cms.InputTag(""),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(True),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksFiltered = cms.EDProducer("MuonHLTSeedMVAClassifier",
L1Muon = cms.InputTag("hltGtStage2Digis","Muon","@currentProcess"),
L2Muon = cms.InputTag("hltL2MuonCandidates","","@currentProcess"),
doSort = cms.bool(False),
isFromL1 = cms.bool(True),
mvaCutB = cms.double(0.01),
mvaCutE = cms.double(0.01),
mvaFileBL1 = cms.FileInPath('RecoMuon/TrackerSeedGenerator/data/xgb_Run3_Iter0FromL1_PatatrackSeeds_barrel.xml'),
mvaFileEL1 = cms.FileInPath('RecoMuon/TrackerSeedGenerator/data/xgb_Run3_Iter0FromL1_PatatrackSeeds_endcap.xml'),
mvaScaleMeanBL1 = cms.vdouble(
0.0004214781815681771, 3.360505747302015e-06, 4.15831683453492e-06, -7.293549992764884e-06, 0.0026733302821640333,
8.258655025165343e-05, 0.1733231169560327, -0.0008436303495374132
),
mvaScaleMeanEL1 = cms.vdouble(
0.00030490245950421703, 3.514139805357674e-06, 1.1588085726372481e-05, -0.002082770502181486, -0.012255855626510577,
0.00017767920083448652, 0.1622857904572482, -0.001541414411989317
),
mvaScaleStdBL1 = cms.vdouble(
0.0007786197918064968, 5.168098520138424e-06, 9.984499717341342e-06, 0.06764505886786884, 0.8326471076703088,
0.5638810426892787, 0.16249859052933951, 0.18194434665525921
),
mvaScaleStdEL1 = cms.vdouble(
0.0005428218101050213, 8.256299263392501e-06, 4.2312277443701996e-05, 0.304152745761674, 1.1504074055443732,
0.2781396277921045, 0.1623565364355608, 0.17765934440882003
),
nSeedsMaxB = cms.int32(99999),
nSeedsMaxE = cms.int32(99999),
rejectAll = cms.bool(False),
src = cms.InputTag("hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracks","","@currentProcess")
)
process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksNoVtx = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIterL3FromL1MuonPixelTracksNoVtx"),
InputVertexCollection = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVerticesNoVtx"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksOpenMu = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIterL3FromL1MuonPixelTracksOpenMu"),
InputVertexCollection = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVerticesOpenMu"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0IterL3FromL1MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0IterL3FromL1MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter0IterL3FromL1MuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0IterL3FromL1MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVerticesNoVtx")
)
process.hltIter0IterL3FromL1MuonTrackCutClassifierOpenMu = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0IterL3FromL1MuonCtfWithMaterialTracksOpenMu"),
vertices = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVerticesOpenMu")
)
process.hltIter0IterL3FromL1MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0IterL3FromL1MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0IterL3FromL1MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0IterL3FromL1MuonCtfWithMaterialTracks")
)
process.hltIter0IterL3FromL1MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0IterL3FromL1MuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter0IterL3FromL1MuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter0IterL3FromL1MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter0IterL3FromL1MuonTrackSelectionHighPurityOpenMu = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0IterL3FromL1MuonTrackCutClassifierOpenMu","MVAValues"),
originalQualVals = cms.InputTag("hltIter0IterL3FromL1MuonTrackCutClassifierOpenMu","QualityMasks"),
originalSource = cms.InputTag("hltIter0IterL3FromL1MuonCtfWithMaterialTracksOpenMu")
)
process.hltIter0IterL3MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('none'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0IterL3MuonPixelSeedsFromPixelTracksFiltered","","@currentProcess"),
useHitsSplitting = cms.bool(True)
)
process.hltIter0IterL3MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('none'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0IterL3MuonPixelSeedsFromPixelTracksNoVtx"),
useHitsSplitting = cms.bool(True)
)
process.hltIter0IterL3MuonCkfTrackCandidatesOpenMu = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('none'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(True),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0IterL3MuonPixelSeedsFromPixelTracksOpenMu"),
useHitsSplitting = cms.bool(True)
)
process.hltIter0IterL3MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0IterL3MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0IterL3MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0IterL3MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0IterL3MuonCtfWithMaterialTracksOpenMu = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0IterL3MuonCkfTrackCandidatesOpenMu"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0IterL3MuonPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksInRegionL2"),
InputVertexCollection = cms.InputTag(""),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(True),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0IterL3MuonPixelSeedsFromPixelTracksFiltered = cms.EDProducer("MuonHLTSeedMVAClassifier",
L1Muon = cms.InputTag("hltGtStage2Digis","Muon","@currentProcess"),
L2Muon = cms.InputTag("hltL2MuonCandidates","","@currentProcess"),
doSort = cms.bool(False),
isFromL1 = cms.bool(False),
mvaCutB = cms.double(0.01),
mvaCutE = cms.double(0.01),
mvaFileBL2 = cms.FileInPath('RecoMuon/TrackerSeedGenerator/data/xgb_Run3_Iter0_PatatrackSeeds_barrel.xml'),
mvaFileEL2 = cms.FileInPath('RecoMuon/TrackerSeedGenerator/data/xgb_Run3_Iter0_PatatrackSeeds_endcap.xml'),
mvaScaleMeanBL2 = cms.vdouble(
0.00042884479962065187, 3.772083104999885e-06, 5.300022656453861e-06, 2.5077610112245312e-05, 0.0034616689505019382,
0.0004121345635792129, 0.1352507679561559, -0.004480938630096979, 0.11626145040696857, 4.635219933581827e-05
),
mvaScaleMeanEL2 = cms.vdouble(
0.00029897265216410315, 3.1708794114771116e-06, 9.050257587075377e-06, -0.002312018015904962, -0.009877256828156562,
0.0004303725465872019, 0.13074758074682866, -0.004055794655400538, 0.10318864035434137, 0.00021757349991696051
),
mvaScaleStdBL2 = cms.vdouble(
0.0007318908429033794, 5.827018384147162e-06, 1.2085084898941207e-05, 0.07624587006197828, 0.8155696410418133,
0.6478932010793209, 0.1421792683416009, 0.16980279474291526, 0.12585584919288126, 0.14989583080542496
),
mvaScaleStdEL2 = cms.vdouble(
0.0004947818485237569, 7.953135285893556e-06, 3.3192587975249994e-05, 0.31885231318501644, 1.008873939686366,
0.2898495952655818, 0.17898407961365892, 0.17769783882584222, 0.11348778906206888, 0.1294407027684069
),
nSeedsMaxB = cms.int32(99999),
nSeedsMaxE = cms.int32(99999),
rejectAll = cms.bool(False),
src = cms.InputTag("hltIter0IterL3MuonPixelSeedsFromPixelTracks","","@currentProcess")
)
process.hltIter0IterL3MuonPixelSeedsFromPixelTracksNoVtx = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIterL3MuonPixelTracksNoVtx"),
InputVertexCollection = cms.InputTag("hltIterL3MuonTrimmedPixelVerticesNoVtx"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0IterL3MuonPixelSeedsFromPixelTracksOpenMu = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIterL3MuonPixelTracksOpenMu"),
InputVertexCollection = cms.InputTag("hltIterL3MuonTrimmedPixelVerticesOpenMu"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0IterL3MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0IterL3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter0IterL3MuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0IterL3MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltIterL3MuonTrimmedPixelVerticesNoVtx")
)
process.hltIter0IterL3MuonTrackCutClassifierOpenMu = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0IterL3MuonCtfWithMaterialTracksOpenMu"),
vertices = cms.InputTag("hltIterL3MuonTrimmedPixelVerticesOpenMu")
)
process.hltIter0IterL3MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0IterL3MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0IterL3MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0IterL3MuonCtfWithMaterialTracks")
)
process.hltIter0IterL3MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0IterL3MuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter0IterL3MuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter0IterL3MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter0IterL3MuonTrackSelectionHighPurityOpenMu = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0IterL3MuonTrackCutClassifierOpenMu","MVAValues"),
originalQualVals = cms.InputTag("hltIter0IterL3MuonTrackCutClassifierOpenMu","QualityMasks"),
originalSource = cms.InputTag("hltIter0IterL3MuonCtfWithMaterialTracksOpenMu")
)
process.hltIter0L3MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0L3MuonPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0L3MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0L3MuonPixelSeedsFromPixelTracksNoVtx"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0L3MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0L3MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0L3MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0L3MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0L3MuonPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksInRegionIter0L3Muon"),
InputVertexCollection = cms.InputTag("hltPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0L3MuonPixelSeedsFromPixelTracksNoVtx = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForSeedsL3MuonNoVtx"),
InputVertexCollection = cms.InputTag("hltPixelVerticesL3MuonNoVtx"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.2),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0L3MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0L3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltPixelVertices")
)
process.hltIter0L3MuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0L3MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltPixelVerticesL3MuonNoVtx")
)
process.hltIter0L3MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0L3MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0L3MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0L3MuonCtfWithMaterialTracks")
)
process.hltIter0L3MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0L3MuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter0L3MuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter0L3MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter0PFLowPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracks"),
InputVertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(True),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltFastPVPixelTracksMerger"),
InputVertexCollection = cms.InputTag("hltFastPVPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(True),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0PFLowPixelSeedsFromPixelTracksROIForBTag = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksForBTag"),
InputVertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(True),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0PFLowPixelSeedsFromPixelTracksTauReg = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracksMergedRegL1TauSeeded"),
InputVertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter0PFlowCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0PFLowPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0PFlowCkfTrackCandidatesForBTag = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClustersRegForBTag"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0PFLowPixelSeedsFromPixelTracksForBTag"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0PFlowCkfTrackCandidatesROIForBTag = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0PFLowPixelSeedsFromPixelTracksROIForBTag"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0PFlowCkfTrackCandidatesTauReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter0GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter0PFLowPixelSeedsFromPixelTracksTauReg"),
useHitsSplitting = cms.bool(False)
)
process.hltIter0PFlowCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0PFlowCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0PFlowCtfWithMaterialTracksForBTag = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClustersRegForBTag"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0PFlowCkfTrackCandidatesForBTag"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0PFlowCtfWithMaterialTracksROIForBTag = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter0'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0PFlowCkfTrackCandidatesROIForBTag"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0PFlowCtfWithMaterialTracksTauReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracksReg'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter0PFlowCkfTrackCandidatesTauReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter0PFlowTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.8, 0.8),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.6, 0.6)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.75, 0.75),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.5, 0.5)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0PFlowCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter0PFlowTrackCutClassifierForBTag = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0PFlowCtfWithMaterialTracksForBTag"),
vertices = cms.InputTag("hltFastPVPixelVertices")
)
process.hltIter0PFlowTrackCutClassifierROIForBTag = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.8, 0.8),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.6, 0.6)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.75, 0.75),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.5, 0.5)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0PFlowCtfWithMaterialTracksROIForBTag"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter0PFlowTrackCutClassifierTauReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(0.4, 0.4, 0.4),
dr_par2 = cms.vdouble(0.3, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(0.4, 0.4, 0.4),
dz_par2 = cms.vdouble(0.35, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 3, 4),
minLayers = cms.vint32(3, 3, 4),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 3, 4)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter0PFlowCtfWithMaterialTracksTauReg"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter0PFlowTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0PFlowTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0PFlowTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0PFlowCtfWithMaterialTracks")
)
process.hltIter0PFlowTrackSelectionHighPurityForBTag = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0PFlowTrackCutClassifierForBTag","MVAValues"),
originalQualVals = cms.InputTag("hltIter0PFlowTrackCutClassifierForBTag","QualityMasks"),
originalSource = cms.InputTag("hltIter0PFlowCtfWithMaterialTracksForBTag")
)
process.hltIter0PFlowTrackSelectionHighPurityTauReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0PFlowTrackCutClassifierTauReg","MVAValues"),
originalQualVals = cms.InputTag("hltIter0PFlowTrackCutClassifierTauReg","QualityMasks"),
originalSource = cms.InputTag("hltIter0PFlowCtfWithMaterialTracksTauReg")
)
process.hltIter0TrackAndTauJets4Iter1TauReg = cms.EDProducer("TauJetSelectorForHLTTrackSeeding",
etaMaxCaloJet = cms.double(2.7),
etaMinCaloJet = cms.double(-2.7),
fractionMaxChargedPUInCaloCone = cms.double(0.3),
fractionMinCaloInTauCone = cms.double(0.7),
inputCaloJetTag = cms.InputTag("hltL2TausForPixelIsolationL1TauSeeded"),
inputTrackJetTag = cms.InputTag("hltAK4Iter0TrackJets4Iter1TauReg"),
inputTrackTag = cms.InputTag("hltIter0PFlowTrackSelectionHighPurityTauReg"),
isolationConeSize = cms.double(0.5),
nTrkMaxInCaloCone = cms.int32(0),
ptMinCaloJet = cms.double(5.0),
ptTrkMaxInCaloCone = cms.double(1.0),
tauConeSize = cms.double(0.2)
)
process.hltIter1ClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltMergedTracks")
)
process.hltIter1ClustersRefRemovalForBTag = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClustersRegForBTag"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0PFlowTrackSelectionHighPurityForBTag")
)
process.hltIter1ClustersRefRemovalTauReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0PFlowTrackSelectionHighPurityTauReg")
)
process.hltIter1DisplacedJpsiCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedJpsiMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1DisplacedJpsiPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1DisplacedJpsiCkfTrackCandidatesDoubleTrk = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1DisplacedJpsiPixelSeedsDoubleTrk"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1DisplacedJpsiClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0DisplacedJpsiTrackSelectionHighPurity")
)
process.hltIter1DisplacedJpsiClustersRefRemovalDoubleTrk = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0DisplacedJpsiTrackSelectionHighPurityDoubleTrk")
)
process.hltIter1DisplacedJpsiCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedJpsiMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1DisplacedJpsiCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1DisplacedJpsiCtfWithMaterialTracksDoubleTrk = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1DisplacedJpsiCkfTrackCandidatesDoubleTrk"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1DisplacedJpsiMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemovalDoubleTrk"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1DisplacedJpsiMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0DisplacedJpsiTrackSelectionHighPurity", "hltIter1DisplacedJpsiTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0DisplacedJpsiTrackSelectionHighPurity", "hltIter1DisplacedJpsiTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1DisplacedJpsiMergedDoubleTrk = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0DisplacedJpsiTrackSelectionHighPurityDoubleTrk", "hltIter1DisplacedJpsiTrackSelectionHighPurityDoubleTrk"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0DisplacedJpsiTrackSelectionHighPurityDoubleTrk", "hltIter1DisplacedJpsiTrackSelectionHighPurityDoubleTrk"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1DisplacedJpsiPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1DisplacedJpsiPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1DisplacedJpsiPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1DisplacedJpsiPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1DisplacedJpsiPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1DisplacedJpsiPixelHitDoubletsDoubleTrk = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1DisplacedJpsiPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1DisplacedJpsiPixelLayerQuadrupletsDoubleTrk"),
trackingRegions = cms.InputTag("hltIter1DisplacedJpsiPixelTrackingRegionsDoubleTrk"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1DisplacedJpsiPixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1DisplacedJpsiPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1DisplacedJpsiPixelHitQuadrupletsDoubleTrk = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1DisplacedJpsiPixelHitDoubletsDoubleTrk"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1DisplacedJpsiPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1DisplacedJpsiPixelLayerQuadrupletsDoubleTrk = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemovalDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemovalDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1DisplacedJpsiPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1DisplacedJpsiPixelHitQuadruplets")
)
process.hltIter1DisplacedJpsiPixelSeedsDoubleTrk = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1DisplacedJpsiPixelHitQuadrupletsDoubleTrk")
)
process.hltIter1DisplacedJpsiPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1DisplacedJpsiMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1DisplacedJpsiPixelTrackingRegionsDoubleTrk = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1DisplacedJpsiTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedJpsiCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi")
)
process.hltIter1DisplacedJpsiTrackCutClassifierDetachedDoubleTrk = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedJpsiCtfWithMaterialTracksDoubleTrk"),
vertices = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi")
)
process.hltIter1DisplacedJpsiTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1DisplacedJpsiTrackCutClassifierPrompt',
'hltIter1DisplacedJpsiTrackCutClassifierDetached'
)
)
process.hltIter1DisplacedJpsiTrackCutClassifierMergedDoubleTrk = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1DisplacedJpsiTrackCutClassifierPromptDoubleTrk',
'hltIter1DisplacedJpsiTrackCutClassifierDetachedDoubleTrk'
)
)
process.hltIter1DisplacedJpsiTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedJpsiCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi")
)
process.hltIter1DisplacedJpsiTrackCutClassifierPromptDoubleTrk = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedJpsiCtfWithMaterialTracksDoubleTrk"),
vertices = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi")
)
process.hltIter1DisplacedJpsiTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1DisplacedJpsiTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1DisplacedJpsiTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1DisplacedJpsiCtfWithMaterialTracks")
)
process.hltIter1DisplacedJpsiTrackSelectionHighPurityDoubleTrk = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1DisplacedJpsiTrackCutClassifierMergedDoubleTrk","MVAValues"),
originalQualVals = cms.InputTag("hltIter1DisplacedJpsiTrackCutClassifierMergedDoubleTrk","QualityMasks"),
originalSource = cms.InputTag("hltIter1DisplacedJpsiCtfWithMaterialTracksDoubleTrk")
)
process.hltIter1DisplacedNRCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedNRMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1DisplacedNRPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1DisplacedNRClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0DisplacedNRTrackSelectionHighPurity")
)
process.hltIter1DisplacedNRCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedNRMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1DisplacedNRCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1DisplacedNRMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1DisplacedNRClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1DisplacedNRMuMuMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0DisplacedNRTrackSelectionHighPurity", "hltIter1DisplacedNRTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0DisplacedNRTrackSelectionHighPurity", "hltIter1DisplacedNRTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1DisplacedNRPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1DisplacedNRPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1DisplacedNRPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1DisplacedNRPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1DisplacedNRPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1DisplacedNRPixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1DisplacedNRPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1DisplacedNRPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1DisplacedNRClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1DisplacedNRClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1DisplacedNRPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1DisplacedNRPixelHitQuadruplets")
)
process.hltIter1DisplacedNRPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1DisplacedNRMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1DisplacedNRTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedNRCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant")
)
process.hltIter1DisplacedNRTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1DisplacedNRTrackCutClassifierPrompt',
'hltIter1DisplacedNRTrackCutClassifierDetached'
)
)
process.hltIter1DisplacedNRTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedNRCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant")
)
process.hltIter1DisplacedNRTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1DisplacedNRTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1DisplacedNRTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1DisplacedNRCtfWithMaterialTracks")
)
process.hltIter1DisplacedPsiPrimeCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedPsiPrimeMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1DisplacedPsiPrimePixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1DisplacedPsiPrimeClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0DisplacedPsiPrimeTrackSelectionHighPurity")
)
process.hltIter1DisplacedPsiPrimeCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedPsiPrimeMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1DisplacedPsiPrimeCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1DisplacedPsiPrimeMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1DisplacedPsiPrimeClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1DisplacedPsiPrimeMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0DisplacedPsiPrimeTrackSelectionHighPurity", "hltIter1DisplacedPsiPrimeTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0DisplacedPsiPrimeTrackSelectionHighPurity", "hltIter1DisplacedPsiPrimeTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1DisplacedPsiPrimePixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1DisplacedPsiPrimePixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1DisplacedPsiPrimePixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1DisplacedPsiPrimePixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1DisplacedPsiPrimePixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1DisplacedPsiPrimePixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1DisplacedPsiPrimePixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1DisplacedPsiPrimePixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1DisplacedPsiPrimeClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1DisplacedPsiPrimeClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1DisplacedPsiPrimePixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1DisplacedPsiPrimePixelHitQuadruplets")
)
process.hltIter1DisplacedPsiPrimePixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1DisplacedPsiPrimeMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1DisplacedPsiPrimeTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedPsiPrimeCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime")
)
process.hltIter1DisplacedPsiPrimeTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1DisplacedPsiPrimeTrackCutClassifierPrompt',
'hltIter1DisplacedPsiPrimeTrackCutClassifierDetached'
)
)
process.hltIter1DisplacedPsiPrimeTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedPsiPrimeCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime")
)
process.hltIter1DisplacedPsiPrimeTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1DisplacedPsiPrimeTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1DisplacedPsiPrimeTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1DisplacedPsiPrimeCtfWithMaterialTracks")
)
process.hltIter1DisplacedTau3muCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedTau3muMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1DisplacedTau3muPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1DisplacedTau3muClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0DisplacedTau3muTrackSelectionHighPurity")
)
process.hltIter1DisplacedTau3muCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedTau3muMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1DisplacedTau3muCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1DisplacedTau3muMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1DisplacedTau3muClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1DisplacedTau3muMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0DisplacedTau3muTrackSelectionHighPurity", "hltIter1DisplacedTau3muTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0DisplacedTau3muTrackSelectionHighPurity", "hltIter1DisplacedTau3muTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1DisplacedTau3muNoL1MassCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1DisplacedTau3muNoL1MassPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1DisplacedTau3muNoL1MassClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0DisplacedTau3muNoL1MassTrackSelectionHighPurity")
)
process.hltIter1DisplacedTau3muNoL1MassCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1DisplacedTau3muNoL1MassCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1DisplacedTau3muNoL1MassClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1DisplacedTau3muNoL1MassMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0DisplacedTau3muNoL1MassTrackSelectionHighPurity", "hltIter1DisplacedTau3muNoL1MassTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0DisplacedTau3muNoL1MassTrackSelectionHighPurity", "hltIter1DisplacedTau3muNoL1MassTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1DisplacedTau3muNoL1MassPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1DisplacedTau3muNoL1MassPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1DisplacedTau3muNoL1MassPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1DisplacedTau3muNoL1MassPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1DisplacedTau3muNoL1MassPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1DisplacedTau3muNoL1MassPixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1DisplacedTau3muNoL1MassPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1DisplacedTau3muNoL1MassPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1DisplacedTau3muNoL1MassClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1DisplacedTau3muNoL1MassClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1DisplacedTau3muNoL1MassPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1DisplacedTau3muNoL1MassPixelHitQuadruplets")
)
process.hltIter1DisplacedTau3muNoL1MassPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1DisplacedTau3muNoL1MassTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedTau3muNoL1MassCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass")
)
process.hltIter1DisplacedTau3muNoL1MassTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1DisplacedTau3muNoL1MassTrackCutClassifierPrompt',
'hltIter1DisplacedTau3muNoL1MassTrackCutClassifierDetached'
)
)
process.hltIter1DisplacedTau3muNoL1MassTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedTau3muNoL1MassCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass")
)
process.hltIter1DisplacedTau3muNoL1MassTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1DisplacedTau3muNoL1MassTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1DisplacedTau3muNoL1MassTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1DisplacedTau3muNoL1MassCtfWithMaterialTracks")
)
process.hltIter1DisplacedTau3muPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1DisplacedTau3muPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1DisplacedTau3muPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1DisplacedTau3muPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1DisplacedTau3muPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1DisplacedTau3muPixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1DisplacedTau3muPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1DisplacedTau3muPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1DisplacedTau3muClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1DisplacedTau3muClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1DisplacedTau3muPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1DisplacedTau3muPixelHitQuadruplets")
)
process.hltIter1DisplacedTau3muPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1DisplacedTau3muMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1DisplacedTau3muTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedTau3muCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu")
)
process.hltIter1DisplacedTau3muTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1DisplacedTau3muTrackCutClassifierPrompt',
'hltIter1DisplacedTau3muTrackCutClassifierDetached'
)
)
process.hltIter1DisplacedTau3muTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1DisplacedTau3muCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu")
)
process.hltIter1DisplacedTau3muTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1DisplacedTau3muTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1DisplacedTau3muTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1DisplacedTau3muCtfWithMaterialTracks")
)
process.hltIter1L3MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1L3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1L3MuonPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1L3MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1L3MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1L3MuonPixelSeedsNoVtx"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1L3MuonClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurity")
)
process.hltIter1L3MuonClustersRefRemovalNoVtx = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(9.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurityNoVtx")
)
process.hltIter1L3MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1L3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1L3MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1L3MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1L3MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1L3MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1L3MuonMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1L3MuonClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1L3MuonMaskedMeasurementTrackerEventNoVtx = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1L3MuonClustersRefRemovalNoVtx"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1L3MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0L3MuonTrackSelectionHighPurity", "hltIter1L3MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0L3MuonTrackSelectionHighPurity", "hltIter1L3MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1L3MuonMergedNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0L3MuonTrackSelectionHighPurityNoVtx", "hltIter1L3MuonTrackSelectionHighPurityNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0L3MuonTrackSelectionHighPurityNoVtx", "hltIter1L3MuonTrackSelectionHighPurityNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1L3MuonPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1L3MuonPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1L3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1L3MuonPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1L3MuonPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1L3MuonPixelHitDoubletsNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1L3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1L3MuonPixelLayerQuadrupletsNoVtx"),
trackingRegions = cms.InputTag("hltIter1L3MuonPixelTrackingRegionsNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1L3MuonPixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1L3MuonPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1L3MuonPixelHitQuadrupletsNoVtx = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1L3MuonPixelHitDoubletsNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1L3MuonPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1L3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1L3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1L3MuonPixelLayerQuadrupletsNoVtx = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1L3MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1L3MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1L3MuonPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1L3MuonPixelHitQuadruplets")
)
process.hltIter1L3MuonPixelSeedsNoVtx = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1L3MuonPixelHitQuadrupletsNoVtx")
)
process.hltIter1L3MuonPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.3),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1L3MuonMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltPixelVerticesL3Muon"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1L3MuonPixelTrackingRegionsNoVtx = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.3),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1L3MuonMaskedMeasurementTrackerEventNoVtx"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltPixelVerticesL3MuonNoVtx"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1L3MuonTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1L3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltPixelVerticesL3Muon")
)
process.hltIter1L3MuonTrackCutClassifierDetachedNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1L3MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltPixelVerticesL3MuonNoVtx")
)
process.hltIter1L3MuonTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1L3MuonTrackCutClassifierPrompt',
'hltIter1L3MuonTrackCutClassifierDetached'
)
)
process.hltIter1L3MuonTrackCutClassifierMergedNoVtx = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1L3MuonTrackCutClassifierPromptNoVtx',
'hltIter1L3MuonTrackCutClassifierDetachedNoVtx'
)
)
process.hltIter1L3MuonTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1L3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltPixelVerticesL3Muon")
)
process.hltIter1L3MuonTrackCutClassifierPromptNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1L3MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltPixelVerticesL3MuonNoVtx")
)
process.hltIter1L3MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1L3MuonTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1L3MuonTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1L3MuonCtfWithMaterialTracks")
)
process.hltIter1L3MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1L3MuonTrackCutClassifierMergedNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter1L3MuonTrackCutClassifierMergedNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter1L3MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter1MaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1ClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1MaskedMeasurementTrackerEventForBTag = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1ClustersRefRemovalForBTag"),
src = cms.InputTag("hltSiStripClustersRegForBTag")
)
process.hltIter1MaskedMeasurementTrackerEventTauReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter1ClustersRefRemovalTauReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter1Merged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0PFlowTrackSelectionHighPurity", "hltIter1PFlowTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0PFlowTrackSelectionHighPurity", "hltIter1PFlowTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1MergedForBTag = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0PFlowTrackSelectionHighPurityForBTag", "hltIter1PFlowTrackSelectionHighPurityForBTag"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0PFlowTrackSelectionHighPurityForBTag", "hltIter1PFlowTrackSelectionHighPurityForBTag"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1MergedTauReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0PFlowTrackSelectionHighPurityTauReg", "hltIter1PFlowTrackSelectionHighPurityTauReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0PFlowTrackSelectionHighPurityTauReg", "hltIter1PFlowTrackSelectionHighPurityTauReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter1PFLowPixelSeedsFromPixelTracks = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIter1PixelTracks"),
InputVertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter1PFLowPixelSeedsFromPixelTracksForBTag = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltIter1PixelTracksForBTag"),
InputVertexCollection = cms.InputTag("hltFastPVPixelVertices"),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(0.3),
originRadius = cms.double(0.1),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltIter1PFlowCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1MaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1PFLowPixelSeedsFromPixelTracks"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1PFlowCkfTrackCandidatesForBTag = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1MaskedMeasurementTrackerEventForBTag"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1PFLowPixelSeedsFromPixelTracksForBTag"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1PFlowCkfTrackCandidatesTauReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter1MaskedMeasurementTrackerEventTauReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter1GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter1PFlowPixelSeedsTauReg"),
useHitsSplitting = cms.bool(False)
)
process.hltIter1PFlowCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1MaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1PFlowCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1PFlowCtfWithMaterialTracksForBTag = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter1'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1MaskedMeasurementTrackerEventForBTag"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1PFlowCkfTrackCandidatesForBTag"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1PFlowCtfWithMaterialTracksTauReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter1MaskedMeasurementTrackerEventTauReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracksReg'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter1PFlowCkfTrackCandidatesTauReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter1PFlowPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1PFlowPixelClusterCheckForBTag = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClustersRegForBTag"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClustersRegForBTag"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1PFlowPixelClusterCheckTauReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter1PFlowPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1PFlowPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1PixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIter1PFlowPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1PFlowPixelHitDoubletsForBTag = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1PFlowPixelClusterCheckForBTag"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1PixelLayerQuadrupletsForBTag"),
trackingRegions = cms.InputTag("hltIter1PFlowPixelTrackingRegionsForBTag"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1PFlowPixelHitDoubletsTauReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter1PFlowPixelClusterCheckTauReg"),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter1PixelLayerQuadrupletsTauReg"),
trackingRegions = cms.InputTag("hltIter1PFlowPixelTrackingRegionsTauReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter1PFlowPixelHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1PFlowPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.4),
pt2 = cms.double(2.0),
value1 = cms.double(1000.0),
value2 = cms.double(100.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1PFlowPixelHitQuadrupletsForBTag = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegForBTagCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1PFlowPixelHitDoubletsForBTag"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.4),
pt2 = cms.double(2.0),
value1 = cms.double(1000.0),
value2 = cms.double(100.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1PFlowPixelHitQuadrupletsTauReg = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.3),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIter1PFlowPixelHitDoubletsTauReg"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(2000.0),
value2 = cms.double(150.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter1PFlowPixelSeedsTauReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter1PFlowPixelHitQuadrupletsTauReg")
)
process.hltIter1PFlowPixelTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer",
RegionPSet = cms.PSet(
VertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
fixedError = cms.double(0.2),
nSigmaZ = cms.double(4.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.4),
sigmaZVertex = cms.double(3.0),
useFakeVertices = cms.bool(False),
useFixedError = cms.bool(True),
useFoundVertices = cms.bool(True),
useMultipleScattering = cms.bool(False)
)
)
process.hltIter1PFlowPixelTrackingRegionsForBTag = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.4),
deltaPhi = cms.double(0.4),
input = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter1MaskedMeasurementTrackerEventForBTag"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(0.0),
nSigmaZVertex = cms.double(0.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltFastPVPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(0.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1PFlowPixelTrackingRegionsTauReg = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIter0TrackAndTauJets4Iter1TauReg"),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltIter1MaskedMeasurementTrackerEventTauReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(4.0),
originRadius = cms.double(0.05),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltIter1PFlowTrackCutClassifierDetached = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1PFlowCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter1PFlowTrackCutClassifierDetachedForBTag = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1PFlowCtfWithMaterialTracksForBTag"),
vertices = cms.InputTag("hltFastPVPixelVertices")
)
process.hltIter1PFlowTrackCutClassifierDetachedTauReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(1.0, 1.0, 1.0),
dr_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(1.0, 1.0, 1.0),
dz_par2 = cms.vdouble(1.0, 1.0, 1.0)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.0, 0.7, 0.4),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(99, 3, 3),
min3DLayers = cms.vint32(1, 2, 3),
minLayers = cms.vint32(5, 5, 5),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(-1.0, -1.0, -1.0),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1PFlowCtfWithMaterialTracksTauReg"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter1PFlowTrackCutClassifierMerged = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1PFlowTrackCutClassifierPrompt',
'hltIter1PFlowTrackCutClassifierDetached'
)
)
process.hltIter1PFlowTrackCutClassifierMergedForBTag = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1PFlowTrackCutClassifierPromptForBTag',
'hltIter1PFlowTrackCutClassifierDetachedForBTag'
)
)
process.hltIter1PFlowTrackCutClassifierMergedTauReg = cms.EDProducer("ClassifierMerger",
inputClassifiers = cms.vstring(
'hltIter1PFlowTrackCutClassifierPromptTauReg',
'hltIter1PFlowTrackCutClassifierDetachedTauReg'
)
)
process.hltIter1PFlowTrackCutClassifierPrompt = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1PFlowCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter1PFlowTrackCutClassifierPromptForBTag = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1PFlowCtfWithMaterialTracksForBTag"),
vertices = cms.InputTag("hltFastPVPixelVertices")
)
process.hltIter1PFlowTrackCutClassifierPromptTauReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(3, 3, 3),
dr_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dr_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.85)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(3, 3, 3),
dz_par1 = cms.vdouble(3.40282346639e+38, 1.0, 0.9),
dz_par2 = cms.vdouble(3.40282346639e+38, 1.0, 0.8)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDz = cms.vdouble(3.40282346639e+38, 1.0, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 2)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter1PFlowCtfWithMaterialTracksTauReg"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter1PFlowTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1PFlowTrackCutClassifierMerged","MVAValues"),
originalQualVals = cms.InputTag("hltIter1PFlowTrackCutClassifierMerged","QualityMasks"),
originalSource = cms.InputTag("hltIter1PFlowCtfWithMaterialTracks")
)
process.hltIter1PFlowTrackSelectionHighPurityForBTag = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1PFlowTrackCutClassifierMergedForBTag","MVAValues"),
originalQualVals = cms.InputTag("hltIter1PFlowTrackCutClassifierMergedForBTag","QualityMasks"),
originalSource = cms.InputTag("hltIter1PFlowCtfWithMaterialTracksForBTag")
)
process.hltIter1PFlowTrackSelectionHighPurityTauReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter1PFlowTrackCutClassifierMergedTauReg","MVAValues"),
originalQualVals = cms.InputTag("hltIter1PFlowTrackCutClassifierMergedTauReg","QualityMasks"),
originalSource = cms.InputTag("hltIter1PFlowCtfWithMaterialTracksTauReg")
)
process.hltIter1PixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1ClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1ClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1PixelLayerQuadrupletsForBTag = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1ClustersRefRemovalForBTag"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1ClustersRefRemovalForBTag"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1PixelLayerQuadrupletsTauReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter1ClustersRefRemovalTauReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter1ClustersRefRemovalTauReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter1PixelTracks = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksFilter"),
Fitter = cms.InputTag("hltPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIter1PFlowPixelHitQuadruplets"),
passLabel = cms.string('')
)
process.hltIter1PixelTracksForBTag = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltFastPVPixelTracksFilter"),
Fitter = cms.InputTag("hltFastPVPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIter1PFlowPixelHitQuadrupletsForBTag"),
passLabel = cms.string('')
)
process.hltIter1TrackAndTauJets4Iter2 = cms.EDProducer("TauJetSelectorForHLTTrackSeeding",
etaMaxCaloJet = cms.double(2.7),
etaMinCaloJet = cms.double(-2.7),
fractionMaxChargedPUInCaloCone = cms.double(0.3),
fractionMinCaloInTauCone = cms.double(0.7),
inputCaloJetTag = cms.InputTag("hltAK4CaloJetsPFEt5"),
inputTrackJetTag = cms.InputTag("hltAK4Iter1TrackJets4Iter2"),
inputTrackTag = cms.InputTag("hltIter1Merged"),
isolationConeSize = cms.double(0.5),
nTrkMaxInCaloCone = cms.int32(0),
ptMinCaloJet = cms.double(10.0),
ptTrkMaxInCaloCone = cms.double(1.4),
tauConeSize = cms.double(0.2)
)
process.hltIter1TrackAndTauJets4Iter2TauReg = cms.EDProducer("TauJetSelectorForHLTTrackSeeding",
etaMaxCaloJet = cms.double(2.7),
etaMinCaloJet = cms.double(-2.7),
fractionMaxChargedPUInCaloCone = cms.double(0.3),
fractionMinCaloInTauCone = cms.double(0.7),
inputCaloJetTag = cms.InputTag("hltL2TausForPixelIsolationL1TauSeeded"),
inputTrackJetTag = cms.InputTag("hltAK4Iter1TrackJets4Iter2TauReg"),
inputTrackTag = cms.InputTag("hltIter1MergedTauReg"),
isolationConeSize = cms.double(0.5),
nTrkMaxInCaloCone = cms.int32(0),
ptMinCaloJet = cms.double(5.0),
ptTrkMaxInCaloCone = cms.double(1.4),
tauConeSize = cms.double(0.2)
)
process.hltIter1TrackRefsForJets4Iter2 = cms.EDProducer("ChargedRefCandidateProducer",
particleType = cms.string('pi+'),
src = cms.InputTag("hltIter1Merged")
)
process.hltIter1TrackRefsForJets4Iter2TauReg = cms.EDProducer("ChargedRefCandidateProducer",
particleType = cms.string('pi+'),
src = cms.InputTag("hltIter1MergedTauReg")
)
process.hltIter2ClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1ClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1PFlowTrackSelectionHighPurity")
)
process.hltIter2ClustersRefRemovalForBTag = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1ClustersRefRemovalForBTag"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClustersRegForBTag"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1PFlowTrackSelectionHighPurityForBTag")
)
process.hltIter2ClustersRefRemovalTauReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1ClustersRefRemovalTauReg"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1PFlowTrackSelectionHighPurityTauReg")
)
process.hltIter2DisplacedJpsiCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedJpsiMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2DisplacedJpsiPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2DisplacedJpsiCkfTrackCandidatesDoubleTrk = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2DisplacedJpsiPixelSeedsDoubleTrk"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2DisplacedJpsiClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1DisplacedJpsiTrackSelectionHighPurity")
)
process.hltIter2DisplacedJpsiClustersRefRemovalDoubleTrk = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1DisplacedJpsiClustersRefRemovalDoubleTrk"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1DisplacedJpsiTrackSelectionHighPurityDoubleTrk")
)
process.hltIter2DisplacedJpsiCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedJpsiMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2DisplacedJpsiCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2DisplacedJpsiCtfWithMaterialTracksDoubleTrk = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2DisplacedJpsiCkfTrackCandidatesDoubleTrk"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2DisplacedJpsiMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemovalDoubleTrk"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2DisplacedJpsiMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedJpsiMerged", "hltIter2DisplacedJpsiTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1DisplacedJpsiMerged", "hltIter2DisplacedJpsiTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2DisplacedJpsiMergedDoubleTrk = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedJpsiMergedDoubleTrk", "hltIter2DisplacedJpsiTrackSelectionHighPurityDoubleTrk"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1DisplacedJpsiMergedDoubleTrk", "hltIter2DisplacedJpsiTrackSelectionHighPurityDoubleTrk"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2DisplacedJpsiPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2DisplacedJpsiPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2DisplacedJpsiPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2DisplacedJpsiPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2DisplacedJpsiPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2DisplacedJpsiPixelHitDoubletsDoubleTrk = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2DisplacedJpsiPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2DisplacedJpsiPixelLayerTripletsDoubleTrk"),
trackingRegions = cms.InputTag("hltIter2DisplacedJpsiPixelTrackingRegionsDoubleTrk"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2DisplacedJpsiPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2DisplacedJpsiPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2DisplacedJpsiPixelHitTripletsDoubleTrk = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2DisplacedJpsiPixelHitDoubletsDoubleTrk"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2DisplacedJpsiPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2DisplacedJpsiPixelLayerTripletsDoubleTrk = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemovalDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemovalDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2DisplacedJpsiPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2DisplacedJpsiPixelHitTriplets")
)
process.hltIter2DisplacedJpsiPixelSeedsDoubleTrk = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2DisplacedJpsiPixelHitTripletsDoubleTrk")
)
process.hltIter2DisplacedJpsiPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2DisplacedJpsiMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2DisplacedJpsiPixelTrackingRegionsDoubleTrk = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2DisplacedJpsiTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2DisplacedJpsiCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi")
)
process.hltIter2DisplacedJpsiTrackCutClassifierDoubleTrk = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2DisplacedJpsiCtfWithMaterialTracksDoubleTrk"),
vertices = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi")
)
process.hltIter2DisplacedJpsiTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2DisplacedJpsiTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2DisplacedJpsiTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2DisplacedJpsiCtfWithMaterialTracks")
)
process.hltIter2DisplacedJpsiTrackSelectionHighPurityDoubleTrk = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2DisplacedJpsiTrackCutClassifierDoubleTrk","MVAValues"),
originalQualVals = cms.InputTag("hltIter2DisplacedJpsiTrackCutClassifierDoubleTrk","QualityMasks"),
originalSource = cms.InputTag("hltIter2DisplacedJpsiCtfWithMaterialTracksDoubleTrk")
)
process.hltIter2DisplacedNRCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedNRMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2DisplacedNRPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2DisplacedNRClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1DisplacedNRClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1DisplacedNRTrackSelectionHighPurity")
)
process.hltIter2DisplacedNRCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedNRMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2DisplacedNRCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2DisplacedNRMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2DisplacedNRClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2DisplacedNRMuMuMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedNRMuMuMerged", "hltIter2DisplacedNRTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1DisplacedNRMuMuMerged", "hltIter2DisplacedNRTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2DisplacedNRPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2DisplacedNRPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2DisplacedNRPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2DisplacedNRPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2DisplacedNRPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2DisplacedNRPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2DisplacedNRPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2DisplacedNRPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2DisplacedNRClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2DisplacedNRClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2DisplacedNRPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2DisplacedNRPixelHitTriplets")
)
process.hltIter2DisplacedNRPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2DisplacedNRMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2DisplacedNRTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2DisplacedNRCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant")
)
process.hltIter2DisplacedNRTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2DisplacedNRTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2DisplacedNRTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2DisplacedNRCtfWithMaterialTracks")
)
process.hltIter2DisplacedPsiPrimeCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedPsiPrimeMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2DisplacedPsiPrimePixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2DisplacedPsiPrimeClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1DisplacedPsiPrimeClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1DisplacedPsiPrimeTrackSelectionHighPurity")
)
process.hltIter2DisplacedPsiPrimeCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedPsiPrimeMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2DisplacedPsiPrimeCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2DisplacedPsiPrimeMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2DisplacedPsiPrimeClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2DisplacedPsiPrimeMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedPsiPrimeMerged", "hltIter2DisplacedPsiPrimeTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1DisplacedPsiPrimeMerged", "hltIter2DisplacedPsiPrimeTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2DisplacedPsiPrimePixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2DisplacedPsiPrimePixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2DisplacedPsiPrimePixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2DisplacedPsiPrimePixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2DisplacedPsiPrimePixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2DisplacedPsiPrimePixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2DisplacedPsiPrimePixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2DisplacedPsiPrimePixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2DisplacedPsiPrimeClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2DisplacedPsiPrimeClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2DisplacedPsiPrimePixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2DisplacedPsiPrimePixelHitTriplets")
)
process.hltIter2DisplacedPsiPrimePixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2DisplacedPsiPrimeMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2DisplacedPsiPrimeTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2DisplacedPsiPrimeCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime")
)
process.hltIter2DisplacedPsiPrimeTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2DisplacedPsiPrimeTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2DisplacedPsiPrimeTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2DisplacedPsiPrimeCtfWithMaterialTracks")
)
process.hltIter2DisplacedTau3muCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedTau3muMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2DisplacedTau3muPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2DisplacedTau3muClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1DisplacedTau3muClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1DisplacedTau3muTrackSelectionHighPurity")
)
process.hltIter2DisplacedTau3muCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedTau3muMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2DisplacedTau3muCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2DisplacedTau3muMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2DisplacedTau3muClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2DisplacedTau3muMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedTau3muMerged", "hltIter2DisplacedTau3muTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1DisplacedTau3muMerged", "hltIter2DisplacedTau3muTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2DisplacedTau3muNoL1MassCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2DisplacedTau3muNoL1MassPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2DisplacedTau3muNoL1MassClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1DisplacedTau3muNoL1MassClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1DisplacedTau3muNoL1MassTrackSelectionHighPurity")
)
process.hltIter2DisplacedTau3muNoL1MassCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2DisplacedTau3muNoL1MassCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2DisplacedTau3muNoL1MassClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2DisplacedTau3muNoL1MassMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedTau3muNoL1MassMerged", "hltIter2DisplacedTau3muNoL1MassTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1DisplacedTau3muNoL1MassMerged", "hltIter2DisplacedTau3muNoL1MassTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2DisplacedTau3muNoL1MassPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2DisplacedTau3muNoL1MassPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2DisplacedTau3muNoL1MassPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2DisplacedTau3muNoL1MassPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2DisplacedTau3muNoL1MassPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2DisplacedTau3muNoL1MassPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2DisplacedTau3muNoL1MassPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2DisplacedTau3muNoL1MassPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2DisplacedTau3muNoL1MassClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2DisplacedTau3muNoL1MassClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2DisplacedTau3muNoL1MassPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2DisplacedTau3muNoL1MassPixelHitTriplets")
)
process.hltIter2DisplacedTau3muNoL1MassPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2DisplacedTau3muNoL1MassTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2DisplacedTau3muNoL1MassCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass")
)
process.hltIter2DisplacedTau3muNoL1MassTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2DisplacedTau3muNoL1MassTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2DisplacedTau3muNoL1MassTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2DisplacedTau3muNoL1MassCtfWithMaterialTracks")
)
process.hltIter2DisplacedTau3muPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2DisplacedTau3muPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2DisplacedTau3muPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2DisplacedTau3muPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2DisplacedTau3muPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2DisplacedTau3muPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2DisplacedTau3muPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2DisplacedTau3muPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2DisplacedTau3muClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2DisplacedTau3muClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2DisplacedTau3muPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2DisplacedTau3muPixelHitTriplets")
)
process.hltIter2DisplacedTau3muPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(1.0),
deltaPhi = cms.double(1.0),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2DisplacedTau3muMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2DisplacedTau3muTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2DisplacedTau3muCtfWithMaterialTracks"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu")
)
process.hltIter2DisplacedTau3muTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2DisplacedTau3muTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2DisplacedTau3muTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2DisplacedTau3muCtfWithMaterialTracks")
)
process.hltIter2HighPtTkMuCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2HighPtTkMuMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2HighPtTkMuPSetTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2HighPtTkMuPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2HighPtTkMuClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0HighPtTkMuTrackSelectionHighPurity")
)
process.hltIter2HighPtTkMuCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2HighPtTkMuMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2HighPtTkMuCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2HighPtTkMuMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2HighPtTkMuClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2HighPtTkMuMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0HighPtTkMuTrackSelectionHighPurity", "hltIter2HighPtTkMuTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0HighPtTkMuTrackSelectionHighPurity", "hltIter2HighPtTkMuTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2HighPtTkMuPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(800000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2HighPtTkMuPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2HighPtTkMuPixelClusterCheck"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltIter2HighPtTkMuPixelLayerPairs"),
trackingRegions = cms.InputTag("hltIter2HighPtTkMuPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2HighPtTkMuPixelLayerPairs = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2HighPtTkMuClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2HighPtTkMuClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix2+BPix3',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg'
)
)
process.hltIter2HighPtTkMuPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ClusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'),
ComponentName = cms.string('PixelClusterShapeSeedComparitor'),
FilterAtHelixStage = cms.bool(True),
FilterPixelHits = cms.bool(True),
FilterStripHits = cms.bool(False)
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2HighPtTkMuPixelHitDoublets")
)
process.hltIter2HighPtTkMuPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.35),
deltaPhi = cms.double(0.2),
input = cms.InputTag("hltL1MuonsPt15"),
maxNRegions = cms.int32(2),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(10.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIter2HighPtTkMuTrackSelectionHighPurity = cms.EDProducer("AnalyticalTrackSelector",
applyAbsCutsIfNoPV = cms.bool(False),
applyAdaptedPVCuts = cms.bool(True),
beamspot = cms.InputTag("hltOnlineBeamSpot"),
chi2n_no1Dmod_par = cms.double(9999.0),
chi2n_par = cms.double(0.7),
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
d0_par1 = cms.vdouble(0.3, 4.0),
d0_par2 = cms.vdouble(0.4, 4.0),
dz_par1 = cms.vdouble(0.35, 4.0),
dz_par2 = cms.vdouble(0.4, 4.0),
keepAllTracks = cms.bool(False),
maxNumberLostLayers = cms.uint32(1),
max_d0 = cms.double(100.0),
max_d0NoPV = cms.double(100.0),
max_eta = cms.double(9999.0),
max_lostHitFraction = cms.double(1.0),
max_minMissHitOutOrIn = cms.int32(99),
max_relpterr = cms.double(9999.0),
max_z0 = cms.double(100.0),
max_z0NoPV = cms.double(100.0),
minHitsToBypassChecks = cms.uint32(20),
minNumber3DLayers = cms.uint32(0),
minNumberLayers = cms.uint32(3),
min_eta = cms.double(-9999.0),
min_nhits = cms.uint32(0),
nSigmaZ = cms.double(3.0),
qualityBit = cms.string('highPurity'),
res_par = cms.vdouble(0.003, 0.001),
src = cms.InputTag("hltIter2HighPtTkMuCtfWithMaterialTracks"),
useVertices = cms.bool(False),
useVtxError = cms.bool(False),
vertexCut = cms.string('tracksSize>=3'),
vertices = cms.InputTag("notUsed"),
vtxNumber = cms.int32(-1)
)
process.hltIter2IterL3FromL1MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2IterL3FromL1MuonPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2IterL3FromL1MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2IterL3FromL1MuonPixelSeedsNoVtx"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2IterL3FromL1MuonCkfTrackCandidatesOpenMu = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventOpenMu"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3FromL1MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2IterL3FromL1MuonPixelSeedsOpenMu"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2IterL3FromL1MuonClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurity")
)
process.hltIter2IterL3FromL1MuonClustersRefRemovalNoVtx = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurityNoVtx")
)
process.hltIter2IterL3FromL1MuonClustersRefRemovalOpenMu = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurityOpenMu")
)
process.hltIter2IterL3FromL1MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2IterL3FromL1MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2IterL3FromL1MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2IterL3FromL1MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2IterL3FromL1MuonCtfWithMaterialTracksOpenMu = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventOpenMu"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2IterL3FromL1MuonCkfTrackCandidatesOpenMu"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventNoVtx = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemovalNoVtx"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventOpenMu = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemovalOpenMu"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2IterL3FromL1MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurity", "hltIter2IterL3FromL1MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurity", "hltIter2IterL3FromL1MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2IterL3FromL1MuonMergedNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurityNoVtx", "hltIter2IterL3FromL1MuonTrackSelectionHighPurityNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurityNoVtx", "hltIter2IterL3FromL1MuonTrackSelectionHighPurityNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2IterL3FromL1MuonMergedOpenMu = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurityOpenMu", "hltIter2IterL3FromL1MuonTrackSelectionHighPurityOpenMu"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurityOpenMu", "hltIter2IterL3FromL1MuonTrackSelectionHighPurityOpenMu"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2IterL3FromL1MuonPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2IterL3FromL1MuonPixelClusterCheckNoVtx = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2IterL3FromL1MuonPixelClusterCheckOpenMu = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2IterL3FromL1MuonPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2IterL3FromL1MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2IterL3FromL1MuonPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2IterL3FromL1MuonPixelHitDoubletsNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2IterL3FromL1MuonPixelClusterCheckNoVtx"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2IterL3FromL1MuonPixelLayerTripletsNoVtx"),
trackingRegions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegionsNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2IterL3FromL1MuonPixelHitDoubletsOpenMu = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2IterL3FromL1MuonPixelClusterCheckOpenMu"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2IterL3FromL1MuonPixelLayerTripletsOpenMu"),
trackingRegions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegionsOpenMu"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2IterL3FromL1MuonPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.015),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2IterL3FromL1MuonPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2IterL3FromL1MuonPixelHitTripletsNoVtx = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.015),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2IterL3FromL1MuonPixelHitDoubletsNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2IterL3FromL1MuonPixelHitTripletsOpenMu = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.015),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2IterL3FromL1MuonPixelHitDoubletsOpenMu"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2IterL3FromL1MuonPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltIter2IterL3FromL1MuonPixelLayerTripletsNoVtx = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2IterL3FromL1MuonPixelLayerTripletsOpenMu = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemovalOpenMu"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemovalOpenMu"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2IterL3FromL1MuonPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2IterL3FromL1MuonPixelHitTriplets")
)
process.hltIter2IterL3FromL1MuonPixelSeedsNoVtx = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2IterL3FromL1MuonPixelHitTripletsNoVtx")
)
process.hltIter2IterL3FromL1MuonPixelSeedsOpenMu = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2IterL3FromL1MuonPixelHitTripletsOpenMu")
)
process.hltIter2IterL3FromL1MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2IterL3FromL1MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVertices")
)
process.hltIter2IterL3FromL1MuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2IterL3FromL1MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVerticesNoVtx")
)
process.hltIter2IterL3FromL1MuonTrackCutClassifierOpenMu = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2IterL3FromL1MuonCtfWithMaterialTracksOpenMu"),
vertices = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVerticesOpenMu")
)
process.hltIter2IterL3FromL1MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2IterL3FromL1MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2IterL3FromL1MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2IterL3FromL1MuonCtfWithMaterialTracks")
)
process.hltIter2IterL3FromL1MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2IterL3FromL1MuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter2IterL3FromL1MuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter2IterL3FromL1MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter2IterL3FromL1MuonTrackSelectionHighPurityOpenMu = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2IterL3FromL1MuonTrackCutClassifierOpenMu","MVAValues"),
originalQualVals = cms.InputTag("hltIter2IterL3FromL1MuonTrackCutClassifierOpenMu","QualityMasks"),
originalSource = cms.InputTag("hltIter2IterL3FromL1MuonCtfWithMaterialTracksOpenMu")
)
process.hltIter2IterL3MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2IterL3MuonPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2IterL3MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2IterL3MuonPixelSeedsNoVtx"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2IterL3MuonCkfTrackCandidatesOpenMu = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3MuonMaskedMeasurementTrackerEventOpenMu"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2IterL3MuonPixelSeedsOpenMu"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2IterL3MuonClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0IterL3MuonTrackSelectionHighPurity")
)
process.hltIter2IterL3MuonClustersRefRemovalNoVtx = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0IterL3MuonTrackSelectionHighPurityNoVtx")
)
process.hltIter2IterL3MuonClustersRefRemovalOpenMu = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter0IterL3MuonTrackSelectionHighPurityOpenMu")
)
process.hltIter2IterL3MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2IterL3MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2IterL3MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2IterL3MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2IterL3MuonCtfWithMaterialTracksOpenMu = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2IterL3MuonMaskedMeasurementTrackerEventOpenMu"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2IterL3MuonCkfTrackCandidatesOpenMu"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2IterL3MuonMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2IterL3MuonClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2IterL3MuonMaskedMeasurementTrackerEventNoVtx = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2IterL3MuonClustersRefRemovalNoVtx"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2IterL3MuonMaskedMeasurementTrackerEventOpenMu = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2IterL3MuonClustersRefRemovalOpenMu"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2IterL3MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0IterL3MuonTrackSelectionHighPurity", "hltIter2IterL3MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0IterL3MuonTrackSelectionHighPurity", "hltIter2IterL3MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2IterL3MuonMergedNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0IterL3MuonTrackSelectionHighPurityNoVtx", "hltIter2IterL3MuonTrackSelectionHighPurityNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0IterL3MuonTrackSelectionHighPurityNoVtx", "hltIter2IterL3MuonTrackSelectionHighPurityNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2IterL3MuonMergedOpenMu = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter0IterL3MuonTrackSelectionHighPurityOpenMu", "hltIter2IterL3MuonTrackSelectionHighPurityOpenMu"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter0IterL3MuonTrackSelectionHighPurityOpenMu", "hltIter2IterL3MuonTrackSelectionHighPurityOpenMu"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2IterL3MuonPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2IterL3MuonPixelClusterCheckNoVtx = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2IterL3MuonPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2IterL3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2IterL3MuonPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2IterL3MuonPixelHitDoubletsNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2IterL3MuonPixelClusterCheckNoVtx"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2IterL3MuonPixelLayerTripletsNoVtx"),
trackingRegions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegionsNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2IterL3MuonPixelHitDoubletsOpenMu = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2IterL3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2IterL3MuonPixelLayerTripletsOpenMu"),
trackingRegions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegionsOpenMu"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2IterL3MuonPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.015),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2IterL3MuonPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2IterL3MuonPixelHitTripletsNoVtx = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.015),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2IterL3MuonPixelHitDoubletsNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2IterL3MuonPixelHitTripletsOpenMu = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.015),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2IterL3MuonPixelHitDoubletsOpenMu"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2IterL3MuonPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2IterL3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2IterL3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltIter2IterL3MuonPixelLayerTripletsNoVtx = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2IterL3MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2IterL3MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2IterL3MuonPixelLayerTripletsOpenMu = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2IterL3MuonClustersRefRemovalOpenMu"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2IterL3MuonClustersRefRemovalOpenMu"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2IterL3MuonPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2IterL3MuonPixelHitTriplets")
)
process.hltIter2IterL3MuonPixelSeedsNoVtx = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2IterL3MuonPixelHitTripletsNoVtx")
)
process.hltIter2IterL3MuonPixelSeedsOpenMu = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2IterL3MuonPixelHitTripletsOpenMu")
)
process.hltIter2IterL3MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2IterL3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltIterL3MuonTrimmedPixelVertices")
)
process.hltIter2IterL3MuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2IterL3MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltIterL3MuonTrimmedPixelVerticesNoVtx")
)
process.hltIter2IterL3MuonTrackCutClassifierOpenMu = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2IterL3MuonCtfWithMaterialTracksOpenMu"),
vertices = cms.InputTag("hltIterL3MuonTrimmedPixelVerticesOpenMu")
)
process.hltIter2IterL3MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2IterL3MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2IterL3MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2IterL3MuonCtfWithMaterialTracks")
)
process.hltIter2IterL3MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2IterL3MuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter2IterL3MuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter2IterL3MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter2IterL3MuonTrackSelectionHighPurityOpenMu = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2IterL3MuonTrackCutClassifierOpenMu","MVAValues"),
originalQualVals = cms.InputTag("hltIter2IterL3MuonTrackCutClassifierOpenMu","QualityMasks"),
originalSource = cms.InputTag("hltIter2IterL3MuonCtfWithMaterialTracksOpenMu")
)
process.hltIter2L3MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2L3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2L3MuonPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2L3MuonCkfTrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2L3MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2L3MuonPixelSeedsNoVtx"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2L3MuonClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1L3MuonClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1L3MuonTrackSelectionHighPurity")
)
process.hltIter2L3MuonClustersRefRemovalNoVtx = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter1L3MuonClustersRefRemovalNoVtx"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter1L3MuonTrackSelectionHighPurityNoVtx")
)
process.hltIter2L3MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2L3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2L3MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2L3MuonCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2L3MuonMaskedMeasurementTrackerEventNoVtx"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2L3MuonCkfTrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2L3MuonMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2L3MuonClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2L3MuonMaskedMeasurementTrackerEventNoVtx = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2L3MuonClustersRefRemovalNoVtx"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2L3MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1L3MuonMerged", "hltIter2L3MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1L3MuonMerged", "hltIter2L3MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2L3MuonMergedNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1L3MuonMergedNoVtx", "hltIter2L3MuonTrackSelectionHighPurityNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1L3MuonMergedNoVtx", "hltIter2L3MuonTrackSelectionHighPurityNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2L3MuonPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2L3MuonPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2L3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2L3MuonPixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2L3MuonPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2L3MuonPixelHitDoubletsNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2L3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2L3MuonPixelLayerTripletsNoVtx"),
trackingRegions = cms.InputTag("hltIter2L3MuonPixelTrackingRegionsNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2L3MuonPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2L3MuonPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2L3MuonPixelHitTripletsNoVtx = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2L3MuonPixelHitDoubletsNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2L3MuonPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2L3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2L3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2L3MuonPixelLayerTripletsNoVtx = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2L3MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2L3MuonClustersRefRemovalNoVtx"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter2L3MuonPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2L3MuonPixelHitTriplets")
)
process.hltIter2L3MuonPixelSeedsNoVtx = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2L3MuonPixelHitTripletsNoVtx")
)
process.hltIter2L3MuonPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.3),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2L3MuonMaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltPixelVerticesL3Muon"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2L3MuonPixelTrackingRegionsNoVtx = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.3),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2L3MuonMaskedMeasurementTrackerEventNoVtx"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltPixelVerticesL3MuonNoVtx"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2L3MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2L3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltPixelVerticesL3Muon")
)
process.hltIter2L3MuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2L3MuonCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("hltPixelVerticesL3MuonNoVtx")
)
process.hltIter2L3MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2L3MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2L3MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2L3MuonCtfWithMaterialTracks")
)
process.hltIter2L3MuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2L3MuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIter2L3MuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIter2L3MuonCtfWithMaterialTracksNoVtx")
)
process.hltIter2MaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2ClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2MaskedMeasurementTrackerEventForBTag = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2ClustersRefRemovalForBTag"),
src = cms.InputTag("hltSiStripClustersRegForBTag")
)
process.hltIter2MaskedMeasurementTrackerEventTauReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter2ClustersRefRemovalTauReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter2Merged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1Merged", "hltIter2PFlowTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1Merged", "hltIter2PFlowTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2MergedForBTag = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1MergedForBTag", "hltIter2PFlowTrackSelectionHighPurityForBTag"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1MergedForBTag", "hltIter2PFlowTrackSelectionHighPurityForBTag"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2MergedTauReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1MergedTauReg", "hltIter2PFlowTrackSelectionHighPurityTauReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter1MergedTauReg", "hltIter2PFlowTrackSelectionHighPurityTauReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter2PFlowCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2MaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2PFlowPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2PFlowCkfTrackCandidatesForBTag = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2MaskedMeasurementTrackerEventForBTag"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2PFlowPixelSeedsForBTag"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2PFlowCkfTrackCandidatesTauReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter2MaskedMeasurementTrackerEventTauReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter2PFlowPixelSeedsTauReg"),
useHitsSplitting = cms.bool(False)
)
process.hltIter2PFlowCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2MaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2PFlowCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2PFlowCtfWithMaterialTracksForBTag = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter2'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2MaskedMeasurementTrackerEventForBTag"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2PFlowCkfTrackCandidatesForBTag"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2PFlowCtfWithMaterialTracksTauReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter2MaskedMeasurementTrackerEventTauReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracksReg'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter2PFlowCkfTrackCandidatesTauReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter2PFlowPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2PFlowPixelClusterCheckForBTag = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClustersRegForBTag"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(40000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClustersRegForBTag"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2PFlowPixelClusterCheckTauReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter2PFlowPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2PFlowPixelClusterCheck"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2PixelLayerTriplets"),
trackingRegions = cms.InputTag("hltIter2PFlowPixelTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2PFlowPixelHitDoubletsForBTag = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2PFlowPixelClusterCheckForBTag"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2PixelLayerTripletsForBTag"),
trackingRegions = cms.InputTag("hltIter2PFlowPixelTrackingRegionsForBTag"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2PFlowPixelHitDoubletsTauReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter2PFlowPixelClusterCheckTauReg"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIter2PixelLayerTripletsTauReg"),
trackingRegions = cms.InputTag("hltIter2PFlowPixelTrackingRegionsTauReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter2PFlowPixelHitTriplets = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2PFlowPixelHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.4),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2PFlowPixelHitTripletsForBTag = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2PFlowPixelHitDoubletsForBTag"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.4),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2PFlowPixelHitTripletsTauReg = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltIter2PFlowPixelHitDoubletsTauReg"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(6.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIter2PFlowPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2PFlowPixelHitTriplets")
)
process.hltIter2PFlowPixelSeedsForBTag = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2PFlowPixelHitTripletsForBTag")
)
process.hltIter2PFlowPixelSeedsTauReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter2PFlowPixelHitTripletsTauReg")
)
process.hltIter2PFlowPixelTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.8),
input = cms.InputTag("hltIter1TrackAndTauJets4Iter2"),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltIter2MaskedMeasurementTrackerEvent"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(4.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.4),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2PFlowPixelTrackingRegionsForBTag = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.4),
deltaPhi = cms.double(0.4),
input = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag("hltIter2MaskedMeasurementTrackerEventForBTag"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(0.0),
nSigmaZVertex = cms.double(0.0),
originRadius = cms.double(0.3),
precise = cms.bool(True),
ptMin = cms.double(0.4),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltFastPVPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(0.0),
zErrorVetex = cms.double(0.3)
)
)
process.hltIter2PFlowPixelTrackingRegionsTauReg = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.8),
input = cms.InputTag("hltIter1TrackAndTauJets4Iter2TauReg"),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltIter2MaskedMeasurementTrackerEventTauReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(4.0),
originRadius = cms.double(0.025),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(True),
vertexCollection = cms.InputTag("hltTrimmedPixelVertices"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.05)
)
)
process.hltIter2PFlowTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2PFlowCtfWithMaterialTracks"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter2PFlowTrackCutClassifierForBTag = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2PFlowCtfWithMaterialTracksForBTag"),
vertices = cms.InputTag("hltFastPVPixelVertices")
)
process.hltIter2PFlowTrackCutClassifierTauReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter2PFlowCtfWithMaterialTracksTauReg"),
vertices = cms.InputTag("hltTrimmedPixelVertices")
)
process.hltIter2PFlowTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2PFlowTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter2PFlowTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter2PFlowCtfWithMaterialTracks")
)
process.hltIter2PFlowTrackSelectionHighPurityForBTag = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2PFlowTrackCutClassifierForBTag","MVAValues"),
originalQualVals = cms.InputTag("hltIter2PFlowTrackCutClassifierForBTag","QualityMasks"),
originalSource = cms.InputTag("hltIter2PFlowCtfWithMaterialTracksForBTag")
)
process.hltIter2PFlowTrackSelectionHighPurityTauReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter2PFlowTrackCutClassifierTauReg","MVAValues"),
originalQualVals = cms.InputTag("hltIter2PFlowTrackCutClassifierTauReg","QualityMasks"),
originalSource = cms.InputTag("hltIter2PFlowCtfWithMaterialTracksTauReg")
)
process.hltIter2PixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2ClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2ClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltIter2PixelLayerTripletsForBTag = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2ClustersRefRemovalForBTag"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2ClustersRefRemovalForBTag"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltIter2PixelLayerTripletsTauReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter2ClustersRefRemovalTauReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter2ClustersRefRemovalTauReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIter3IterL3FromL1MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter3IterL3FromL1MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter3IterL3FromL1MuonPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter3IterL3FromL1MuonClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2IterL3FromL1MuonClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2IterL3FromL1MuonTrackSelectionHighPurity")
)
process.hltIter3IterL3FromL1MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter3'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter3IterL3FromL1MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter3IterL3FromL1MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter3IterL3FromL1MuonMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter3IterL3FromL1MuonClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter3IterL3FromL1MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2IterL3FromL1MuonMerged", "hltIter3IterL3FromL1MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2IterL3FromL1MuonMerged", "hltIter3IterL3FromL1MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter3IterL3FromL1MuonPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter3IterL3FromL1MuonPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter3IterL3FromL1MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltIter3IterL3FromL1MuonPixelLayerPairs"),
trackingRegions = cms.InputTag("hltIter3IterL3FromL1MuonTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter3IterL3FromL1MuonPixelLayerPairs = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter3IterL3FromL1MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter3IterL3FromL1MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltIter3IterL3FromL1MuonPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter3IterL3FromL1MuonPixelHitDoublets")
)
process.hltIter3IterL3FromL1MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter3IterL3FromL1MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltIterL3FromL1MuonTrimmedPixelVertices")
)
process.hltIter3IterL3FromL1MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter3IterL3FromL1MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter3IterL3FromL1MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter3IterL3FromL1MuonCtfWithMaterialTracks")
)
process.hltIter3IterL3FromL1MuonTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.2),
deltaPhi = cms.double(0.1),
input = cms.InputTag("hltL1MuonsPt0"),
maxNRegions = cms.int32(2),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(10.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIter3IterL3MuonCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltIter3IterL3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2IterL3MuonPSetGroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltIter3IterL3MuonPixelSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltIter3IterL3MuonClustersRefRemoval = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2IterL3MuonClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2IterL3MuonTrackSelectionHighPurity")
)
process.hltIter3IterL3MuonCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIter3'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltIter3IterL3MuonMaskedMeasurementTrackerEvent"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIter3IterL3MuonCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltIter3IterL3MuonL2Candidates = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('mu+'),
src = cms.InputTag("hltL2SelectorForL3IO")
)
process.hltIter3IterL3MuonMaskedMeasurementTrackerEvent = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltIter3IterL3MuonClustersRefRemoval"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltIter3IterL3MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2IterL3MuonMerged", "hltIter3IterL3MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2IterL3MuonMerged", "hltIter3IterL3MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIter3IterL3MuonPixelClusterCheck = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltIter3IterL3MuonPixelHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltIter3IterL3MuonPixelClusterCheck"),
layerPairs = cms.vuint32(0),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(False),
produceSeedingHitSets = cms.bool(True),
seedingLayers = cms.InputTag("hltIter3IterL3MuonPixelLayerPairs"),
trackingRegions = cms.InputTag("hltIter3IterL3MuonTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIter3IterL3MuonPixelLayerPairs = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltIter3IterL3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltIter3IterL3MuonClustersRefRemoval"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix1+FPix3_pos',
'BPix1+FPix3_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'BPix3+FPix1_pos',
'BPix3+FPix1_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix1_pos+FPix3_pos',
'FPix1_neg+FPix3_neg',
'FPix2_pos+FPix3_pos',
'FPix2_neg+FPix3_neg'
)
)
process.hltIter3IterL3MuonPixelSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltIter3IterL3MuonPixelHitDoublets")
)
process.hltIter3IterL3MuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 3.40282346639e+38),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIter3IterL3MuonCtfWithMaterialTracks"),
vertices = cms.InputTag("hltIterL3MuonTrimmedPixelVertices")
)
process.hltIter3IterL3MuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter3IterL3MuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter3IterL3MuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter3IterL3MuonCtfWithMaterialTracks")
)
process.hltIter3IterL3MuonTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.1),
deltaPhi = cms.double(0.1),
input = cms.InputTag("hltIter3IterL3MuonL2Candidates"),
maxNRegions = cms.int32(2),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.015),
precise = cms.bool(True),
ptMin = cms.double(2.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIter4MergedWithIter012DisplacedJets = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2MergedForBTag", "hltDisplacedhltIter4PFlowTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2MergedForBTag", "hltDisplacedhltIter4PFlowTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3FromL1MuonPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIterL3FromL1MuonPixelLayerQuadrupletsNoVtx = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIterL3FromL1MuonPixelLayerQuadrupletsOpenMu = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIterL3FromL1MuonPixelTracks = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIterL3MuonPixelTracksFilter"),
Fitter = cms.InputTag("hltIterL3MuonPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIterL3FromL1MuonPixelTracksHitQuadruplets"),
passLabel = cms.string('')
)
process.hltIterL3FromL1MuonPixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIterL3FromL1MuonPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIterL3FromL1MuonPixelTracksHitDoubletsNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIterL3FromL1MuonPixelLayerQuadrupletsNoVtx"),
trackingRegions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegionsNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIterL3FromL1MuonPixelTracksHitDoubletsOpenMu = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIterL3FromL1MuonPixelLayerQuadrupletsOpenMu"),
trackingRegions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegionsOpenMu"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIterL3FromL1MuonPixelTracksHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.005),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIterL3FromL1MuonPixelTracksHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIterL3FromL1MuonPixelTracksHitQuadrupletsNoVtx = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.005),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIterL3FromL1MuonPixelTracksHitDoubletsNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIterL3FromL1MuonPixelTracksHitQuadrupletsOpenMu = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.005),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIterL3FromL1MuonPixelTracksHitDoubletsOpenMu"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIterL3FromL1MuonPixelTracksNoVtx = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIterL3MuonPixelTracksFilterNoVtx"),
Fitter = cms.InputTag("hltIterL3MuonPixelTracksFitterNoVtx"),
SeedingHitSets = cms.InputTag("hltIterL3FromL1MuonPixelTracksHitQuadrupletsNoVtx"),
passLabel = cms.string('')
)
process.hltIterL3FromL1MuonPixelTracksOpenMu = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIterL3MuonPixelTracksFilter"),
Fitter = cms.InputTag("hltIterL3MuonPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIterL3FromL1MuonPixelTracksHitQuadrupletsOpenMu"),
passLabel = cms.string('')
)
process.hltIterL3FromL1MuonPixelTracksTrackingRegions = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.35),
deltaPhi = cms.double(0.2),
input = cms.InputTag("hltL1MuonsPt0"),
maxNRegions = cms.int32(5),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(0.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIterL3FromL1MuonPixelTracksTrackingRegionsNoVtx = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.35),
deltaPhi = cms.double(0.2),
input = cms.InputTag("hltIterL3MuonL1MuonNoL2SelectorNoVtx"),
maxNRegions = cms.int32(2),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(10.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIterL3FromL1MuonPixelTracksTrackingRegionsOpenMu = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.35),
deltaPhi = cms.double(0.2),
input = cms.InputTag("hltIterL3MuonL1MuonNoL2SelectorOpenMu"),
maxNRegions = cms.int32(2),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(10.0),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("notUsed"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltIterL3FromL1MuonPixelVertices = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltIterL3MuonPixelTracks"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltIterL3FromL1MuonPixelVerticesNoVtx = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltIterL3MuonPixelTracksNoVtx"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltIterL3FromL1MuonPixelVerticesOpenMu = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltIterL3MuonPixelTracksOpenMu"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltIterL3FromL1MuonTrimmedPixelVertices = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltIterL3FromL1MuonPixelVertices")
)
process.hltIterL3FromL1MuonTrimmedPixelVerticesNoVtx = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltIterL3FromL1MuonPixelVerticesNoVtx")
)
process.hltIterL3FromL1MuonTrimmedPixelVerticesOpenMu = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltIterL3FromL1MuonPixelVerticesOpenMu")
)
process.hltIterL3GlbMuon = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutGEM = cms.double(1.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
GEMRecHitLabel = cms.InputTag("hltGemRecHits"),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(False),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("Notused")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltIterL3MuonAndMuonFromL1Merged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonMerged", "hltIter0IterL3FromL1MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonMerged", "hltIter0IterL3FromL1MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3MuonAndMuonFromL1MergedNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonMergedNoVtx", "hltIter2IterL3FromL1MuonMergedNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonMergedNoVtx", "hltIter2IterL3FromL1MuonMergedNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3MuonAndMuonFromL1MergedOpenMu = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonMergedOpenMu", "hltIter2IterL3FromL1MuonMergedOpenMu"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonMergedOpenMu", "hltIter2IterL3FromL1MuonMergedOpenMu"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3MuonCandidates = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltIterL3Muons")
)
process.hltIterL3MuonCandidatesNoVtx = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltIterL3MuonsNoVtx")
)
process.hltIterL3MuonCandidatesOpenMu = cms.EDProducer("L3MuonCandidateProducerFromMuons",
InputObjects = cms.InputTag("hltIterL3MuonsOpenMu")
)
process.hltIterL3MuonL1MuonNoL2SelectorNoVtx = cms.EDProducer("HLTL1MuonNoL2Selector",
CentralBxOnly = cms.bool(True),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(5.0),
L1MinPt = cms.double(-1.0),
L1MinQuality = cms.uint32(7),
L2CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
SeedMapTag = cms.InputTag("hltL2Muons")
)
process.hltIterL3MuonL1MuonNoL2SelectorOpenMu = cms.EDProducer("HLTL1MuonNoL2Selector",
CentralBxOnly = cms.bool(True),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(5.0),
L1MinPt = cms.double(-1.0),
L1MinQuality = cms.uint32(3),
L2CandTag = cms.InputTag("hltL2MuonCandidatesOpenMu"),
SeedMapTag = cms.InputTag("hltL2MuonsOpenMu")
)
process.hltIterL3MuonMerged = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3OIMuonTrackSelectionHighPurity", "hltIter0IterL3MuonTrackSelectionHighPurity"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3OIMuonTrackSelectionHighPurity", "hltIter0IterL3MuonTrackSelectionHighPurity"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3MuonMergedNoVtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3OIMuonTrackSelectionHighPurityNoVtx", "hltIter2IterL3MuonMergedNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3OIMuonTrackSelectionHighPurityNoVtx", "hltIter2IterL3MuonMergedNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3MuonMergedOpenMu = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3OIMuonTrackSelectionHighPurityOpenMu", "hltIter2IterL3MuonMergedOpenMu"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3OIMuonTrackSelectionHighPurityOpenMu", "hltIter2IterL3MuonMergedOpenMu"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltIterL3MuonPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIterL3MuonPixelLayerQuadrupletsNoVtx = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltIterL3MuonPixelTracks = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIterL3MuonPixelTracksFilter"),
Fitter = cms.InputTag("hltIterL3MuonPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIterL3MuonPixelTracksHitQuadruplets"),
passLabel = cms.string('')
)
process.hltIterL3MuonPixelTracksFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltIterL3MuonPixelTracksFilterNoVtx = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltIterL3MuonPixelTracksFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltIterL3MuonPixelTracksFitterNoVtx = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltIterL3MuonPixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIterL3MuonPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIterL3MuonPixelTracksHitDoubletsNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIterL3MuonPixelLayerQuadrupletsNoVtx"),
trackingRegions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegionsNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIterL3MuonPixelTracksHitDoubletsOpenMu = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltIterL3MuonPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegionsOpenMu"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltIterL3MuonPixelTracksHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.005),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIterL3MuonPixelTracksHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIterL3MuonPixelTracksHitQuadrupletsNoVtx = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.005),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIterL3MuonPixelTracksHitDoubletsNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIterL3MuonPixelTracksHitQuadrupletsOpenMu = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.005),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltIterL3MuonPixelTracksHitDoubletsOpenMu"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltIterL3MuonPixelTracksNoVtx = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIterL3MuonPixelTracksFilterNoVtx"),
Fitter = cms.InputTag("hltIterL3MuonPixelTracksFitterNoVtx"),
SeedingHitSets = cms.InputTag("hltIterL3MuonPixelTracksHitQuadrupletsNoVtx"),
passLabel = cms.string('')
)
process.hltIterL3MuonPixelTracksOpenMu = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltIterL3MuonPixelTracksFilter"),
Fitter = cms.InputTag("hltIterL3MuonPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltIterL3MuonPixelTracksHitQuadrupletsOpenMu"),
passLabel = cms.string('')
)
process.hltIterL3MuonPixelTracksTrackingRegions = cms.EDProducer("MuonTrackingRegionEDProducer",
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.0),
MeasurementTrackerName = cms.InputTag(""),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.0),
Pt_fixed = cms.bool(True),
Pt_min = cms.double(0.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2SelectorForL3IO"),
maxRegions = cms.int32(5),
precise = cms.bool(True),
vertexCollection = cms.InputTag("notUsed")
)
process.hltIterL3MuonPixelTracksTrackingRegionsNoVtx = cms.EDProducer("MuonTrackingRegionEDProducer",
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.0),
MeasurementTrackerName = cms.InputTag(""),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.0),
Pt_fixed = cms.bool(True),
Pt_min = cms.double(2.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2SelectorForL3IONoVtx"),
maxRegions = cms.int32(5),
precise = cms.bool(True),
vertexCollection = cms.InputTag("notUsed")
)
process.hltIterL3MuonPixelTracksTrackingRegionsOpenMu = cms.EDProducer("MuonTrackingRegionEDProducer",
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.0),
MeasurementTrackerName = cms.InputTag(""),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.0),
Pt_fixed = cms.bool(True),
Pt_min = cms.double(2.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2SelectorForL3IOOpenMu"),
maxRegions = cms.int32(5),
precise = cms.bool(True),
vertexCollection = cms.InputTag("notUsed")
)
process.hltIterL3MuonPixelVertices = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltIterL3MuonPixelTracks"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltIterL3MuonPixelVerticesNoVtx = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltIterL3MuonPixelTracksNoVtx"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltIterL3MuonPixelVerticesOpenMu = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltIterL3MuonPixelTracksOpenMu"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltIterL3MuonTracks = cms.EDProducer("HLTMuonTrackSelector",
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
copyTrajectories = cms.untracked.bool(False),
muon = cms.InputTag("hltIterL3Muons"),
originalMVAVals = cms.InputTag("none"),
track = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged")
)
process.hltIterL3MuonTrimmedPixelVertices = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltIterL3MuonPixelVertices")
)
process.hltIterL3MuonTrimmedPixelVerticesNoVtx = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltIterL3MuonPixelVerticesNoVtx")
)
process.hltIterL3MuonTrimmedPixelVerticesOpenMu = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltIterL3MuonPixelVerticesOpenMu")
)
process.hltIterL3Muons = cms.EDProducer("MuonIDFilterProducerForHLT",
allowedTypeMask = cms.uint32(0),
applyTriggerIdLoose = cms.bool(True),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoID"),
maxNormalizedChi2 = cms.double(9999.0),
minNMuonHits = cms.int32(0),
minNMuonStations = cms.int32(0),
minNTrkLayers = cms.int32(0),
minPixHits = cms.int32(0),
minPixLayer = cms.int32(0),
minPt = cms.double(0.0),
minTrkHits = cms.int32(0),
requiredTypeMask = cms.uint32(0),
typeMuon = cms.uint32(0)
)
process.hltIterL3MuonsFromL2LinksCombination = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OI", "hltL3MuonsIterL3IO")
)
process.hltIterL3MuonsFromL2LinksCombinationNoVtx = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OINoVtx", "hltL3MuonsIterL3IONoVtx")
)
process.hltIterL3MuonsFromL2LinksCombinationOpenMu = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OIOpenMu", "hltL3MuonsIterL3IOOpenMu")
)
process.hltIterL3MuonsFromL2NoVtx = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OINoVtx", "hltL3MuonsIterL3IONoVtx")
)
process.hltIterL3MuonsFromL2OpenMu = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OIOpenMu", "hltL3MuonsIterL3IOOpenMu")
)
process.hltIterL3MuonsNoID = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("Notused"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
GEMSegmentCollectionLabel = cms.InputTag("hltGemSegments"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useGEM = cms.bool(True),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltIter3IterL3FromL1MuonMerged")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(True),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltIterL3MuonAndMuonFromL1Merged", "hltIterL3GlbMuon", "hltL2Muons:UpdatedAtVtx"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links',
'outer tracks'
),
inputTrackCollection = cms.InputTag("hltIter0IterL3FromL1MuonTrackSelectionHighPurity"),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(2.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltIterL3MuonsNoVtx = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("Notused"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltIter2IterL3FromL1MuonMergedNoVtx")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(True),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltIter2IterL3FromL1MuonMergedNoVtx", "hltL3MuonsIterL3LinksNoVtx"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(8.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltIterL3MuonsOpenMu = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("Notused"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("Notused"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("Notused"),
EERecHitCollectionLabel = cms.InputTag("Notused"),
HBHERecHitCollectionLabel = cms.InputTag("Notused"),
HORecHitCollectionLabel = cms.InputTag("Notused"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltIter2IterL3FromL1MuonMergedOpenMu")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(True),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(False),
fillEnergy = cms.bool(False),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(False),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltIter2IterL3FromL1MuonMergedOpenMu", "hltL3MuonsIterL3LinksOpenMu"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(0.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(8.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltIterL3OIL3MuonCandidates = cms.EDProducer("L3MuonCandidateProducer",
InputLinksObjects = cms.InputTag("hltIterL3OIL3MuonsLinksCombination"),
InputObjects = cms.InputTag("hltIterL3OIL3Muons"),
MuonPtOption = cms.string('Tracker')
)
process.hltIterL3OIL3MuonCandidatesNoVtx = cms.EDProducer("L3MuonCandidateProducer",
InputLinksObjects = cms.InputTag("hltIterL3OIL3MuonsLinksCombinationNoVtx"),
InputObjects = cms.InputTag("hltIterL3OIL3MuonsNoVtx"),
MuonPtOption = cms.string('Tracker')
)
process.hltIterL3OIL3MuonCandidatesOpenMu = cms.EDProducer("L3MuonCandidateProducer",
InputLinksObjects = cms.InputTag("hltIterL3OIL3MuonsLinksCombinationOpenMu"),
InputObjects = cms.InputTag("hltIterL3OIL3MuonsOpenMu"),
MuonPtOption = cms.string('Tracker')
)
process.hltIterL3OIL3Muons = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OI")
)
process.hltIterL3OIL3MuonsLinksCombination = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OI")
)
process.hltIterL3OIL3MuonsLinksCombinationNoVtx = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OINoVtx")
)
process.hltIterL3OIL3MuonsLinksCombinationOpenMu = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OIOpenMu")
)
process.hltIterL3OIL3MuonsNoVtx = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OINoVtx")
)
process.hltIterL3OIL3MuonsOpenMu = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsIterL3OIOpenMu")
)
process.hltIterL3OIMuCtfWithMaterialTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('iter10'),
Fitter = cms.string('hltESPKFFittingSmootherWithOutliersRejectionAndRK'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string('hltESPMeasurementTracker'),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIterL3OITrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltIterL3OIMuCtfWithMaterialTracksNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('iter10'),
Fitter = cms.string('hltESPKFFittingSmootherWithOutliersRejectionAndRK'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string('hltESPMeasurementTracker'),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIterL3OITrackCandidatesNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltIterL3OIMuCtfWithMaterialTracksOpenMu = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('iter10'),
Fitter = cms.string('hltESPKFFittingSmootherWithOutliersRejectionAndRK'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string('hltESPMeasurementTracker'),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltIterL3OITrackCandidatesOpenMu"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltIterL3OIMuonTrackCutClassifier = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(True),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(10.0, 1.0, 0.4),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(4, 3, 2),
min3DLayers = cms.vint32(1, 2, 1),
minLayers = cms.vint32(3, 5, 5),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIterL3OIMuCtfWithMaterialTracks"),
vertices = cms.InputTag("Notused")
)
process.hltIterL3OIMuonTrackCutClassifierNoVtx = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(True),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(10.0, 1.0, 0.4),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(4, 3, 2),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 5, 5),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIterL3OIMuCtfWithMaterialTracksNoVtx"),
vertices = cms.InputTag("Notused")
)
process.hltIterL3OIMuonTrackCutClassifierOpenMu = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(True),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 3.40282346639e+38),
d0err_par = cms.vdouble(0.001, 0.001, 3.40282346639e+38),
dr_exp = cms.vint32(4, 4, 2147483647),
dr_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dr_par2 = cms.vdouble(0.3, 0.3, 3.40282346639e+38)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 2147483647),
dz_par1 = cms.vdouble(0.4, 0.4, 3.40282346639e+38),
dz_par2 = cms.vdouble(0.35, 0.35, 3.40282346639e+38)
),
maxChi2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38),
maxChi2n = cms.vdouble(10.0, 1.0, 0.4),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 100.0),
maxLostLayers = cms.vint32(4, 3, 2),
min3DLayers = cms.vint32(1, 2, 1),
minLayers = cms.vint32(3, 5, 5),
minNVtxTrk = cms.int32(3),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 1)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltIterL3OIMuCtfWithMaterialTracksOpenMu"),
vertices = cms.InputTag("Notused")
)
process.hltIterL3OIMuonTrackSelectionHighPurity = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIterL3OIMuonTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIterL3OIMuonTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIterL3OIMuCtfWithMaterialTracks")
)
process.hltIterL3OIMuonTrackSelectionHighPurityNoVtx = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIterL3OIMuonTrackCutClassifierNoVtx","MVAValues"),
originalQualVals = cms.InputTag("hltIterL3OIMuonTrackCutClassifierNoVtx","QualityMasks"),
originalSource = cms.InputTag("hltIterL3OIMuCtfWithMaterialTracksNoVtx")
)
process.hltIterL3OIMuonTrackSelectionHighPurityOpenMu = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIterL3OIMuonTrackCutClassifierOpenMu","MVAValues"),
originalQualVals = cms.InputTag("hltIterL3OIMuonTrackCutClassifierOpenMu","QualityMasks"),
originalSource = cms.InputTag("hltIterL3OIMuCtfWithMaterialTracksOpenMu")
)
process.hltIterL3OISeedsFromL2Muons = cms.EDProducer("TSGForOIDNN",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
debug = cms.untracked.bool(False),
dnnMetadataPath = cms.string('RecoMuon/TrackerSeedGenerator/data/OIseeding/DNNclassifier_Run3_metadata.json'),
estimator = cms.string('hltESPChi2MeasurementEstimator100'),
etaSplitForDnn = cms.double(1),
fixedErrorRescaleFactorForHitless = cms.double(2),
getStrategyFromDNN = cms.bool(True),
hitsToTry = cms.int32(1),
layersToTry = cms.int32(2),
maxEtaForTOB = cms.double(1.8),
maxHitDoubletSeeds = cms.uint32(0),
maxHitSeeds = cms.uint32(1),
maxHitlessSeeds = cms.uint32(5),
maxHitlessSeedsIP = cms.uint32(5),
maxHitlessSeedsMuS = cms.uint32(0),
maxSeeds = cms.uint32(20),
mightGet = cms.optional.untracked.vstring,
minEtaForTEC = cms.double(0.7),
propagatorName = cms.string('PropagatorWithMaterialParabolicMf'),
src = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
useRegressor = cms.bool(False)
)
process.hltIterL3OISeedsFromL2MuonsNoVtx = cms.EDProducer("TSGForOIFromL2",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
SF1 = cms.double(3.0),
SF2 = cms.double(4.0),
SF3 = cms.double(5.0),
SF4 = cms.double(7.0),
SF5 = cms.double(10.0),
SF6 = cms.double(2.0),
UseHitLessSeeds = cms.bool(True),
adjustErrorsDynamicallyForHitless = cms.bool(True),
adjustErrorsDynamicallyForHits = cms.bool(False),
debug = cms.untracked.bool(False),
estimator = cms.string('hltESPChi2MeasurementEstimator100'),
eta1 = cms.double(0.2),
eta2 = cms.double(0.3),
eta3 = cms.double(1.0),
eta4 = cms.double(1.2),
eta5 = cms.double(1.6),
eta6 = cms.double(1.4),
eta7 = cms.double(2.1),
fixedErrorRescaleFactorForHitless = cms.double(2.0),
fixedErrorRescaleFactorForHits = cms.double(1.0),
hitsToTry = cms.int32(1),
layersToTry = cms.int32(2),
maxEtaForTOB = cms.double(1.8),
maxHitSeeds = cms.uint32(1),
maxHitlessSeeds = cms.uint32(5),
maxSeeds = cms.uint32(20),
minEtaForTEC = cms.double(0.7),
numL2ValidHitsCutAllEndcap = cms.uint32(30),
numL2ValidHitsCutAllEta = cms.uint32(20),
pT1 = cms.double(13.0),
pT2 = cms.double(30.0),
pT3 = cms.double(70.0),
propagatorName = cms.string('PropagatorWithMaterialParabolicMf'),
src = cms.InputTag("hltL2Muons"),
tsosDiff1 = cms.double(0.2),
tsosDiff2 = cms.double(0.02)
)
process.hltIterL3OISeedsFromL2MuonsOpenMu = cms.EDProducer("TSGForOIFromL2",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
SF1 = cms.double(3.0),
SF2 = cms.double(4.0),
SF3 = cms.double(5.0),
SF4 = cms.double(7.0),
SF5 = cms.double(10.0),
SF6 = cms.double(2.0),
UseHitLessSeeds = cms.bool(True),
adjustErrorsDynamicallyForHitless = cms.bool(True),
adjustErrorsDynamicallyForHits = cms.bool(False),
debug = cms.untracked.bool(False),
estimator = cms.string('hltESPChi2MeasurementEstimator100'),
eta1 = cms.double(0.2),
eta2 = cms.double(0.3),
eta3 = cms.double(1.0),
eta4 = cms.double(1.2),
eta5 = cms.double(1.6),
eta6 = cms.double(1.4),
eta7 = cms.double(2.1),
fixedErrorRescaleFactorForHitless = cms.double(2.0),
fixedErrorRescaleFactorForHits = cms.double(1.0),
hitsToTry = cms.int32(1),
layersToTry = cms.int32(2),
maxEtaForTOB = cms.double(1.8),
maxHitSeeds = cms.uint32(1),
maxHitlessSeeds = cms.uint32(5),
maxSeeds = cms.uint32(20),
minEtaForTEC = cms.double(0.7),
numL2ValidHitsCutAllEndcap = cms.uint32(30),
numL2ValidHitsCutAllEta = cms.uint32(20),
pT1 = cms.double(13.0),
pT2 = cms.double(30.0),
pT3 = cms.double(70.0),
propagatorName = cms.string('PropagatorWithMaterialParabolicMf'),
src = cms.InputTag("hltL2MuonsOpenMu","UpdatedAtVtx"),
tsosDiff1 = cms.double(0.2),
tsosDiff2 = cms.double(0.02)
)
process.hltIterL3OITrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string(''),
TrajectoryBuilder = cms.string('CkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('muonSeededTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(500000),
maxSeedsBeforeCleaning = cms.uint32(5000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltIterL3OISeedsFromL2Muons"),
useHitsSplitting = cms.bool(False)
)
process.hltIterL3OITrackCandidatesNoVtx = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string(''),
TrajectoryBuilder = cms.string('CkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('muonSeededTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(500000),
maxSeedsBeforeCleaning = cms.uint32(5000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltIterL3OISeedsFromL2MuonsNoVtx"),
useHitsSplitting = cms.bool(False)
)
process.hltIterL3OITrackCandidatesOpenMu = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string(''),
TrajectoryBuilder = cms.string('CkfTrajectoryBuilder'),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('muonSeededTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(500000),
maxSeedsBeforeCleaning = cms.uint32(5000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltIterL3OISeedsFromL2MuonsOpenMu"),
useHitsSplitting = cms.bool(False)
)
process.hltJpsiTkAllConeTracksIter = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('K+'),
src = cms.InputTag("hltMergedTracksDisplacedJpsiReg")
)
process.hltJpsiTkAllConeTracksIterDoubleTrk = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('K+'),
src = cms.InputTag("hltMergedTracksDisplacedJpsiRegDoubleTrk")
)
process.hltJpsiTkVertexProducer = cms.EDProducer("HLTmumutkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(99999.0),
MinD0Significance = cms.double(2.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(1.2),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OverlapDR = cms.double(0.005),
PreviousCandTag = cms.InputTag("hltDisplacedmumuFilterDoubleMu4Jpsi"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.493677),
TrackCand = cms.InputTag("hltJpsiTkAllConeTracksIter")
)
process.hltJpsiTrkTrkVertexProducerPhiDoubleTrk1v4 = cms.EDProducer("HLTmumutktkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
FourthTrackMass = cms.double(0.493677),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(99999.0),
MaxTrkTrkMass = cms.double(1.05),
MinD0Significance = cms.double(0.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(1.0),
MinTrkTrkMass = cms.double(0.95),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OppositeSign = cms.bool(True),
OverlapDR = cms.double(0.000144),
PreviousCandTag = cms.InputTag("hltDoubleTrkmumuFilterDoubleMu2Jpsi"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.493677),
TrackCand = cms.InputTag("hltJpsiTkAllConeTracksIterDoubleTrk")
)
process.hltJpsiTrkTrkVertexProducerPhiKstar = cms.EDProducer("HLTmumutktkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
FourthTrackMass = cms.double(0.493677),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(99999.0),
MaxTrkTrkMass = cms.double(1.3),
MinD0Significance = cms.double(0.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.8),
MinTrkTrkMass = cms.double(0.95),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OppositeSign = cms.bool(True),
OverlapDR = cms.double(0.000144),
PreviousCandTag = cms.InputTag("hltDisplacedmumuFilterDoubleMu4Jpsi"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.493677),
TrackCand = cms.InputTag("hltJpsiTkAllConeTracksIter")
)
process.hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1TightChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sDoubleTauBigOR"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt30MediumAbsOrRelIsolation1Prong"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sIsoTau40erETMHF90To120"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatchMu22IsoTau40 = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt30MediumAbsOrRelIsolation1Prong"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sMu22erIsoTau40er"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatchQuadJetIsoTau = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt30MediumAbsOrRelIsolation1Prong"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sQuadJet36IsoTau52"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackLooseChargedIsolationAgainstMuonMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackLooseChargedIsolationMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolation"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackMediumChargedIsolationMatch1Prong = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation1Prong"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sSingleTau"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTPFTauTrackPt1TightChargedIsolationMatchReg = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt1TightChargedIsolationReg"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
ReduceTauContent = cms.bool(True)
)
process.hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch = cms.EDProducer("L1THLTTauMatching",
EtMin = cms.double(0.0),
JetSrc = cms.InputTag("hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation"),
KeepOriginalVertex = cms.bool(False),
L1TauTrigger = cms.InputTag("hltL1sSingleTau"),
ReduceTauContent = cms.bool(True)
)
process.hltL1MuonsPt0 = cms.EDProducer("HLTL1TMuonSelector",
CentralBxOnly = cms.bool(True),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(5.0),
L1MinPt = cms.double(-1.0),
L1MinQuality = cms.uint32(7)
)
process.hltL1MuonsPt15 = cms.EDProducer("HLTL1TMuonSelector",
CentralBxOnly = cms.bool(True),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(5.0),
L1MinPt = cms.double(15.0),
L1MinQuality = cms.uint32(3)
)
process.hltL1TPFJetsMatching = cms.EDProducer("L1TPFJetsMatching",
JetSrc = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
L1JetTrigger = cms.InputTag("hltL1DiJetVBF"),
matchingR = cms.double(0.5),
mjjMin = cms.double(650.0),
pt1Min = cms.double(110.0),
pt2Min = cms.double(35.0),
pt3Min = cms.double(110.0)
)
process.hltL2CosmicMuonSeeds = cms.EDProducer("L2MuonSeedGeneratorFromL1T",
CentralBxOnly = cms.bool(True),
EtaMatchingBins = cms.vdouble(0.0, 2.5),
GMTReadoutCollection = cms.InputTag(""),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(2.5),
L1MinPt = cms.double(0.0),
L1MinQuality = cms.uint32(1),
MatchDR = cms.vdouble(0.3),
MatchType = cms.uint32(0),
OfflineSeedLabel = cms.untracked.InputTag("hltL2CosmicOfflineMuonSeeds"),
Propagator = cms.string('SteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
SetMinPtBarrelTo = cms.double(3.5),
SetMinPtEndcapTo = cms.double(1.0),
SortType = cms.uint32(0),
UseOfflineSeed = cms.untracked.bool(True),
UseUnassociatedL1 = cms.bool(False)
)
process.hltL2CosmicMuons = cms.EDProducer("L2MuonProducer",
DoSeedRefit = cms.bool(False),
InputObjects = cms.InputTag("hltL2CosmicMuonSeeds"),
L2TrajBuilderParameters = cms.PSet(
BWFilterParameters = cms.PSet(
BWSeedType = cms.string('fromGenerator'),
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegmentsMeanTimer"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('outsideIn'),
MaxChi2 = cms.double(100.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
DoBackwardFilter = cms.bool(True),
DoRefit = cms.bool(False),
DoSeedRefit = cms.bool(False),
FilterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegmentsMeanTimer"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('insideOut'),
MaxChi2 = cms.double(1000.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
NavigationType = cms.string('Standard'),
SeedPosition = cms.string('in'),
SeedPropagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
)
),
MuonTrajectoryBuilder = cms.string('StandAloneMuonTrajectoryBuilder'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPFastSteppingHelixPropagatorAny',
'hltESPFastSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPosition = cms.vdouble(0.0, 0.0, 0.0),
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorOpposite')
),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL2CosmicOfflineMuonSeeds = cms.EDProducer("CosmicMuonSeedGenerator",
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegmentsMeanTimer"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
ForcePointDown = cms.bool(False),
MaxCSCChi2 = cms.double(300.0),
MaxDTChi2 = cms.double(300.0),
MaxSeeds = cms.int32(1000)
)
process.hltL2MuonCandidates = cms.EDProducer("L2MuonCandidateProducer",
InputObjects = cms.InputTag("hltL2Muons","UpdatedAtVtx")
)
process.hltL2MuonCandidatesAllBx = cms.EDProducer("L2MuonCandidateProducer",
InputObjects = cms.InputTag("hltL2MuonsAllBx","UpdatedAtVtx")
)
process.hltL2MuonCandidatesNoVtx = cms.EDProducer("L2MuonCandidateProducer",
InputObjects = cms.InputTag("hltL2Muons")
)
process.hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed = cms.EDProducer("L2MuonCandidateProducer",
InputObjects = cms.InputTag("hltL2CosmicMuons")
)
process.hltL2MuonCandidatesOpenMu = cms.EDProducer("L2MuonCandidateProducer",
InputObjects = cms.InputTag("hltL2MuonsOpenMu","UpdatedAtVtx")
)
process.hltL2MuonSeeds = cms.EDProducer("L2MuonSeedGeneratorFromL1T",
CentralBxOnly = cms.bool(True),
EtaMatchingBins = cms.vdouble(0.0, 2.5),
GMTReadoutCollection = cms.InputTag(""),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(2.5),
L1MinPt = cms.double(0.0),
L1MinQuality = cms.uint32(7),
MatchDR = cms.vdouble(0.3),
MatchType = cms.uint32(0),
OfflineSeedLabel = cms.untracked.InputTag("hltL2OfflineMuonSeeds"),
Propagator = cms.string('SteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
SetMinPtBarrelTo = cms.double(3.5),
SetMinPtEndcapTo = cms.double(1.0),
SortType = cms.uint32(0),
UseOfflineSeed = cms.untracked.bool(True),
UseUnassociatedL1 = cms.bool(False)
)
process.hltL2MuonSeedsAllBx = cms.EDProducer("L2MuonSeedGeneratorFromL1T",
CentralBxOnly = cms.bool(False),
EtaMatchingBins = cms.vdouble(0.0, 2.5),
GMTReadoutCollection = cms.InputTag(""),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(2.5),
L1MinPt = cms.double(0.0),
L1MinQuality = cms.uint32(7),
MatchDR = cms.vdouble(0.3),
MatchType = cms.uint32(0),
OfflineSeedLabel = cms.untracked.InputTag("hltL2OfflineMuonSeeds"),
Propagator = cms.string('SteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
SetMinPtBarrelTo = cms.double(3.5),
SetMinPtEndcapTo = cms.double(1.0),
SortType = cms.uint32(0),
UseOfflineSeed = cms.untracked.bool(True),
UseUnassociatedL1 = cms.bool(False)
)
process.hltL2MuonSeedsOpenMu = cms.EDProducer("L2MuonSeedGeneratorFromL1T",
CentralBxOnly = cms.bool(True),
EtaMatchingBins = cms.vdouble(0.0, 2.5),
GMTReadoutCollection = cms.InputTag(""),
InputObjects = cms.InputTag("hltGtStage2Digis","Muon"),
L1MaxEta = cms.double(2.5),
L1MinPt = cms.double(0.0),
L1MinQuality = cms.uint32(3),
MatchDR = cms.vdouble(0.3),
MatchType = cms.uint32(0),
OfflineSeedLabel = cms.untracked.InputTag("hltL2OfflineMuonSeeds"),
Propagator = cms.string('SteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
SetMinPtBarrelTo = cms.double(3.5),
SetMinPtEndcapTo = cms.double(1.0),
SortType = cms.uint32(0),
UseOfflineSeed = cms.untracked.bool(True),
UseUnassociatedL1 = cms.bool(False)
)
process.hltL2Muons = cms.EDProducer("L2MuonProducer",
DoSeedRefit = cms.bool(False),
InputObjects = cms.InputTag("hltL2MuonSeeds"),
L2TrajBuilderParameters = cms.PSet(
BWFilterParameters = cms.PSet(
BWSeedType = cms.string('fromGenerator'),
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableGEMMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('outsideIn'),
GEMRecSegmentLabel = cms.InputTag("hltGemRecHits"),
MaxChi2 = cms.double(100.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
DoBackwardFilter = cms.bool(True),
DoRefit = cms.bool(False),
DoSeedRefit = cms.bool(False),
FilterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableGEMMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('insideOut'),
GEMRecSegmentLabel = cms.InputTag("hltGemRecHits"),
MaxChi2 = cms.double(1000.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
NavigationType = cms.string('Standard'),
SeedPosition = cms.string('in'),
SeedPropagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
)
),
MuonTrajectoryBuilder = cms.string('Exhaustive'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPFastSteppingHelixPropagatorAny',
'hltESPFastSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPosition = cms.vdouble(0.0, 0.0, 0.0),
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorOpposite')
),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL2MuonsAllBx = cms.EDProducer("L2MuonProducer",
DoSeedRefit = cms.bool(False),
InputObjects = cms.InputTag("hltL2MuonSeedsAllBx"),
L2TrajBuilderParameters = cms.PSet(
BWFilterParameters = cms.PSet(
BWSeedType = cms.string('fromGenerator'),
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('outsideIn'),
MaxChi2 = cms.double(100.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
DoBackwardFilter = cms.bool(True),
DoRefit = cms.bool(False),
DoSeedRefit = cms.bool(False),
FilterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('insideOut'),
MaxChi2 = cms.double(1000.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
NavigationType = cms.string('Standard'),
SeedPosition = cms.string('in'),
SeedPropagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
)
),
MuonTrajectoryBuilder = cms.string('Exhaustive'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPFastSteppingHelixPropagatorAny',
'hltESPFastSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPosition = cms.vdouble(0.0, 0.0, 0.0),
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorOpposite')
),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL2MuonsOpenMu = cms.EDProducer("L2MuonProducer",
DoSeedRefit = cms.bool(False),
InputObjects = cms.InputTag("hltL2MuonSeedsOpenMu"),
L2TrajBuilderParameters = cms.PSet(
BWFilterParameters = cms.PSet(
BWSeedType = cms.string('fromGenerator'),
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('outsideIn'),
MaxChi2 = cms.double(100.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
DoBackwardFilter = cms.bool(True),
DoRefit = cms.bool(False),
DoSeedRefit = cms.bool(False),
FilterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableRPCMeasurement = cms.bool(True),
FitDirection = cms.string('insideOut'),
MaxChi2 = cms.double(1000.0),
MuonTrajectoryUpdatorParameters = cms.PSet(
ExcludeRPCFromFit = cms.bool(False),
Granularity = cms.int32(0),
MaxChi2 = cms.double(25.0),
RescaleError = cms.bool(False),
RescaleErrorFactor = cms.double(100.0),
UseInvalidHits = cms.bool(True)
),
NumberOfSigma = cms.double(3.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RPCRecSegmentLabel = cms.InputTag("hltRpcRecHits")
),
NavigationType = cms.string('Standard'),
SeedPosition = cms.string('in'),
SeedPropagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
)
),
MuonTrajectoryBuilder = cms.string('Exhaustive'),
SeedTransformerParameters = cms.PSet(
Fitter = cms.string('hltESPKFFittingSmootherForL2Muon'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
NMinRecHits = cms.uint32(2),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RescaleError = cms.double(100.0),
UseSubRecHits = cms.bool(False)
),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPFastSteppingHelixPropagatorAny',
'hltESPFastSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPosition = cms.vdouble(0.0, 0.0, 0.0),
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorOpposite')
),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL2OfflineMuonSeeds = cms.EDProducer("MuonSeedGenerator",
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
CSC_01 = cms.vdouble(
0.166, 0.0, 0.0, 0.031, 0.0,
0.0
),
CSC_01_1_scale = cms.vdouble(-1.915329, 0.0),
CSC_02 = cms.vdouble(
0.612, -0.207, 0.0, 0.067, -0.001,
0.0
),
CSC_03 = cms.vdouble(
0.787, -0.338, 0.029, 0.101, -0.008,
0.0
),
CSC_12 = cms.vdouble(
-0.161, 0.254, -0.047, 0.042, -0.007,
0.0
),
CSC_12_1_scale = cms.vdouble(-6.434242, 0.0),
CSC_12_2_scale = cms.vdouble(-1.63622, 0.0),
CSC_12_3_scale = cms.vdouble(-1.63622, 0.0),
CSC_13 = cms.vdouble(
0.901, -1.302, 0.533, 0.045, 0.005,
0.0
),
CSC_13_2_scale = cms.vdouble(-6.077936, 0.0),
CSC_13_3_scale = cms.vdouble(-1.701268, 0.0),
CSC_14 = cms.vdouble(
0.606, -0.181, -0.002, 0.111, -0.003,
0.0
),
CSC_14_3_scale = cms.vdouble(-1.969563, 0.0),
CSC_23 = cms.vdouble(
-0.081, 0.113, -0.029, 0.015, 0.008,
0.0
),
CSC_23_1_scale = cms.vdouble(-19.084285, 0.0),
CSC_23_2_scale = cms.vdouble(-6.079917, 0.0),
CSC_24 = cms.vdouble(
0.004, 0.021, -0.002, 0.053, 0.0,
0.0
),
CSC_24_1_scale = cms.vdouble(-6.055701, 0.0),
CSC_34 = cms.vdouble(
0.062, -0.067, 0.019, 0.021, 0.003,
0.0
),
CSC_34_1_scale = cms.vdouble(-11.520507, 0.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DT_12 = cms.vdouble(
0.183, 0.054, -0.087, 0.028, 0.002,
0.0
),
DT_12_1_scale = cms.vdouble(-3.692398, 0.0),
DT_12_2_scale = cms.vdouble(-3.518165, 0.0),
DT_13 = cms.vdouble(
0.315, 0.068, -0.127, 0.051, -0.002,
0.0
),
DT_13_1_scale = cms.vdouble(-4.520923, 0.0),
DT_13_2_scale = cms.vdouble(-4.257687, 0.0),
DT_14 = cms.vdouble(
0.359, 0.052, -0.107, 0.072, -0.004,
0.0
),
DT_14_1_scale = cms.vdouble(-5.644816, 0.0),
DT_14_2_scale = cms.vdouble(-4.808546, 0.0),
DT_23 = cms.vdouble(
0.13, 0.023, -0.057, 0.028, 0.004,
0.0
),
DT_23_1_scale = cms.vdouble(-5.320346, 0.0),
DT_23_2_scale = cms.vdouble(-5.117625, 0.0),
DT_24 = cms.vdouble(
0.176, 0.014, -0.051, 0.051, 0.003,
0.0
),
DT_24_1_scale = cms.vdouble(-7.490909, 0.0),
DT_24_2_scale = cms.vdouble(-6.63094, 0.0),
DT_34 = cms.vdouble(
0.044, 0.004, -0.013, 0.029, 0.003,
0.0
),
DT_34_1_scale = cms.vdouble(-13.783765, 0.0),
DT_34_2_scale = cms.vdouble(-11.901897, 0.0),
EnableCSCMeasurement = cms.bool(True),
EnableDTMeasurement = cms.bool(True),
EnableME0Measurement = cms.bool(False),
ME0RecSegmentLabel = cms.InputTag("me0Segments"),
OL_1213 = cms.vdouble(
0.96, -0.737, 0.0, 0.052, 0.0,
0.0
),
OL_1213_0_scale = cms.vdouble(-4.488158, 0.0),
OL_1222 = cms.vdouble(
0.848, -0.591, 0.0, 0.062, 0.0,
0.0
),
OL_1222_0_scale = cms.vdouble(-5.810449, 0.0),
OL_1232 = cms.vdouble(
0.184, 0.0, 0.0, 0.066, 0.0,
0.0
),
OL_1232_0_scale = cms.vdouble(-5.964634, 0.0),
OL_2213 = cms.vdouble(
0.117, 0.0, 0.0, 0.044, 0.0,
0.0
),
OL_2213_0_scale = cms.vdouble(-7.239789, 0.0),
OL_2222 = cms.vdouble(
0.107, 0.0, 0.0, 0.04, 0.0,
0.0
),
OL_2222_0_scale = cms.vdouble(-7.667231, 0.0),
SMB_10 = cms.vdouble(
1.387, -0.038, 0.0, 0.19, 0.0,
0.0
),
SMB_10_0_scale = cms.vdouble(2.448566, 0.0),
SMB_11 = cms.vdouble(
1.247, 0.72, -0.802, 0.229, -0.075,
0.0
),
SMB_11_0_scale = cms.vdouble(2.56363, 0.0),
SMB_12 = cms.vdouble(
2.128, -0.956, 0.0, 0.199, 0.0,
0.0
),
SMB_12_0_scale = cms.vdouble(2.283221, 0.0),
SMB_20 = cms.vdouble(
1.011, -0.052, 0.0, 0.188, 0.0,
0.0
),
SMB_20_0_scale = cms.vdouble(1.486168, 0.0),
SMB_21 = cms.vdouble(
1.043, -0.124, 0.0, 0.183, 0.0,
0.0
),
SMB_21_0_scale = cms.vdouble(1.58384, 0.0),
SMB_22 = cms.vdouble(
1.474, -0.758, 0.0, 0.185, 0.0,
0.0
),
SMB_22_0_scale = cms.vdouble(1.346681, 0.0),
SMB_30 = cms.vdouble(
0.505, -0.022, 0.0, 0.215, 0.0,
0.0
),
SMB_30_0_scale = cms.vdouble(-3.629838, 0.0),
SMB_31 = cms.vdouble(
0.549, -0.145, 0.0, 0.207, 0.0,
0.0
),
SMB_31_0_scale = cms.vdouble(-3.323768, 0.0),
SMB_32 = cms.vdouble(
0.67, -0.327, 0.0, 0.22, 0.0,
0.0
),
SMB_32_0_scale = cms.vdouble(-3.054156, 0.0),
SME_11 = cms.vdouble(
3.295, -1.527, 0.112, 0.378, 0.02,
0.0
),
SME_11_0_scale = cms.vdouble(1.325085, 0.0),
SME_12 = cms.vdouble(
0.102, 0.599, 0.0, 0.38, 0.0,
0.0
),
SME_12_0_scale = cms.vdouble(2.279181, 0.0),
SME_13 = cms.vdouble(
-1.286, 1.711, 0.0, 0.356, 0.0,
0.0
),
SME_13_0_scale = cms.vdouble(0.104905, 0.0),
SME_21 = cms.vdouble(
-0.529, 1.194, -0.358, 0.472, 0.086,
0.0
),
SME_21_0_scale = cms.vdouble(-0.040862, 0.0),
SME_22 = cms.vdouble(
-1.207, 1.491, -0.251, 0.189, 0.243,
0.0
),
SME_22_0_scale = cms.vdouble(-3.457901, 0.0),
SME_31 = cms.vdouble(
-1.594, 1.482, -0.317, 0.487, 0.097,
0.0
),
SME_32 = cms.vdouble(
-0.901, 1.333, -0.47, 0.41, 0.073,
0.0
),
SME_41 = cms.vdouble(
-0.003, 0.005, 0.005, 0.608, 0.076,
0.0
),
SME_42 = cms.vdouble(
-0.003, 0.005, 0.005, 0.608, 0.076,
0.0
),
beamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
crackEtas = cms.vdouble(0.2, 1.6, 1.7),
crackWindow = cms.double(0.04),
deltaEtaCrackSearchWindow = cms.double(0.25),
deltaEtaSearchWindow = cms.double(0.2),
deltaPhiSearchWindow = cms.double(0.25),
scaleDT = cms.bool(True)
)
process.hltL2SelectorForL3IO = cms.EDProducer("HLTMuonL2SelectorForL3IO",
InputLinks = cms.InputTag("hltIterL3OIL3MuonsLinksCombination"),
MaxNormalizedChi2 = cms.double(20.0),
MaxPtDifference = cms.double(0.3),
MinNhits = cms.int32(1),
MinNmuonHits = cms.int32(1),
applyL3Filters = cms.bool(False),
l2Src = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
l3OISrc = cms.InputTag("hltIterL3OIL3MuonCandidates")
)
process.hltL2SelectorForL3IONoVtx = cms.EDProducer("HLTMuonL2SelectorForL3IO",
InputLinks = cms.InputTag("hltIterL3OIL3MuonsLinksCombinationNoVtx"),
MaxNormalizedChi2 = cms.double(20.0),
MaxPtDifference = cms.double(0.3),
MinNhits = cms.int32(1),
MinNmuonHits = cms.int32(1),
applyL3Filters = cms.bool(False),
l2Src = cms.InputTag("hltL2Muons"),
l3OISrc = cms.InputTag("hltIterL3OIL3MuonCandidatesNoVtx")
)
process.hltL2SelectorForL3IOOpenMu = cms.EDProducer("HLTMuonL2SelectorForL3IO",
InputLinks = cms.InputTag("hltIterL3OIL3MuonsLinksCombinationOpenMu"),
MaxNormalizedChi2 = cms.double(20.0),
MaxPtDifference = cms.double(0.3),
MinNhits = cms.int32(1),
MinNmuonHits = cms.int32(1),
applyL3Filters = cms.bool(False),
l2Src = cms.InputTag("hltL2MuonsOpenMu","UpdatedAtVtx"),
l3OISrc = cms.InputTag("hltIterL3OIL3MuonCandidatesOpenMu")
)
process.hltL2TauJets = cms.EDProducer("L2TauJetsMerger",
EtMin = cms.double(20.0),
JetSrc = cms.VInputTag(
"hltAkIsoTau1Regional", "hltAkIsoTau2Regional", "hltAkIsoTau3Regional", "hltAkIsoTau4Regional", "hltAkIsoTau5Regional",
"hltAkIsoTau6Regional", "hltAkIsoTau7Regional", "hltAkIsoTau8Regional", "hltAkIsoTau9Regional", "hltAkIsoTau10Regional",
"hltAkIsoTau11Regional", "hltAkIsoTau12Regional"
)
)
process.hltL2TauJetsIso = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltL2TauIsoFilter"),
TriggerTypes = cms.vint32(84)
)
process.hltL2TauJetsIsoL1TauSeeded = cms.EDProducer("HLTCaloJetCollectionProducer",
HLTObject = cms.InputTag("hltL2TauIsoFilterL1TauSeeded"),
TriggerTypes = cms.vint32(84)
)
process.hltL2TauJetsL1TauSeeded = cms.EDProducer("L2TauJetsMerger",
EtMin = cms.double(20.0),
JetSrc = cms.VInputTag("hltAkIsoTauL1sTauVeryBigORSeededRegional")
)
process.hltL2TauPixelIsoTagProducer = cms.EDProducer("L2TauPixelIsoTagProducer",
BeamSpotSrc = cms.InputTag("hltOnlineBeamSpot"),
IsoConeMax = cms.double(0.4),
IsoConeMin = cms.double(0.15),
JetSrc = cms.InputTag("hltL2TausForPixelIsolation"),
MaxNumberPV = cms.int32(1),
TrackMaxDxy = cms.double(0.2),
TrackMaxNChi2 = cms.double(1000.0),
TrackMinNHits = cms.int32(3),
TrackMinPt = cms.double(0.9),
TrackPVMaxDZ = cms.double(0.1),
TrackSrc = cms.InputTag(""),
VertexSrc = cms.InputTag("hltPixelVerticesRegForTau")
)
process.hltL2TauPixelIsoTagProducerL1TauSeeded = cms.EDProducer("L2TauPixelIsoTagProducer",
BeamSpotSrc = cms.InputTag("hltOnlineBeamSpot"),
IsoConeMax = cms.double(0.4),
IsoConeMin = cms.double(0.15),
JetSrc = cms.InputTag("hltL2TausForPixelIsolationL1TauSeeded"),
MaxNumberPV = cms.int32(1),
TrackMaxDxy = cms.double(0.2),
TrackMaxNChi2 = cms.double(1000.0),
TrackMinNHits = cms.int32(3),
TrackMinPt = cms.double(0.9),
TrackPVMaxDZ = cms.double(0.1),
TrackSrc = cms.InputTag(""),
VertexSrc = cms.InputTag("hltPixelVerticesRegL1TauSeeded")
)
process.hltL3CaloMuonCorrectedVVVLIsolations = cms.EDProducer("L2MuonIsolationProducer",
ExtractorPSet = cms.PSet(
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
ComponentName = cms.string('CaloExtractor'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DepositLabel = cms.untracked.string('EcalPlusHcal'),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Vertex_Constraint_XY = cms.bool(False),
Vertex_Constraint_Z = cms.bool(False),
Weight_E = cms.double(1.0),
Weight_H = cms.double(1.0)
),
IsolatorPSet = cms.PSet(
AndOrCuts = cms.bool(True),
ComponentName = cms.string('CutsIsolatorWithCorrection'),
ConeSizes = cms.vdouble(0.2),
ConeSizesRel = cms.vdouble(0.2),
CutAbsoluteIso = cms.bool(True),
CutRelativeIso = cms.bool(False),
EffAreaSFBarrel = cms.double(1.0),
EffAreaSFEndcap = cms.double(0.883),
EtaBounds = cms.vdouble(2.411),
EtaBoundsRel = cms.vdouble(2.411),
ReturnAbsoluteSum = cms.bool(True),
ReturnRelativeSum = cms.bool(False),
RhoMax = cms.double(99999999.0),
RhoScaleBarrel = cms.double(0.836),
RhoScaleEndcap = cms.double(1.0),
RhoSrc = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
Thresholds = cms.vdouble(99999999.0),
ThresholdsRel = cms.vdouble(99999999.0),
UseRhoCorrection = cms.bool(True)
),
StandAloneCollectionLabel = cms.InputTag("hltIterL3MuonCandidates"),
WriteIsolatorFloat = cms.bool(True)
)
process.hltL3DisplacedDijet100FullTracksTrackIPProducerLowPt = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(False),
computeProbabilities = cms.bool(False),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltL3DisplacedDijetFullTracksJetTracksAssociatorAtVertexLowPt"),
maximumChiSquared = cms.double(20.0),
maximumLongitudinalImpactParameter = cms.double(0.1),
maximumTransverseImpactParameter = cms.double(0.1),
minimumNumberOfHits = cms.int32(8),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltFastPVPixelVertices"),
useTrackQuality = cms.bool(False)
)
process.hltL3DisplacedDijet100FullTracksTrackIPProducerMidPt = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(False),
computeProbabilities = cms.bool(False),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltL3DisplacedDijetFullTracksJetTracksAssociatorAtVertexMidPt"),
maximumChiSquared = cms.double(20.0),
maximumLongitudinalImpactParameter = cms.double(0.1),
maximumTransverseImpactParameter = cms.double(0.1),
minimumNumberOfHits = cms.int32(8),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltFastPVPixelVertices"),
useTrackQuality = cms.bool(False)
)
process.hltL3DisplacedDijetFullTracksJetTagProducerFromIPLowPt = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPDisplacedDijethltPromptTrackCountingESProducer'),
tagInfos = cms.VInputTag("hltL3DisplacedDijet100FullTracksTrackIPProducerLowPt")
)
process.hltL3DisplacedDijetFullTracksJetTagProducerFromIPMidPt = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPDisplacedDijethltPromptTrackCountingESProducer'),
tagInfos = cms.VInputTag("hltL3DisplacedDijet100FullTracksTrackIPProducerMidPt")
)
process.hltL3DisplacedDijetFullTracksJetTracksAssociatorAtVertexLowPt = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltCentralCaloJetptLowPtCollectionProducer"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltIter0PFlowTrackSelectionHighPurityForBTag"),
useAssigned = cms.bool(False)
)
process.hltL3DisplacedDijetFullTracksJetTracksAssociatorAtVertexMidPt = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltCentralCaloJetptMidPtCollectionProducer"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltIter0PFlowTrackSelectionHighPurityForBTag"),
useAssigned = cms.bool(False)
)
process.hltL3MuonCombRelIsolationVVVL = cms.EDProducer("L3MuonCombinedRelativeIsolationProducer",
CaloDepositsLabel = cms.InputTag("hltL3CaloMuonCorrectedVVVLIsolations"),
CaloExtractorPSet = cms.PSet(
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
ComponentName = cms.string('CaloExtractor'),
DR_Max = cms.double(0.2),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DepositLabel = cms.untracked.string('EcalPlusHcal'),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Vertex_Constraint_XY = cms.bool(False),
Vertex_Constraint_Z = cms.bool(False),
Weight_E = cms.double(1.0),
Weight_H = cms.double(1.0)
),
CutsPSet = cms.PSet(
ComponentName = cms.string('SimpleCuts'),
ConeSizes = cms.vdouble(0.2),
EtaBounds = cms.vdouble(2.411),
Thresholds = cms.vdouble(1.2),
applyCutsORmaxNTracks = cms.bool(False),
maxNTracks = cms.int32(-1)
),
OutputMuIsoDeposits = cms.bool(True),
TrackPt_Min = cms.double(-1.0),
TrkExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('PixelTrackExtractor'),
DR_Max = cms.double(0.2),
DR_Veto = cms.double(0.01),
DR_VetoPt = cms.double(0.025),
DepositLabel = cms.untracked.string('PXLS'),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
PropagateTracksToRadius = cms.bool(True),
PtVeto_Min = cms.double(2.0),
Pt_Min = cms.double(-1.0),
ReferenceRadius = cms.double(6.0),
VetoLeadingTrack = cms.bool(True),
inputTrackCollection = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurity")
),
UseCaloIso = cms.bool(True),
UseRhoCorrectedCaloDeposits = cms.bool(True),
inputMuonCollection = cms.InputTag("hltIterL3MuonCandidates"),
printDebug = cms.bool(False)
)
process.hltL3MuonRelTrkIsolationVVL = cms.EDProducer("L3MuonCombinedRelativeIsolationProducer",
CaloDepositsLabel = cms.InputTag("notUsed"),
CaloExtractorPSet = cms.PSet(
CaloTowerCollectionLabel = cms.InputTag("notUsed"),
ComponentName = cms.string('CaloExtractor'),
DR_Max = cms.double(0.3),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DepositLabel = cms.untracked.string('EcalPlusHcal'),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Vertex_Constraint_XY = cms.bool(False),
Vertex_Constraint_Z = cms.bool(False),
Weight_E = cms.double(1.0),
Weight_H = cms.double(1.0)
),
CutsPSet = cms.PSet(
ComponentName = cms.string('SimpleCuts'),
ConeSizes = cms.vdouble(0.3),
EtaBounds = cms.vdouble(2.411),
Thresholds = cms.vdouble(0.4),
applyCutsORmaxNTracks = cms.bool(False),
maxNTracks = cms.int32(-1)
),
OutputMuIsoDeposits = cms.bool(True),
TrackPt_Min = cms.double(-1.0),
TrkExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('PixelTrackExtractor'),
DR_Max = cms.double(0.3),
DR_Veto = cms.double(0.01),
DR_VetoPt = cms.double(0.025),
DepositLabel = cms.untracked.string('PXLS'),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
PropagateTracksToRadius = cms.bool(False),
PtVeto_Min = cms.double(2.0),
Pt_Min = cms.double(-1.0),
ReferenceRadius = cms.double(6.0),
VetoLeadingTrack = cms.bool(False),
inputTrackCollection = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurity")
),
UseCaloIso = cms.bool(False),
UseRhoCorrectedCaloDeposits = cms.bool(False),
inputMuonCollection = cms.InputTag("hltIterL3MuonCandidates"),
printDebug = cms.bool(False)
)
process.hltL3MuonVertex = cms.EDProducer("VertexFromTrackProducer",
beamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
isRecoCandidate = cms.bool(True),
trackLabel = cms.InputTag("hltIterL3MuonCandidates"),
triggerFilterElectronsSrc = cms.InputTag("notUsed"),
triggerFilterMuonsSrc = cms.InputTag("notUsed"),
useBeamSpot = cms.bool(True),
useTriggerFilterElectrons = cms.bool(False),
useTriggerFilterMuons = cms.bool(False),
useVertex = cms.bool(False),
verbose = cms.untracked.bool(False),
vertexLabel = cms.InputTag("notUsed")
)
process.hltL3MuonVertexNoVtx = cms.EDProducer("VertexFromTrackProducer",
beamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
isRecoCandidate = cms.bool(True),
trackLabel = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
triggerFilterElectronsSrc = cms.InputTag("notUsed"),
triggerFilterMuonsSrc = cms.InputTag("notUsed"),
useBeamSpot = cms.bool(True),
useTriggerFilterElectrons = cms.bool(False),
useTriggerFilterMuons = cms.bool(False),
useVertex = cms.bool(False),
verbose = cms.untracked.bool(False),
vertexLabel = cms.InputTag("notUsed")
)
process.hltL3Muons = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsOIState", "hltL3MuonsOIHit", "hltL3MuonsIOHit")
)
process.hltL3MuonsIOHit = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltL3TkTracksFromL2IOHit"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(0.2),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("pixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsIterL3IO = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutGEM = cms.double(1.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
GEMRecHitLabel = cms.InputTag("hltGemRecHits"),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.04),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(True),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2SelectorForL3IO"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
matchToSeeds = cms.bool(True),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIter0IterL3MuonTrackSelectionHighPurity"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("hltIterL3MuonPixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsIterL3IONoVtx = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.04),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(True),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2SelectorForL3IONoVtx"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
matchToSeeds = cms.bool(True),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIter2IterL3MuonMergedNoVtx"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("hltIterL3MuonPixelVerticesNoVtx")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsIterL3IOOpenMu = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.04),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(True),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(True),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2SelectorForL3IOOpenMu"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
matchToSeeds = cms.bool(True),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIter2IterL3MuonMergedOpenMu"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("hltIterL3MuonPixelVerticesOpenMu")
),
MuonCollectionLabel = cms.InputTag("hltL2MuonsOpenMu","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(False),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsIterL3Links = cms.EDProducer("MuonLinksProducer",
inputCollection = cms.InputTag("hltIterL3Muons")
)
process.hltL3MuonsIterL3LinksNoVtx = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltIter2IterL3FromL1MuonMergedNoVtx"),
LinkCollection = cms.InputTag("hltIterL3MuonsFromL2LinksCombinationNoVtx"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.19)
)
process.hltL3MuonsIterL3LinksOpenMu = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltIter2IterL3FromL1MuonMergedOpenMu"),
LinkCollection = cms.InputTag("hltIterL3MuonsFromL2LinksCombinationOpenMu"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.19)
)
process.hltL3MuonsIterL3OI = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutGEM = cms.double(1.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
GEMRecHitLabel = cms.InputTag("hltGemRecHits"),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(False),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIterL3OIMuonTrackSelectionHighPurity"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("Notused")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsIterL3OINoVtx = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(False),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2Muons"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIterL3OIMuonTrackSelectionHighPurityNoVtx"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("Notused")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsIterL3OIOpenMu = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitFlag = cms.bool(True),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
DeltaEta = cms.double(0.2),
DeltaPhi = cms.double(0.15),
DeltaR = cms.double(0.025),
DeltaZ = cms.double(24.2),
EtaR_UpperLimit_Par1 = cms.double(0.25),
EtaR_UpperLimit_Par2 = cms.double(0.15),
Eta_fixed = cms.bool(True),
Eta_min = cms.double(0.1),
MeasurementTrackerName = cms.InputTag("hltESPMeasurementTracker"),
OnDemand = cms.int32(-1),
PhiR_UpperLimit_Par1 = cms.double(0.6),
PhiR_UpperLimit_Par2 = cms.double(0.2),
Phi_fixed = cms.bool(True),
Phi_min = cms.double(0.1),
Pt_fixed = cms.bool(False),
Pt_min = cms.double(3.0),
Rescale_Dz = cms.double(4.0),
Rescale_eta = cms.double(3.0),
Rescale_phi = cms.double(3.0),
UseVertex = cms.bool(False),
Z_fixed = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
input = cms.InputTag("hltL2MuonsOpenMu","UpdatedAtVtx"),
maxRegions = cms.int32(2),
precise = cms.bool(True),
vertexCollection = cms.InputTag("pixelVertices")
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltIterL3OIMuonTrackSelectionHighPurityOpenMu"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(9999.0),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("Notused")
),
MuonCollectionLabel = cms.InputTag("hltL2MuonsOpenMu","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsLinksCombination = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3MuonsOIState", "hltL3MuonsOIHit", "hltL3MuonsIOHit")
)
process.hltL3MuonsOIHit = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltL3TkTracksFromL2OIHit"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(0.2),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("pixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3MuonsOIState = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltL3TkTracksFromL2OIState"),
tkTrajMaxChi2 = cms.double(9999.0),
tkTrajMaxDXYBeamSpot = cms.double(0.2),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("pixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3NoFiltersNoVtxMuonCandidates = cms.EDProducer("L3MuonCandidateProducer",
InputLinksObjects = cms.InputTag("hltL3NoFiltersNoVtxMuonsLinksCombination"),
InputObjects = cms.InputTag("hltL3NoFiltersNoVtxMuons"),
MuonPtOption = cms.string('Tracker')
)
process.hltL3NoFiltersNoVtxMuons = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3NoFiltersNoVtxMuonsOIState", "hltL3NoFiltersNoVtxMuonsOIHit", "hltL3NoFiltersNoVtxMuonsIOHit")
)
process.hltL3NoFiltersNoVtxMuonsIOHit = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltL3NoFiltersTkTracksFromL2IOHitNoVtx"),
tkTrajMaxChi2 = cms.double(9e+99),
tkTrajMaxDXYBeamSpot = cms.double(9e+99),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("pixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3NoFiltersNoVtxMuonsLinksCombination = cms.EDProducer("L3TrackLinksCombiner",
labels = cms.VInputTag("hltL3NoFiltersNoVtxMuonsOIState", "hltL3NoFiltersNoVtxMuonsOIHit", "hltL3NoFiltersNoVtxMuonsIOHit")
)
process.hltL3NoFiltersNoVtxMuonsOIHit = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltL3NoFiltersTkTracksFromL2OIHitNoVtx"),
tkTrajMaxChi2 = cms.double(9e+99),
tkTrajMaxDXYBeamSpot = cms.double(9e+99),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("pixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3NoFiltersNoVtxMuonsOIState = cms.EDProducer("L3MuonProducer",
L3TrajBuilderParameters = cms.PSet(
GlbRefitterParameters = cms.PSet(
CSCRecSegmentLabel = cms.InputTag("hltCscSegments"),
Chi2CutCSC = cms.double(150.0),
Chi2CutDT = cms.double(10.0),
Chi2CutRPC = cms.double(1.0),
DTRecSegmentLabel = cms.InputTag("hltDt4DSegments"),
DYTthrs = cms.vint32(30, 15),
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
HitThreshold = cms.int32(1),
MuonHitsOption = cms.int32(1),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
PropDirForCosmics = cms.bool(False),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
SkipStation = cms.int32(-1),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrackerSkipSection = cms.int32(-1),
TrackerSkipSystem = cms.int32(-1)
),
GlobalMuonTrackMatcher = cms.PSet(
Chi2Cut_1 = cms.double(50.0),
Chi2Cut_2 = cms.double(50.0),
Chi2Cut_3 = cms.double(200.0),
DeltaDCut_1 = cms.double(40.0),
DeltaDCut_2 = cms.double(10.0),
DeltaDCut_3 = cms.double(15.0),
DeltaRCut_1 = cms.double(0.1),
DeltaRCut_2 = cms.double(0.2),
DeltaRCut_3 = cms.double(1.0),
Eta_threshold = cms.double(1.2),
LocChi2Cut = cms.double(0.001),
MinP = cms.double(2.5),
MinPt = cms.double(1.0),
Propagator = cms.string('hltESPSmartPropagator'),
Pt_threshold1 = cms.double(0.0),
Pt_threshold2 = cms.double(999999999.0),
Quality_1 = cms.double(20.0),
Quality_2 = cms.double(15.0),
Quality_3 = cms.double(7.0)
),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
RefitRPCHits = cms.bool(True),
ScaleTECxFactor = cms.double(-1.0),
ScaleTECyFactor = cms.double(-1.0),
TrackTransformer = cms.PSet(
DoPredictionsOnly = cms.bool(False),
Fitter = cms.string('hltESPL3MuKFTrajectoryFitter'),
MuonRecHitBuilder = cms.string('hltESPMuonTransientTrackingRecHitBuilder'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RefitDirection = cms.string('insideOut'),
RefitRPCHits = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
TrackerPropagator = cms.string('SteppingHelixPropagatorAny'),
TrackerRecHitBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
tkTrajBeamSpot = cms.InputTag("hltOnlineBeamSpot"),
tkTrajLabel = cms.InputTag("hltL3TkTracksFromL2OIStateNoVtx"),
tkTrajMaxChi2 = cms.double(9e+99),
tkTrajMaxDXYBeamSpot = cms.double(9e+99),
tkTrajUseVertex = cms.bool(False),
tkTrajVertex = cms.InputTag("pixelVertices")
),
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSmartPropagatorAny',
'SteppingHelixPropagatorAny',
'hltESPSmartPropagator',
'hltESPSteppingHelixPropagatorOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TrackLoaderParameters = cms.PSet(
DoSmoothing = cms.bool(True),
MuonSeededTracksInstance = cms.untracked.string('L2Seeded'),
MuonUpdatorAtVertexParameters = cms.PSet(
BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3),
MaxChi2 = cms.double(1000000.0),
Propagator = cms.string('hltESPSteppingHelixPropagatorOpposite')
),
PutTkTrackIntoEvent = cms.untracked.bool(False),
SmoothTkTrack = cms.untracked.bool(False),
Smoother = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
VertexConstraint = cms.bool(False),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
)
process.hltL3NoFiltersNoVtxTkFromL2OICombination = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3NoFiltersNoVtxMuonsOIState", "hltL3NoFiltersNoVtxMuonsOIHit")
)
process.hltL3NoFiltersNoVtxTkTracksMergeStep1 = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(100.0),
LostHitPenalty = cms.double(0.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltL3TkTracksFromL2OIStateNoVtx", "hltL3NoFiltersTkTracksFromL2OIHitNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltL3TkTracksFromL2OIStateNoVtx", "hltL3NoFiltersTkTracksFromL2OIHitNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltL3NoFiltersNoVtxTrajSeedIOHit = cms.EDProducer("TSGFromL2Muon",
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('PropagatorWithMaterial'),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TkSeedGenerator = cms.PSet(
ComponentName = cms.string('DualByL2TSG'),
L3TkCollectionA = cms.InputTag("hltL3NoFiltersNoVtxTkFromL2OICombination"),
PSetNames = cms.vstring(
'skipTSG',
'iterativeTSG'
),
iterativeTSG = cms.PSet(
ComponentName = cms.string('CombinedTSG'),
PSetNames = cms.vstring(
'firstTSG',
'secondTSG'
),
firstTSG = cms.PSet(
ComponentName = cms.string('TSGFromOrderedHits'),
OrderedHitsFactoryPSet = cms.PSet(
ComponentName = cms.string('StandardHitTripletGenerator'),
GeneratorPSet = cms.PSet(
ComponentName = cms.string('PixelTripletHLTGenerator'),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
extraHitRPhitolerance = cms.double(0.06),
extraHitRZtolerance = cms.double(0.06),
maxElement = cms.uint32(0),
phiPreFiltering = cms.double(0.3),
useBending = cms.bool(True),
useFixedPreFiltering = cms.bool(False),
useMultScattering = cms.bool(True)
),
SeedingLayers = cms.InputTag("hltPixelLayerTriplets")
),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromConsecutiveHitsCreator')
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
secondTSG = cms.PSet(
ComponentName = cms.string('TSGFromOrderedHits'),
OrderedHitsFactoryPSet = cms.PSet(
ComponentName = cms.string('StandardHitPairGenerator'),
SeedingLayers = cms.InputTag("hltPixelLayerPairsLegacy"),
maxElement = cms.uint32(0),
useOnDemandTracker = cms.untracked.int32(0)
),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromConsecutiveHitsCreator')
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
thirdTSG = cms.PSet(
ComponentName = cms.string('DualByEtaTSG'),
PSetNames = cms.vstring(
'endcapTSG',
'barrelTSG'
),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromConsecutiveHitsCreator')
),
barrelTSG = cms.PSet(
),
endcapTSG = cms.PSet(
ComponentName = cms.string('TSGFromOrderedHits'),
OrderedHitsFactoryPSet = cms.PSet(
ComponentName = cms.string('StandardHitPairGenerator'),
SeedingLayers = cms.InputTag("hltMixedLayerPairs"),
maxElement = cms.uint32(0),
useOnDemandTracker = cms.untracked.int32(0)
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
etaSeparation = cms.double(2.0)
)
),
skipTSG = cms.PSet(
)
),
TrackerSeedCleaner = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
cleanerFromSharedHits = cms.bool(True),
directionCleaner = cms.bool(True),
ptCleaner = cms.bool(True)
)
)
process.hltL3NoFiltersNoVtxTrajSeedOIHit = cms.EDProducer("TSGFromL2Muon",
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
MuonTrackingRegionBuilder = cms.PSet(
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'PropagatorWithMaterial',
'hltESPSmartPropagatorAnyOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TkSeedGenerator = cms.PSet(
ComponentName = cms.string('DualByL2TSG'),
L3TkCollectionA = cms.InputTag("hltL3NoFiltersNoVtxMuonsOIState"),
PSetNames = cms.vstring(
'skipTSG',
'iterativeTSG'
),
iterativeTSG = cms.PSet(
ComponentName = cms.string('TSGFromPropagation'),
ErrorRescaling = cms.double(3.0),
MaxChi2 = cms.double(40.0),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
Propagator = cms.string('hltESPSmartPropagatorAnyOpposite'),
ResetMethod = cms.string('matrix'),
SelectState = cms.bool(False),
SigmaZ = cms.double(25.0),
UpdateState = cms.bool(True),
UseVertexState = cms.bool(True),
beamSpot = cms.InputTag("unused"),
errorMatrixPset = cms.PSet(
action = cms.string('use'),
atIP = cms.bool(True),
errorMatrixValuesPSet = cms.PSet(
pf3_V11 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V12 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V13 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V14 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V15 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V22 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V23 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V24 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V25 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V33 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V34 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V35 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V44 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V45 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V55 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
xAxis = cms.vdouble(0.0, 13.0, 30.0, 70.0, 1000.0),
yAxis = cms.vdouble(0.0, 1.0, 1.4, 10.0),
zAxis = cms.vdouble(-3.14159, 3.14159)
)
)
),
skipTSG = cms.PSet(
)
),
TrackerSeedCleaner = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
cleanerFromSharedHits = cms.bool(True),
directionCleaner = cms.bool(True),
ptCleaner = cms.bool(True)
)
)
process.hltL3NoFiltersNoVtxTrajectorySeed = cms.EDProducer("L3MuonTrajectorySeedCombiner",
labels = cms.VInputTag("hltL3NoFiltersNoVtxTrajSeedIOHit", "hltL3TrajSeedOIStateNoVtx", "hltL3NoFiltersNoVtxTrajSeedOIHit")
)
process.hltL3NoFiltersTkTracksFromL2IOHitNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPKFFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string(''),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltL3NoFiltersTrackCandidateFromL2IOHitNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltL3NoFiltersTkTracksFromL2Novtx = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(100.0),
LostHitPenalty = cms.double(0.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltL3NoFiltersNoVtxTkTracksMergeStep1", "hltL3NoFiltersTkTracksFromL2IOHitNoVtx"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltL3NoFiltersNoVtxTkTracksMergeStep1", "hltL3NoFiltersTkTracksFromL2IOHitNoVtx"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltL3NoFiltersTkTracksFromL2OIHitNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPKFFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string(''),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltL3NoFiltersTrackCandidateFromL2OIHitNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltL3NoFiltersTrackCandidateFromL2IOHitNoVtx = cms.EDProducer("CkfTrajectoryMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltL3NoFiltersNoVtxTrajSeedIOHit"),
trackCandidateAlso = cms.bool(True),
useHitsSplitting = cms.bool(False)
)
process.hltL3NoFiltersTrackCandidateFromL2NoVtx = cms.EDProducer("L3TrackCandCombiner",
labels = cms.VInputTag("hltL3NoFiltersTrackCandidateFromL2IOHitNoVtx", "hltL3NoFiltersTrackCandidateFromL2OIHitNoVtx", "hltL3TrackCandidateFromL2OIStateNoVtx")
)
process.hltL3NoFiltersTrackCandidateFromL2OIHitNoVtx = cms.EDProducer("CkfTrajectoryMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltL3NoFiltersNoVtxTrajSeedOIHit"),
trackCandidateAlso = cms.bool(True),
useHitsSplitting = cms.bool(False)
)
process.hltL3TkFromL2OICombination = cms.EDProducer("L3TrackCombiner",
labels = cms.VInputTag("hltL3MuonsOIState", "hltL3MuonsOIHit")
)
process.hltL3TkTracksFromL2 = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(100.0),
LostHitPenalty = cms.double(0.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltL3TkTracksMergeStep1", "hltL3TkTracksFromL2IOHit"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltL3TkTracksMergeStep1", "hltL3TkTracksFromL2IOHit"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltL3TkTracksFromL2IOHit = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPKFFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string(''),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltL3TrackCandidateFromL2IOHit"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltL3TkTracksFromL2OIHit = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPKFFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string(''),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltL3TrackCandidateFromL2OIHit"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltL3TkTracksFromL2OIState = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPKFFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string(''),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltL3TrackCandidateFromL2OIState"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltL3TkTracksFromL2OIStateNoVtx = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPKFFittingSmoother'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('PropagatorWithMaterial'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string(''),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltL3TrackCandidateFromL2OIStateNoVtx"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltL3TkTracksMergeStep1 = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(100.0),
LostHitPenalty = cms.double(0.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltL3TkTracksFromL2OIState", "hltL3TkTracksFromL2OIHit"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltL3TkTracksFromL2OIState", "hltL3TkTracksFromL2OIHit"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltL3TrackCandidateFromL2 = cms.EDProducer("L3TrackCandCombiner",
labels = cms.VInputTag("hltL3TrackCandidateFromL2IOHit", "hltL3TrackCandidateFromL2OIHit", "hltL3TrackCandidateFromL2OIState")
)
process.hltL3TrackCandidateFromL2IOHit = cms.EDProducer("CkfTrajectoryMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltL3TrajSeedIOHit"),
trackCandidateAlso = cms.bool(True),
useHitsSplitting = cms.bool(False)
)
process.hltL3TrackCandidateFromL2OIHit = cms.EDProducer("CkfTrajectoryMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltL3TrajSeedOIHit"),
trackCandidateAlso = cms.bool(True),
useHitsSplitting = cms.bool(False)
)
process.hltL3TrackCandidateFromL2OIState = cms.EDProducer("CkfTrajectoryMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltL3TrajSeedOIState"),
trackCandidateAlso = cms.bool(True),
useHitsSplitting = cms.bool(False)
)
process.hltL3TrackCandidateFromL2OIStateNoVtx = cms.EDProducer("CkfTrajectoryMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonCkfTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
reverseTrajectories = cms.bool(True),
src = cms.InputTag("hltL3TrajSeedOIStateNoVtx"),
trackCandidateAlso = cms.bool(True),
useHitsSplitting = cms.bool(False)
)
process.hltL3TrajSeedIOHit = cms.EDProducer("TSGFromL2Muon",
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
MuonTrackingRegionBuilder = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuonTrackingRegionBuilder8356')
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('PropagatorWithMaterial'),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TkSeedGenerator = cms.PSet(
ComponentName = cms.string('DualByL2TSG'),
L3TkCollectionA = cms.InputTag("hltL3TkFromL2OICombination"),
PSetNames = cms.vstring(
'skipTSG',
'iterativeTSG'
),
iterativeTSG = cms.PSet(
ComponentName = cms.string('CombinedTSG'),
PSetNames = cms.vstring(
'firstTSG',
'secondTSG'
),
firstTSG = cms.PSet(
ComponentName = cms.string('TSGFromOrderedHits'),
OrderedHitsFactoryPSet = cms.PSet(
ComponentName = cms.string('StandardHitTripletGenerator'),
GeneratorPSet = cms.PSet(
ComponentName = cms.string('PixelTripletHLTGenerator'),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
extraHitRPhitolerance = cms.double(0.06),
extraHitRZtolerance = cms.double(0.06),
maxElement = cms.uint32(0),
phiPreFiltering = cms.double(0.3),
useBending = cms.bool(True),
useFixedPreFiltering = cms.bool(False),
useMultScattering = cms.bool(True)
),
SeedingLayers = cms.InputTag("hltPixelLayerTriplets")
),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromConsecutiveHitsCreator')
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
secondTSG = cms.PSet(
ComponentName = cms.string('TSGFromOrderedHits'),
OrderedHitsFactoryPSet = cms.PSet(
ComponentName = cms.string('StandardHitPairGenerator'),
SeedingLayers = cms.InputTag("hltPixelLayerPairsLegacy"),
maxElement = cms.uint32(0),
useOnDemandTracker = cms.untracked.int32(0)
),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromConsecutiveHitsCreator')
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
thirdTSG = cms.PSet(
ComponentName = cms.string('DualByEtaTSG'),
PSetNames = cms.vstring(
'endcapTSG',
'barrelTSG'
),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromConsecutiveHitsCreator')
),
barrelTSG = cms.PSet(
),
endcapTSG = cms.PSet(
ComponentName = cms.string('TSGFromOrderedHits'),
OrderedHitsFactoryPSet = cms.PSet(
ComponentName = cms.string('StandardHitPairGenerator'),
SeedingLayers = cms.InputTag("hltMixedLayerPairs"),
maxElement = cms.uint32(0),
useOnDemandTracker = cms.untracked.int32(0)
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle')
),
etaSeparation = cms.double(2.0)
)
),
skipTSG = cms.PSet(
)
),
TrackerSeedCleaner = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
cleanerFromSharedHits = cms.bool(True),
directionCleaner = cms.bool(True),
ptCleaner = cms.bool(True)
)
)
process.hltL3TrajSeedOIHit = cms.EDProducer("TSGFromL2Muon",
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
MuonTrackingRegionBuilder = cms.PSet(
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'PropagatorWithMaterial',
'hltESPSmartPropagatorAnyOpposite'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TkSeedGenerator = cms.PSet(
ComponentName = cms.string('DualByL2TSG'),
L3TkCollectionA = cms.InputTag("hltL3MuonsOIState"),
PSetNames = cms.vstring(
'skipTSG',
'iterativeTSG'
),
iterativeTSG = cms.PSet(
ComponentName = cms.string('TSGFromPropagation'),
ErrorRescaling = cms.double(3.0),
MaxChi2 = cms.double(40.0),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
MeasurementTrackerName = cms.string('hltESPMeasurementTracker'),
Propagator = cms.string('hltESPSmartPropagatorAnyOpposite'),
ResetMethod = cms.string('matrix'),
SelectState = cms.bool(False),
SigmaZ = cms.double(25.0),
UpdateState = cms.bool(True),
UseVertexState = cms.bool(True),
beamSpot = cms.InputTag("unused"),
errorMatrixPset = cms.PSet(
action = cms.string('use'),
atIP = cms.bool(True),
errorMatrixValuesPSet = cms.PSet(
pf3_V11 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V12 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V13 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V14 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V15 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V22 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V23 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V24 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V25 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V33 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V34 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V35 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V44 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V45 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V55 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
xAxis = cms.vdouble(0.0, 13.0, 30.0, 70.0, 1000.0),
yAxis = cms.vdouble(0.0, 1.0, 1.4, 10.0),
zAxis = cms.vdouble(-3.14159, 3.14159)
)
)
),
skipTSG = cms.PSet(
)
),
TrackerSeedCleaner = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
cleanerFromSharedHits = cms.bool(True),
directionCleaner = cms.bool(True),
ptCleaner = cms.bool(True)
)
)
process.hltL3TrajSeedOIState = cms.EDProducer("TSGFromL2Muon",
MuonCollectionLabel = cms.InputTag("hltL2Muons","UpdatedAtVtx"),
MuonTrackingRegionBuilder = cms.PSet(
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSteppingHelixPropagatorOpposite',
'hltESPSteppingHelixPropagatorAlong'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TkSeedGenerator = cms.PSet(
ComponentName = cms.string('TSGForRoadSearch'),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
copyMuonRecHit = cms.bool(False),
errorMatrixPset = cms.PSet(
action = cms.string('use'),
atIP = cms.bool(True),
errorMatrixValuesPSet = cms.PSet(
pf3_V11 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V12 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V13 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V14 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V15 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V22 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V23 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V24 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V25 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V33 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V34 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V35 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V44 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V45 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V55 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
xAxis = cms.vdouble(0.0, 13.0, 30.0, 70.0, 1000.0),
yAxis = cms.vdouble(0.0, 1.0, 1.4, 10.0),
zAxis = cms.vdouble(-3.14159, 3.14159)
)
),
manySeeds = cms.bool(False),
maxChi2 = cms.double(40.0),
option = cms.uint32(3),
propagatorCompatibleName = cms.string('hltESPSteppingHelixPropagatorOpposite'),
propagatorName = cms.string('hltESPSteppingHelixPropagatorAlong')
),
TrackerSeedCleaner = cms.PSet(
)
)
process.hltL3TrajSeedOIStateNoVtx = cms.EDProducer("TSGFromL2Muon",
MuonCollectionLabel = cms.InputTag("hltL2Muons"),
MuonTrackingRegionBuilder = cms.PSet(
),
PCut = cms.double(2.5),
PtCut = cms.double(1.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring(
'hltESPSteppingHelixPropagatorOpposite',
'hltESPSteppingHelixPropagatorAlong'
),
RPCLayers = cms.bool(True),
UseMuonNavigation = cms.untracked.bool(True)
),
TkSeedGenerator = cms.PSet(
ComponentName = cms.string('TSGForRoadSearch'),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
copyMuonRecHit = cms.bool(False),
errorMatrixPset = cms.PSet(
action = cms.string('use'),
atIP = cms.bool(True),
errorMatrixValuesPSet = cms.PSet(
pf3_V11 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V12 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V13 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V14 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V15 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V22 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V23 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V24 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V25 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V33 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V34 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V35 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V44 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
pf3_V45 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0, 1.0, 1.0, 1.0,
1.0, 1.0
)
),
pf3_V55 = cms.PSet(
action = cms.string('scale'),
values = cms.vdouble(
3.0, 3.0, 3.0, 5.0, 4.0,
5.0, 10.0, 7.0, 10.0, 10.0,
10.0, 10.0
)
),
xAxis = cms.vdouble(0.0, 13.0, 30.0, 70.0, 1000.0),
yAxis = cms.vdouble(0.0, 1.0, 1.4, 10.0),
zAxis = cms.vdouble(-3.14159, 3.14159)
)
),
manySeeds = cms.bool(False),
maxChi2 = cms.double(40.0),
option = cms.uint32(3),
propagatorCompatibleName = cms.string('hltESPSteppingHelixPropagatorOpposite'),
propagatorName = cms.string('hltESPSteppingHelixPropagatorAlong')
),
TrackerSeedCleaner = cms.PSet(
)
)
process.hltL3TrajectorySeed = cms.EDProducer("L3MuonTrajectorySeedCombiner",
labels = cms.VInputTag("hltL3TrajSeedIOHit", "hltL3TrajSeedOIState", "hltL3TrajSeedOIHit")
)
process.hltL4DisplacedDijetFullTracksJetPromptTracksAssociatorAtVertexLowPt = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltDisplacedHLTCaloJetCollectionProducerLowPt"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltIter2MergedForBTag"),
useAssigned = cms.bool(False)
)
process.hltL4DisplacedDijetFullTracksJetPromptTracksAssociatorAtVertexMidPt = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltDisplacedHLTCaloJetCollectionProducerMidPt"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltIter2MergedForBTag"),
useAssigned = cms.bool(False)
)
process.hltL4DisplacedDijetFullTracksJetTagProducerFromIPLowPt = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPDisplacedDijethltTrackCounting2D1st'),
tagInfos = cms.VInputTag("hltL4TaggedDisplacedDijetFullTracksTrackIPProducerLowPt")
)
process.hltL4DisplacedDijetFullTracksJetTagProducerFromIPMidPt = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPDisplacedDijethltTrackCounting2D1st'),
tagInfos = cms.VInputTag("hltL4TaggedDisplacedDijetFullTracksTrackIPProducerMidPt")
)
process.hltL4DisplacedDijetFullTracksJetTracksAssociatorAtVertexLowPt = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltIter02DisplacedHLTCaloJetCollectionProducerLowPt"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltIter4MergedWithIter012DisplacedJets"),
useAssigned = cms.bool(False)
)
process.hltL4DisplacedDijetFullTracksJetTracksAssociatorAtVertexMidPt = cms.EDProducer("JetTracksAssociatorAtVertex",
coneSize = cms.double(0.4),
jets = cms.InputTag("hltIter02DisplacedHLTCaloJetCollectionProducerMidPt"),
pvSrc = cms.InputTag(""),
tracks = cms.InputTag("hltIter4MergedWithIter012DisplacedJets"),
useAssigned = cms.bool(False)
)
process.hltL4PromptDisplacedDijetFullTracksJetTagProducerFromIPLowPt = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPDisplacedDijethltPromptTrackCountingESProducer'),
tagInfos = cms.VInputTag("hltL4PromptDisplacedDijetFullTracksTrackIPProducerLowPt")
)
process.hltL4PromptDisplacedDijetFullTracksJetTagProducerFromIPMidPt = cms.EDProducer("JetTagProducer",
jetTagComputer = cms.string('hltESPDisplacedDijethltPromptTrackCountingESProducer'),
tagInfos = cms.VInputTag("hltL4PromptDisplacedDijetFullTracksTrackIPProducerMidPt")
)
process.hltL4PromptDisplacedDijetFullTracksTrackIPProducerLowPt = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(False),
computeProbabilities = cms.bool(False),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltL4DisplacedDijetFullTracksJetPromptTracksAssociatorAtVertexLowPt"),
maximumChiSquared = cms.double(20.0),
maximumLongitudinalImpactParameter = cms.double(0.1),
maximumTransverseImpactParameter = cms.double(0.1),
minimumNumberOfHits = cms.int32(8),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(0.5),
primaryVertex = cms.InputTag("hltFastPVPixelVertices"),
useTrackQuality = cms.bool(False)
)
process.hltL4PromptDisplacedDijetFullTracksTrackIPProducerMidPt = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(False),
computeProbabilities = cms.bool(False),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltL4DisplacedDijetFullTracksJetPromptTracksAssociatorAtVertexMidPt"),
maximumChiSquared = cms.double(20.0),
maximumLongitudinalImpactParameter = cms.double(0.1),
maximumTransverseImpactParameter = cms.double(0.1),
minimumNumberOfHits = cms.int32(8),
minimumNumberOfPixelHits = cms.int32(2),
minimumTransverseMomentum = cms.double(0.5),
primaryVertex = cms.InputTag("hltFastPVPixelVertices"),
useTrackQuality = cms.bool(False)
)
process.hltL4TaggedDisplacedDijetFullTracksTrackIPProducerLowPt = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(False),
computeProbabilities = cms.bool(False),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltL4DisplacedDijetFullTracksJetTracksAssociatorAtVertexLowPt"),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(9999999.0),
minimumNumberOfHits = cms.int32(6),
minimumNumberOfPixelHits = cms.int32(0),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltDisplacedhltTrimmedPixelVertices"),
useTrackQuality = cms.bool(False)
)
process.hltL4TaggedDisplacedDijetFullTracksTrackIPProducerMidPt = cms.EDProducer("TrackIPProducer",
computeGhostTrack = cms.bool(False),
computeProbabilities = cms.bool(False),
ghostTrackPriorDeltaR = cms.double(0.03),
jetDirectionUsingGhostTrack = cms.bool(False),
jetDirectionUsingTracks = cms.bool(False),
jetTracks = cms.InputTag("hltL4DisplacedDijetFullTracksJetTracksAssociatorAtVertexMidPt"),
maximumChiSquared = cms.double(5.0),
maximumLongitudinalImpactParameter = cms.double(17.0),
maximumTransverseImpactParameter = cms.double(9999999.0),
minimumNumberOfHits = cms.int32(6),
minimumNumberOfPixelHits = cms.int32(0),
minimumTransverseMomentum = cms.double(1.0),
primaryVertex = cms.InputTag("hltDisplacedhltTrimmedPixelVertices"),
useTrackQuality = cms.bool(False)
)
process.hltLightPFTracks = cms.EDProducer("LightPFTrackProducer",
TkColList = cms.VInputTag("hltPFMuonMerging"),
TrackQuality = cms.string('none'),
UseQuality = cms.bool(False)
)
process.hltLightPFTracksROIForBTag = cms.EDProducer("LightPFTrackProducer",
TkColList = cms.VInputTag("hltPFMuonMergingROIForBTag"),
TrackQuality = cms.string('none'),
UseQuality = cms.bool(False)
)
process.hltLightPFTracksReg = cms.EDProducer("LightPFTrackProducer",
TkColList = cms.VInputTag("hltPFMuonMergingTauReg"),
TrackQuality = cms.string('none'),
UseQuality = cms.bool(False)
)
process.hltLightPixelOnlyPFTracks = cms.EDProducer("LightPFTrackProducer",
TkColList = cms.VInputTag("hltPixelOnlyPFMuonMerging"),
TrackQuality = cms.string('none'),
UseQuality = cms.bool(False)
)
process.hltLowMassNonResonantTkAllConeTracksIter = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('K+'),
src = cms.InputTag("hltMergedTracksDisplacedNRMuMuReg")
)
process.hltLowMassNonResonantTkVertexProducer = cms.EDProducer("HLTmumutkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(99999.0),
MinD0Significance = cms.double(2.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(1.2),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OverlapDR = cms.double(0.005),
PreviousCandTag = cms.InputTag("hltDisplacedmumuFilterDoubleMu4LowMassNonResonant"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.493677),
TrackCand = cms.InputTag("hltLowMassNonResonantTkAllConeTracksIter")
)
process.hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTau20OverlapRemoval = cms.EDProducer("PFJetsTauOverlapRemoval",
Min_dR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltVBFL1TLooseIDPFJetsMatching","TwoJets"),
TauSrc = cms.InputTag("hltDoublePFTau20TrackLooseChargedIsoAgainstMuon")
)
process.hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTauHPS20OverlapRemoval = cms.EDProducer("PFJetsTauOverlapRemoval",
Min_dR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltVBFL1TLooseIDPFJetsMatching","TwoJets"),
TauSrc = cms.InputTag("hltHpsDoublePFTau20TrackLooseChargedIsoAgainstMuon")
)
process.hltMatchedVBFTwoPFJetsDoubleMediumChargedIsoPFTauHPS20OverlapRemoval = cms.EDProducer("PFJetsTauOverlapRemoval",
Min_dR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltVBFL1TLooseIDPFJetsMatching","TwoJets"),
TauSrc = cms.InputTag("hltHpsDoublePFTau20TrackMediumChargedIsoAgainstMuon")
)
process.hltMatchedVBFTwoPFJetsDoubleTightChargedIsoPFTauHPS20OverlapRemoval = cms.EDProducer("PFJetsTauOverlapRemoval",
Min_dR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltVBFL1TLooseIDPFJetsMatching","TwoJets"),
TauSrc = cms.InputTag("hltHpsDoublePFTau20TrackTightChargedIsoAgainstMuon")
)
process.hltMergedTracks = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0PFlowTrackCutClassifier","MVAValues"),
originalQualVals = cms.InputTag("hltIter0PFlowTrackCutClassifier","QualityMasks"),
originalSource = cms.InputTag("hltIter0PFlowCtfWithMaterialTracks")
)
process.hltMergedTracksDisplacedJpsiReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltTripletRecoveryMergedDisplacedJpsiReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltTripletRecoveryMergedDisplacedJpsiReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltTripletRecoveryMergedDisplacedJpsiRegDoubleTrk", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltTripletRecoveryMergedDisplacedJpsiRegDoubleTrk", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksDisplacedNRMuMuReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltTripletRecoveryMergedDisplacedNRMuMuReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedNRReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltTripletRecoveryMergedDisplacedNRMuMuReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedNRReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksDisplacedPsiPrimeReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltTripletRecoveryMergedDisplacedPsiPrimeReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltTripletRecoveryMergedDisplacedPsiPrimeReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltTripletRecoveryMergedDisplacedTau3muNoL1MassReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltTripletRecoveryMergedDisplacedTau3muNoL1MassReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksDisplacedTau3muReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltTripletRecoveryMergedDisplacedTau3muReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltTripletRecoveryMergedDisplacedTau3muReg", "hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksForBTag = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2MergedForBTag", "hltDoubletRecoveryPFlowTrackSelectionHighPurityForBTag"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2MergedForBTag", "hltDoubletRecoveryPFlowTrackSelectionHighPurityForBTag"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMergedTracksROIForBTag = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltIter0PFlowTrackCutClassifierROIForBTag","MVAValues"),
originalQualVals = cms.InputTag("hltIter0PFlowTrackCutClassifierROIForBTag","QualityMasks"),
originalSource = cms.InputTag("hltIter0PFlowCtfWithMaterialTracksROIForBTag")
)
process.hltMergedTracksTauReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2MergedTauReg", "hltDoubletRecoveryPFlowTrackSelectionHighPurityTauReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2MergedTauReg", "hltDoubletRecoveryPFlowTrackSelectionHighPurityTauReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltMet = cms.EDProducer("CaloMETProducer",
alias = cms.string('RawCaloMET'),
calculateSignificance = cms.bool(False),
globalThreshold = cms.double(0.3),
noHF = cms.bool(False),
src = cms.InputTag("hltTowerMakerForAll")
)
process.hltMetCleanBH = cms.EDProducer("CaloMETProducer",
alias = cms.string('RawCaloMET'),
calculateSignificance = cms.bool(False),
globalThreshold = cms.double(0.3),
noHF = cms.bool(False),
src = cms.InputTag("hltTowerMakerForAllBeamHaloCleaned")
)
process.hltMetCleanUsingJetID = cms.EDProducer("HLTMETCleanerUsingJetID",
goodJetsLabel = cms.InputTag("hltAK4CaloJetsIDPassed"),
jetsLabel = cms.InputTag("hltAK4CaloJets"),
maxEta = cms.double(5.0),
metLabel = cms.InputTag("hltMet"),
minPt = cms.double(20.0)
)
process.hltMht = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
maxEtaJetHt = cms.double(5.2),
maxEtaJetMht = cms.double(5.2),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(20.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltMixedLayerPairs = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
maxRing = cms.int32(1),
minRing = cms.int32(1),
useRingSlector = cms.bool(True)
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix2+BPix3',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg',
'FPix2_pos+TEC1_pos',
'FPix2_pos+TEC2_pos',
'TEC1_pos+TEC2_pos',
'TEC2_pos+TEC3_pos',
'FPix2_neg+TEC1_neg',
'FPix2_neg+TEC2_neg',
'TEC1_neg+TEC2_neg',
'TEC2_neg+TEC3_neg'
)
)
process.hltMu3JetCollectionsForLeptonPlusPFJets = cms.EDProducer("HLTPFJetsCleanedFromLeadingLeptons",
jets = cms.InputTag("hltAK4PFJetsCorrected"),
leptons = cms.InputTag("hltL3fL1sMu3L1f0L2f0L3Filtered3"),
minDeltaR = cms.double(1.0),
numLeptons = cms.uint32(1)
)
process.hltMuCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string(''),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTPSetMuTrackJpsiTrajectoryBuilder')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterial'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltMuTrackSeeds"),
useHitsSplitting = cms.bool(False)
)
process.hltMuCtfTracks = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltIterX'),
Fitter = cms.string('hltESPFittingSmootherRK'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltSiStripClusters"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string(''),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('hltMuCtfTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltMuCkfTrackCandidates"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(False)
)
process.hltMuTrackSeeds = cms.EDProducer("SeedGeneratorFromProtoTracksEDProducer",
InputCollection = cms.InputTag("hltPixelTracks"),
InputVertexCollection = cms.InputTag(""),
SeedCreatorPSet = cms.PSet(
refToPSet_ = cms.string('HLTSeedFromProtoTracks')
),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
includeFourthHit = cms.bool(False),
originHalfLength = cms.double(1000000000.0),
originRadius = cms.double(1000000000.0),
useEventsWithNoVertex = cms.bool(True),
usePV = cms.bool(False),
useProtoTrackKinematics = cms.bool(False)
)
process.hltMumuVtxProducerDoubleMu2Jpsi = cms.EDProducer("HLTDisplacedmumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(999999.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(0.0),
MinPtPair = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMu2JpsiL3Filtered"),
Src = cms.InputTag("hltIterL3MuonCandidates"),
matchToPrevious = cms.bool(True)
)
process.hltMuonCSCDigis = cms.EDProducer("CSCDCCUnpacker",
B904Setup = cms.untracked.bool(False),
Debug = cms.untracked.bool(False),
DisableMappingCheck = cms.untracked.bool(False),
ErrorMask = cms.uint32(0),
ExaminerMask = cms.uint32(535558134),
FormatedEventDump = cms.untracked.bool(False),
InputObjects = cms.InputTag("rawDataCollector"),
PrintEventNumber = cms.untracked.bool(False),
SuppressZeroLCT = cms.untracked.bool(True),
UnpackStatusDigis = cms.bool(False),
UseExaminer = cms.bool(True),
UseFormatStatus = cms.bool(True),
UseSelectiveUnpacking = cms.bool(True),
VisualFEDInspect = cms.untracked.bool(False),
VisualFEDShort = cms.untracked.bool(False),
runDQM = cms.untracked.bool(False),
useCSCShowers = cms.bool(False),
useGEMs = cms.bool(False),
useRPCs = cms.bool(False)
)
process.hltMuonDTDigis = cms.EDProducer("DTuROSRawToDigi",
debug = cms.untracked.bool(False),
inputLabel = cms.InputTag("rawDataCollector")
)
process.hltMuonEcalMFPFClusterIsoForMuons = cms.EDProducer("MuonHLTEcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(True),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.05),
drVetoEndcap = cms.double(0.05),
effectiveAreas = cms.vdouble(0.35, 0.193),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducer = cms.InputTag("hltParticleFlowClusterECALForMuonsMF"),
recoCandidateProducer = cms.InputTag("hltIterL3MuonCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetECALMFForMuons"),
rhoScale = cms.double(1.0)
)
process.hltMuonEcalMFPFClusterIsoForMuonsNoVtx = cms.EDProducer("MuonHLTEcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(True),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.05),
drVetoEndcap = cms.double(0.05),
effectiveAreas = cms.vdouble(0.35, 0.193),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducer = cms.InputTag("hltParticleFlowClusterECALForMuonsMFNoVtx"),
recoCandidateProducer = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetECALMFForMuons"),
rhoScale = cms.double(1.0)
)
process.hltMuonGEMDigis = cms.EDProducer("GEMRawToDigiModule",
InputLabel = cms.InputTag("rawDataCollector"),
fedIdEnd = cms.uint32(1478),
fedIdStart = cms.uint32(1467),
keepDAQStatus = cms.bool(False),
mightGet = cms.optional.untracked.vstring,
readMultiBX = cms.bool(False),
useDBEMap = cms.bool(False)
)
process.hltMuonHcalPFClusterIsoForMuonsNoVtx = cms.EDProducer("MuonHLTHcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(True),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.1),
drVetoEndcap = cms.double(0.1),
effectiveAreas = cms.vdouble(0.11, 0.163),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducerHCAL = cms.InputTag("hltParticleFlowClusterHCAL"),
pfClusterProducerHFEM = cms.InputTag(""),
pfClusterProducerHFHAD = cms.InputTag(""),
recoCandidateProducer = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCalo"),
rhoScale = cms.double(1.0),
useEt = cms.bool(True),
useHF = cms.bool(False)
)
process.hltMuonHcalRegPFClusterIsoForMuons = cms.EDProducer("MuonHLTHcalPFClusterIsolationProducer",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
doRhoCorrection = cms.bool(True),
drMax = cms.double(0.3),
drVetoBarrel = cms.double(0.1),
drVetoEndcap = cms.double(0.1),
effectiveAreas = cms.vdouble(0.227, 0.372),
energyBarrel = cms.double(0.0),
energyEndcap = cms.double(0.0),
etaStripBarrel = cms.double(0.0),
etaStripEndcap = cms.double(0.0),
pfClusterProducerHCAL = cms.InputTag("hltParticleFlowClusterHCAL"),
pfClusterProducerHFEM = cms.InputTag(""),
pfClusterProducerHFHAD = cms.InputTag(""),
recoCandidateProducer = cms.InputTag("hltIterL3MuonCandidates"),
rhoMax = cms.double(99999999.0),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetHCAL"),
rhoScale = cms.double(1.0),
useEt = cms.bool(True),
useHF = cms.bool(False)
)
process.hltMuonLinks = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltPFMuonMerging"),
LinkCollection = cms.InputTag("hltL3MuonsIterL3Links"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.8)
)
process.hltMuonLinksROIForBTag = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltPFMuonMergingROIForBTag"),
LinkCollection = cms.InputTag("hltL3MuonsIterL3Links"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.8)
)
process.hltMuonLinksReg = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltPFMuonMergingTauReg"),
LinkCollection = cms.InputTag("hltL3MuonsIterL3Links"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.8)
)
process.hltMuonRPCDigis = cms.EDProducer("RPCUnpackingModule",
InputLabel = cms.InputTag("rawDataCollector"),
doSynchro = cms.bool(False)
)
process.hltMuonTkRelIsolationCut0p07Map = cms.EDProducer("L3MuonCombinedRelativeIsolationProducer",
CaloDepositsLabel = cms.InputTag("notUsed"),
CaloExtractorPSet = cms.PSet(
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
ComponentName = cms.string('CaloExtractor'),
DR_Max = cms.double(0.3),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DepositLabel = cms.untracked.string('EcalPlusHcal'),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Vertex_Constraint_XY = cms.bool(False),
Vertex_Constraint_Z = cms.bool(False),
Weight_E = cms.double(1.0),
Weight_H = cms.double(1.0)
),
CutsPSet = cms.PSet(
ComponentName = cms.string('SimpleCuts'),
ConeSizes = cms.vdouble(0.3),
EtaBounds = cms.vdouble(2.411),
Thresholds = cms.vdouble(0.07),
applyCutsORmaxNTracks = cms.bool(False),
maxNTracks = cms.int32(-1)
),
OutputMuIsoDeposits = cms.bool(True),
TrackPt_Min = cms.double(-1.0),
TrkExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('PixelTrackExtractor'),
DR_Max = cms.double(0.3),
DR_Veto = cms.double(0.01),
DR_VetoPt = cms.double(0.025),
DepositLabel = cms.untracked.string('PXLS'),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
PropagateTracksToRadius = cms.bool(True),
PtVeto_Min = cms.double(2.0),
Pt_Min = cms.double(-1.0),
ReferenceRadius = cms.double(6.0),
VetoLeadingTrack = cms.bool(True),
inputTrackCollection = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurity")
),
UseCaloIso = cms.bool(False),
UseRhoCorrectedCaloDeposits = cms.bool(False),
inputMuonCollection = cms.InputTag("hltIterL3MuonCandidates"),
printDebug = cms.bool(False)
)
process.hltMuonTkRelIsolationCut0p09MapNoVtx = cms.EDProducer("L3MuonCombinedRelativeIsolationProducer",
CaloDepositsLabel = cms.InputTag("notUsed"),
CaloExtractorPSet = cms.PSet(
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
ComponentName = cms.string('CaloExtractor'),
DR_Max = cms.double(0.3),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DepositLabel = cms.untracked.string('EcalPlusHcal'),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Vertex_Constraint_XY = cms.bool(False),
Vertex_Constraint_Z = cms.bool(False),
Weight_E = cms.double(1.0),
Weight_H = cms.double(1.0)
),
CutsPSet = cms.PSet(
ComponentName = cms.string('SimpleCuts'),
ConeSizes = cms.vdouble(0.3),
EtaBounds = cms.vdouble(2.411),
Thresholds = cms.vdouble(0.09),
applyCutsORmaxNTracks = cms.bool(False),
maxNTracks = cms.int32(-1)
),
OutputMuIsoDeposits = cms.bool(True),
TrackPt_Min = cms.double(-1.0),
TrkExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('PixelTrackExtractor'),
DR_Max = cms.double(0.3),
DR_Veto = cms.double(0.01),
DR_VetoPt = cms.double(0.025),
DepositLabel = cms.untracked.string('PXLS'),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
PropagateTracksToRadius = cms.bool(True),
PtVeto_Min = cms.double(2.0),
Pt_Min = cms.double(-1.0),
ReferenceRadius = cms.double(6.0),
VetoLeadingTrack = cms.bool(True),
inputTrackCollection = cms.InputTag("hltIter2L3MuonMergedNoVtx")
),
UseCaloIso = cms.bool(False),
UseRhoCorrectedCaloDeposits = cms.bool(False),
inputMuonCollection = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
printDebug = cms.bool(False)
)
process.hltMuons = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAK4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(True),
useHO = cms.bool(True),
useHcal = cms.bool(True),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMerging")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(True),
fillEnergy = cms.bool(True),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(True),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltPFMuonMerging", "hltMuonLinks", "hltL2Muons"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links',
'outer tracks'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(10.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(10.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltMuonsROIForBTag = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAK4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(True),
useHO = cms.bool(True),
useHcal = cms.bool(True),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMergingROIForBTag")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(True),
fillEnergy = cms.bool(True),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(True),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltPFMuonMergingROIForBTag", "hltMuonLinksROIForBTag", "hltL2Muons"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links',
'outer tracks'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(10.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(10.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltMuonsReg = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAK4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(True),
useHO = cms.bool(True),
useHcal = cms.bool(True),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPFMuonMergingTauReg")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(True),
fillEnergy = cms.bool(True),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(True),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltPFMuonMergingTauReg", "hltMuonLinksReg", "hltL2Muons"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links',
'outer tracks'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(10.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(10.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltOldL3MuonCandidates = cms.EDProducer("L3MuonCandidateProducer",
InputLinksObjects = cms.InputTag("hltL3MuonsLinksCombination"),
InputObjects = cms.InputTag("hltL3Muons"),
MuonPtOption = cms.string('Tracker')
)
process.hltOnlineBeamSpot = cms.EDProducer("BeamSpotOnlineProducer",
beamMode = cms.untracked.uint32(11),
changeToCMSCoordinates = cms.bool(False),
gtEvmLabel = cms.InputTag(""),
maxRadius = cms.double(2.0),
maxZ = cms.double(40.0),
setSigmaZ = cms.double(0.0),
src = cms.InputTag("hltScalersRawToDigi"),
useTransientRecord = cms.bool(False)
)
process.hltOnlineBeamSpotToCUDA = cms.EDProducer("BeamSpotToCUDA",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltOnlineBeamSpot")
)
process.hltOnlineMetaDataDigis = cms.EDProducer("OnlineMetaDataRawToDigi",
onlineMetaDataInputLabel = cms.InputTag("rawDataCollector")
)
process.hltPFCentralJetLooseIDQuad30forHt = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFCentralJetLooseIDQuad30"),
TriggerTypes = cms.vint32(86)
)
process.hltPFCentralJetLooseIDQuad30forHtROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFCentralJetLooseIDQuad30ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltPFDeepFlavourJetTagsROIForBTag = cms.EDProducer("DeepFlavourONNXJetTagsProducer",
flav_names = cms.vstring(
'probb',
'probbb',
'problepb',
'probc',
'probuds',
'probg'
),
input_names = cms.vstring(
'input_0',
'input_1',
'input_2',
'input_3',
'input_4'
),
mightGet = cms.optional.untracked.vstring,
model_path = cms.FileInPath('RecoBTag/Combined/data/DeepFlavour_HLT_12X/model.onnx'),
output_names = cms.vstring('ID_pred'),
src = cms.InputTag("hltPFDeepFlavourTagInfosROIForBTag")
)
process.hltPFDeepFlavourPatJetTags = cms.EDProducer("DeepFlavourONNXJetTagsProducer",
flav_names = cms.vstring(
'probb',
'probbb',
'problepb',
'probc',
'probuds',
'probg'
),
input_names = cms.vstring(
'input_0',
'input_1',
'input_2',
'input_3',
'input_4'
),
mightGet = cms.optional.untracked.vstring,
model_path = cms.FileInPath('RecoBTag/Combined/data/DeepFlavour_HLT_12X/model.onnx'),
output_names = cms.vstring('ID_pred'),
src = cms.InputTag("hltPFDeepFlavourPatTagInfos")
)
process.hltPFDeepFlavourPatTagInfos = cms.EDProducer("DeepFlavourTagInfoProducer",
candidates = cms.InputTag("hltParticleFlowROIForBTag"),
compute_probabilities = cms.bool(False),
fallback_puppi_weight = cms.bool(True),
fallback_vertex_association = cms.bool(False),
flip = cms.bool(False),
jet_radius = cms.double(0.4),
jets = cms.InputTag("hltAK4PFJetsROIForBTag"),
max_jet_eta = cms.double(2.5),
mightGet = cms.optional.untracked.vstring,
min_candidate_pt = cms.double(0.95),
min_jet_pt = cms.double(15),
puppi_value_map = cms.InputTag(""),
run_deepVertex = cms.bool(False),
secondary_vertices = cms.InputTag("hltDeepInclusiveSecondaryVerticesPFROIForBTag"),
shallow_tag_infos = cms.InputTag("hltDeepCombinedSecondaryVertexBJetPatTagInfos"),
vertex_associator = cms.InputTag("hltPrimaryVertexAssociationPat","original"),
vertices = cms.InputTag("hltVerticesPFFilterROIForBTag")
)
process.hltPFDeepFlavourTagInfosROIForBTag = cms.EDProducer("DeepFlavourTagInfoProducer",
candidates = cms.InputTag("hltParticleFlowROIForBTag"),
compute_probabilities = cms.bool(False),
fallback_puppi_weight = cms.bool(True),
fallback_vertex_association = cms.bool(False),
flip = cms.bool(False),
jet_radius = cms.double(0.4),
jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
max_jet_eta = cms.double(2.5),
mightGet = cms.optional.untracked.vstring,
min_candidate_pt = cms.double(0.95),
min_jet_pt = cms.double(15),
puppi_value_map = cms.InputTag(""),
run_deepVertex = cms.bool(False),
secondary_vertices = cms.InputTag("hltDeepInclusiveSecondaryVerticesPFROIForBTag"),
shallow_tag_infos = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsInfosROIForBTag"),
vertex_associator = cms.InputTag("hltPrimaryVertexAssociationROIForBTag","original"),
vertices = cms.InputTag("hltVerticesPFFilterROIForBTag")
)
process.hltPFHTForMC = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4PFJetsCorrected"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(5.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(40.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltPFHTJet15 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4PFJetsCorrected"),
maxEtaJetHt = cms.double(3.0),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(15.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltPFHTJet30 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4PFJetsCorrected"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltPFHTJet30Eta5 = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4PFJetsCorrected"),
maxEtaJetHt = cms.double(5.0),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(True)
)
process.hltPFHTJet30ROIForBTag = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
maxEtaJetHt = cms.double(2.5),
maxEtaJetMht = cms.double(999.0),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(30.0),
minPtJetMht = cms.double(0.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlowROIForBTag"),
usePt = cms.bool(True)
)
process.hltPFJetForBtag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetForBtagSelector"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetForBtagAK8 = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetForBtagSelectorAK8"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetForBtagROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetForBtagSelectorROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetForDBtagAK8 = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetForDBtagSelectorAK8"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets10 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet10"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets10AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet10AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets110 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet110"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets110AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet110AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets170 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet170"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets170AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet170AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets210 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet210"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets210AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet210AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets270 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet270"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets270AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet270AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets350 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet350"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets350AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet350AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets40 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet40"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets400 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet400"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets400AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet400AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets40AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet40AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets450 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet450"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets450AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet450AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets5 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet5"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets50 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet50"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets50AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet50AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloFwdJets5AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloFwdJet5AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets10 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet10"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets10AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet10AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets110 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet110"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets110AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet110AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets170 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet170"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets170AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet170AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets210 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet210"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets210AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet210AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets270 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet270"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets270AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet270AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets350 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet350"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets350AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet350AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets40 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet40"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets400 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet400"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets400AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet400AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets40AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet40AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets450 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet450"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets450AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet450AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets5 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet5"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets50 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet50"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets500AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet500AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets50AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet50AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets5AK8 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleCaloJet5AK8"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK8PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToCaloJets70 = cms.EDProducer("PFJetsMatchedToFilteredCaloJetsProducer",
CaloJetFilter = cms.InputTag("hltSingleAK4CaloJet70"),
DeltaR = cms.double(0.5),
PFJetSrc = cms.InputTag("hltAK4PFJetsCorrected"),
TriggerType = cms.int32(85)
)
process.hltPFJetsCorrectedMatchedToL1 = cms.EDProducer("HLTPFJetL1TMatchProducer",
DeltaR = cms.double(0.5),
L1Jets = cms.InputTag("hltGtStage2Digis","Jet"),
jetsInput = cms.InputTag("hltAK4PFJetsCorrected")
)
process.hltPFJetsFive30ForHt = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetFilterFive30er3p0"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetsFive30ForHtROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetFilterFive30er3p0ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetsSix30ForHt = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetFilterSix30er2p5"),
TriggerTypes = cms.vint32(86)
)
process.hltPFJetsSix30ForHtROIForBTag = cms.EDProducer("HLTPFJetCollectionProducer",
HLTObject = cms.InputTag("hltPFJetFilterSix30er2p5ROIForBTag"),
TriggerTypes = cms.vint32(86)
)
process.hltPFMETNoMuProducer = cms.EDProducer("PFMETProducer",
alias = cms.string('pfMetNoMu'),
applyWeight = cms.bool(False),
calculateSignificance = cms.bool(False),
globalThreshold = cms.double(0.0),
parameters = cms.PSet(
),
src = cms.InputTag("hltParticleFlowNoMu"),
srcWeights = cms.InputTag("")
)
process.hltPFMETProducer = cms.EDProducer("PFMETProducer",
alias = cms.string('hltPFMet'),
applyWeight = cms.bool(False),
calculateSignificance = cms.bool(False),
globalThreshold = cms.double(0.0),
parameters = cms.PSet(
),
src = cms.InputTag("hltParticleFlow"),
srcWeights = cms.InputTag("")
)
process.hltPFMETTypeOne = cms.EDProducer("CorrectedPFMETProducer",
src = cms.InputTag("hltPFMETProducer"),
srcCorrections = cms.VInputTag("hltcorrPFMETTypeOne:type1")
)
process.hltPFMETVBFProducer = cms.EDProducer("PFMETProducer",
alias = cms.string('pfMet'),
applyWeight = cms.bool(False),
calculateSignificance = cms.bool(False),
globalThreshold = cms.double(0.0),
parameters = cms.PSet(
),
src = cms.InputTag("hltParticleFlowNoMu"),
srcWeights = cms.InputTag("")
)
process.hltPFMHTNoMuTightID = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(True),
jetsLabel = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
maxEtaJetHt = cms.double(5.2),
maxEtaJetMht = cms.double(5.2),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(20.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag("hltParticleFlow"),
usePt = cms.bool(False)
)
process.hltPFMHTTightID = cms.EDProducer("HLTHtMhtProducer",
excludePFMuons = cms.bool(False),
jetsLabel = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
maxEtaJetHt = cms.double(5.2),
maxEtaJetMht = cms.double(5.2),
minNJetHt = cms.int32(0),
minNJetMht = cms.int32(0),
minPtJetHt = cms.double(20.0),
minPtJetMht = cms.double(20.0),
pfCandidatesLabel = cms.InputTag(""),
usePt = cms.bool(False)
)
process.hltPFMuonMerging = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonTracks", "hltMergedTracks"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonTracks", "hltMergedTracks"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltPFMuonMergingROIForBTag = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonTracks", "hltMergedTracksROIForBTag"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonTracks", "hltMergedTracksROIForBTag"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltPFMuonMergingTauReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonTracks", "hltMergedTracksTauReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonTracks", "hltMergedTracksTauReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltPFTau1Prong = cms.EDProducer("PFRecoTauDiscriminationByNProngs",
BooleanOutput = cms.bool(True),
MaxN = cms.uint32(1),
MinN = cms.uint32(1),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.1),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
minTrackVertexWeight = cms.double(-1.0)
),
leadingTrkOrPFCandOption = cms.string('leadPFCand'),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
minTrackVertexWeight = cms.double(-1.0)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
minTrackVertexWeight = cms.double(-1.0)
)
)
)
process.hltPFTau2Prongs = cms.EDProducer("PFRecoTauDiscriminationByNProngs",
BooleanOutput = cms.bool(True),
MaxN = cms.uint32(2),
MinN = cms.uint32(2),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.1),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
minTrackVertexWeight = cms.double(-1.0)
),
leadingTrkOrPFCandOption = cms.string('leadPFCand'),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
minTrackVertexWeight = cms.double(-1.0)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
minTrackVertexWeight = cms.double(-1.0)
)
)
)
process.hltPFTauAgainstMuonDiscriminator = cms.EDProducer("PFRecoTauDiscriminationAgainstMuon2",
HoPMin = cms.double(-1.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
dRmuonMatch = cms.double(0.3),
dRmuonMatchLimitedToJetArea = cms.bool(False),
discriminatorOption = cms.string('custom'),
doCaloMuonVeto = cms.bool(False),
maskHitsCSC = cms.vint32(0, 0, 0, 0),
maskHitsDT = cms.vint32(0, 0, 0, 0),
maskHitsRPC = cms.vint32(0, 0, 0, 0),
maskMatchesCSC = cms.vint32(1, 0, 0, 0),
maskMatchesDT = cms.vint32(0, 0, 0, 0),
maskMatchesRPC = cms.vint32(0, 0, 0, 0),
maxNumberOfHitsLast2Stations = cms.int32(-1),
maxNumberOfMatches = cms.int32(1),
minPtMatchedMuon = cms.double(5.0),
srcMuons = cms.InputTag(""),
verbosity = cms.int32(0)
)
process.hltPFTauLooseAbsOrRelChargedIsolationDiscriminator = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauLooseAbsoluteChargedIsolationDiscriminator"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauLooseRelativeChargedIsolationDiscriminator"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauLooseAbsoluteChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauLooseRelativeChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.05),
relativeSumPtOffset = cms.double(50.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauMediumAbsOrRelChargedIsolationDiscriminator = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumAbsoluteChargedIsolationDiscriminator"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumRelativeChargedIsolationDiscriminator"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTausReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumAbsoluteChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumRelativeChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauMediumAbsoluteChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.3),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauMediumAbsoluteChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(0.33333),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.3),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.357),
rhoProducer = cms.InputTag("NotUsed"),
rhoUEOffsetCorrection = cms.double(0.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauMediumChargedIsolationAndTightOOSCPhotonsDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTausReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauTightOutOfSignalConePhotonsDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauMediumHighPtRelaxedIsoAbsOrRelIsolationDiscriminator = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumHighPtRelaxedIsoAbsoluteIsolationDiscriminator"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauMediumHighPtRelaxedIsoRelativeIsolationDiscriminator"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauMediumHighPtRelaxedIsoAbsoluteIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.3),
minTauPtForNoIso = cms.double(500.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.06),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauMediumHighPtRelaxedIsoRelativeIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(500.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.02),
relativeSumPtOffset = cms.double(200.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauMediumRelativeChargedIsolationDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(3.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowForTaus"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.05),
relativeSumPtOffset = cms.double(60.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauMediumRelativeChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.05),
relativeSumPtOffset = cms.double(60.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauPiZeros = cms.EDProducer("RecoTauPiZeroProducer",
builders = cms.VPSet(cms.PSet(
applyElecTrackQcuts = cms.bool(False),
makeCombinatoricStrips = cms.bool(False),
maxStripBuildIterations = cms.int32(-1),
minGammaEtStripAdd = cms.double(0.0),
minGammaEtStripSeed = cms.double(0.5),
minStripEt = cms.double(1.0),
name = cms.string('s'),
plugin = cms.string('RecoTauPiZeroStripPlugin2'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False)
),
stripCandidatesParticleIds = cms.vint32(2, 4),
stripEtaAssociationDistance = cms.double(0.05),
stripPhiAssociationDistance = cms.double(0.2),
updateStripAfterEachDaughter = cms.bool(False)
)),
jetSrc = cms.InputTag("hltAK4PFJetsForTaus"),
massHypothesis = cms.double(0.136),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
outputSelection = cms.string('pt > 0'),
ranking = cms.VPSet(cms.PSet(
name = cms.string('InStrip'),
plugin = cms.string('RecoTauPiZeroStringQuality'),
selection = cms.string("algoIs(\'kStrips\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('abs(mass() - 0.13579)')
)),
verbosity = cms.int32(0)
)
process.hltPFTauPiZerosReg = cms.EDProducer("RecoTauPiZeroProducer",
builders = cms.VPSet(cms.PSet(
applyElecTrackQcuts = cms.bool(False),
makeCombinatoricStrips = cms.bool(False),
maxStripBuildIterations = cms.int32(-1),
minGammaEtStripAdd = cms.double(0.0),
minGammaEtStripSeed = cms.double(0.5),
minStripEt = cms.double(1.0),
name = cms.string('s'),
plugin = cms.string('RecoTauPiZeroStripPlugin2'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False)
),
stripCandidatesParticleIds = cms.vint32(2, 4),
stripEtaAssociationDistance = cms.double(0.05),
stripPhiAssociationDistance = cms.double(0.2),
updateStripAfterEachDaughter = cms.bool(False)
)),
jetSrc = cms.InputTag("hltAK4PFJetsReg"),
massHypothesis = cms.double(0.136),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
outputSelection = cms.string('pt > 0'),
ranking = cms.VPSet(cms.PSet(
name = cms.string('InStrip'),
plugin = cms.string('RecoTauPiZeroStringQuality'),
selection = cms.string("algoIs(\'kStrips\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('abs(mass() - 0.13579)')
)),
verbosity = cms.int32(0)
)
process.hltPFTauTightAbsOrRelChargedIsolationDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTausReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('or'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauTightAbsoluteChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauTightRelativeChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauTightAbsoluteChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(0.33333),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(True),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.03),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.357),
rhoProducer = cms.InputTag("NotUsed"),
rhoUEOffsetCorrection = cms.double(0.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauTightChargedIsolationAndTightOOSCPhotonsDiscriminatorReg = cms.EDProducer("PFTauDiscriminatorLogicalAndProducer",
FailValue = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTausReg"),
PassValue = cms.double(1.0),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and'),
discr1 = cms.PSet(
Producer = cms.InputTag("hltPFTauTightAbsOrRelChargedIsolationDiscriminatorReg"),
cut = cms.double(0.5)
),
discr2 = cms.PSet(
Producer = cms.InputTag("hltPFTauTightOutOfSignalConePhotonsDiscriminatorReg"),
cut = cms.double(0.5)
)
)
)
process.hltPFTauTightOutOfSignalConePhotonsDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(True),
applyRelativeSumPtCut = cms.bool(False),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.1),
relativeSumPtOffset = cms.double(0.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauTightRelativeChargedIsolationDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByIsolation",
ApplyDiscriminationByECALIsolation = cms.bool(False),
ApplyDiscriminationByTrackerIsolation = cms.bool(True),
ApplyDiscriminationByWeightedECALIsolation = cms.bool(False),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseAllPFCandsForWeights = cms.bool(False),
WeightECALIsolation = cms.double(1.0),
applyDeltaBetaCorrection = cms.bool(False),
applyFootprintCorrection = cms.bool(False),
applyOccupancyCut = cms.bool(False),
applyPhotonPtSumOutsideSignalConeCut = cms.bool(False),
applyRelativeSumPtCut = cms.bool(True),
applyRhoCorrection = cms.bool(False),
applySumPtCut = cms.bool(False),
customOuterCone = cms.double(-1.0),
deltaBetaFactor = cms.string('0.38'),
deltaBetaPUTrackPtCutOverride = cms.bool(True),
deltaBetaPUTrackPtCutOverride_val = cms.double(0.5),
enableHGCalWorkaround = cms.bool(False),
footprintCorrections = cms.VPSet(
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 0')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 1 || decayMode() = 2')
),
cms.PSet(
offset = cms.string('2.7'),
selection = cms.string('decayMode() = 5')
),
cms.PSet(
offset = cms.string('0.0'),
selection = cms.string('decayMode() = 6')
),
cms.PSet(
offset = cms.string('max(2.0, 0.22*pt() - 2.0)'),
selection = cms.string('decayMode() = 10')
)
),
isoConeSizeForDeltaBeta = cms.double(0.3),
maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0),
maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1),
maximumOccupancy = cms.uint32(0),
maximumSumPtCut = cms.double(2.0),
minTauPtForNoIso = cms.double(-99.0),
particleFlowSrc = cms.InputTag("hltParticleFlowReg"),
qualityCuts = cms.PSet(
isolationQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(100.0),
maxTransverseImpactParameter = cms.double(0.1),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.5),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
relativeSumPtCut = cms.double(0.04),
relativeSumPtOffset = cms.double(70.0),
rhoConeSize = cms.double(0.5),
rhoProducer = cms.InputTag("hltFixedGridRhoFastjetAll"),
rhoUEOffsetCorrection = cms.double(1.0),
storeRawFootprintCorrection = cms.bool(False),
storeRawOccupancy = cms.bool(False),
storeRawPUsumPt = cms.bool(False),
storeRawPhotonSumPt_outsideSignalCone = cms.bool(False),
storeRawSumPt = cms.bool(False),
verbosity = cms.int32(0),
vertexSrc = cms.InputTag("NotUsed")
)
process.hltPFTauTrackDiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltPFTauTrackFindingDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(0.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltPFTauTrackPt1DiscriminatorReg = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(1.0),
PFTauProducer = cms.InputTag("hltPFTausReg"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltPFTauTrackPt30Discriminator = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(30.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltPFTauTrackPt50Discriminator = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut",
MinPtLeadingObject = cms.double(50.0),
PFTauProducer = cms.InputTag("hltPFTaus"),
Prediscriminants = cms.PSet(
BooleanOperator = cms.string('and')
),
UseOnlyChargedHadrons = cms.bool(True)
)
process.hltPFTaus = cms.EDProducer("RecoTauPiZeroUnembedder",
src = cms.InputTag("hltPFTausSansRef")
)
process.hltPFTausReg = cms.EDProducer("RecoTauPiZeroUnembedder",
src = cms.InputTag("hltPFTausSansRefReg")
)
process.hltPFTausSansRef = cms.EDProducer("RecoTauProducer",
buildNullTaus = cms.bool(True),
builders = cms.VPSet(cms.PSet(
isoConeChargedHadrons = cms.string('0.4'),
isoConeNeutralHadrons = cms.string('0.4'),
isoConePiZeros = cms.string('0.4'),
leadObjectPt = cms.double(0.5),
matchingCone = cms.string('0.4'),
maxSignalConeChargedHadrons = cms.int32(3),
minAbsPhotonSumPt_insideSignalCone = cms.double(2.5),
minRelPhotonSumPt_insideSignalCone = cms.double(0.1),
name = cms.string('fixedConeTau'),
pfCandSrc = cms.InputTag("hltParticleFlowForTaus"),
plugin = cms.string('RecoTauBuilderConePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
signalConeChargedHadrons = cms.string('min(max(3.6/pt(),0.08),0.12)'),
signalConeNeutralHadrons = cms.string('0.1'),
signalConePiZeros = cms.string('min(max(3.6/pt(),0.08),0.12)'),
usePFLeptons = cms.bool(True)
)),
chargedHadronSrc = cms.InputTag("hltTauPFJetsRecoTauChargedHadrons"),
jetRegionSrc = cms.InputTag("hltTauPFJets08Region"),
jetSrc = cms.InputTag("hltAK4PFJetsForTaus"),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
modifiers = cms.VPSet(cms.PSet(
DataType = cms.string('AOD'),
EcalStripSumE_deltaEta = cms.double(0.03),
EcalStripSumE_deltaPhiOverQ_maxValue = cms.double(0.5),
EcalStripSumE_deltaPhiOverQ_minValue = cms.double(-0.1),
EcalStripSumE_minClusEnergy = cms.double(0.1),
ElecPreIDLeadTkMatch_maxDR = cms.double(0.01),
ElectronPreIDProducer = cms.InputTag("elecpreid"),
maximumForElectrionPreIDOutput = cms.double(-0.1),
name = cms.string('shrinkingConeElectronRej'),
plugin = cms.string('RecoTauElectronRejectionPlugin')
)),
outputSelection = cms.string(''),
piZeroSrc = cms.InputTag("hltPFTauPiZeros"),
verbosity = cms.int32(0)
)
process.hltPFTausSansRefReg = cms.EDProducer("RecoTauProducer",
buildNullTaus = cms.bool(False),
builders = cms.VPSet(cms.PSet(
isoConeChargedHadrons = cms.string('0.4'),
isoConeNeutralHadrons = cms.string('0.4'),
isoConePiZeros = cms.string('0.4'),
leadObjectPt = cms.double(0.5),
matchingCone = cms.string('0.4'),
maxSignalConeChargedHadrons = cms.int32(3),
minAbsPhotonSumPt_insideSignalCone = cms.double(2.5),
minRelPhotonSumPt_insideSignalCone = cms.double(0.1),
name = cms.string('fixedConeTauReg'),
pfCandSrc = cms.InputTag("hltParticleFlowReg"),
plugin = cms.string('RecoTauBuilderConePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(1.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
),
signalConeChargedHadrons = cms.string('min(max(3.6/pt(),0.08),0.12)'),
signalConeNeutralHadrons = cms.string('0.1'),
signalConePiZeros = cms.string('min(max(3.6/pt(),0.08),0.12)'),
usePFLeptons = cms.bool(True)
)),
chargedHadronSrc = cms.InputTag("hltTauPFJetsRecoTauChargedHadronsReg"),
jetRegionSrc = cms.InputTag("hltTauPFJets08RegionReg"),
jetSrc = cms.InputTag("hltAK4PFJetsReg"),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
modifiers = cms.VPSet(cms.PSet(
DataType = cms.string('AOD'),
EcalStripSumE_deltaEta = cms.double(0.03),
EcalStripSumE_deltaPhiOverQ_maxValue = cms.double(0.5),
EcalStripSumE_deltaPhiOverQ_minValue = cms.double(-0.1),
EcalStripSumE_minClusEnergy = cms.double(0.1),
ElecPreIDLeadTkMatch_maxDR = cms.double(0.01),
ElectronPreIDProducer = cms.InputTag("elecpreid"),
maximumForElectrionPreIDOutput = cms.double(-0.1),
name = cms.string('shrinkingConeElectronRej'),
plugin = cms.string('RecoTauElectronRejectionPlugin')
)),
outputSelection = cms.string(''),
piZeroSrc = cms.InputTag("hltPFTauPiZerosReg"),
verbosity = cms.int32(0)
)
process.hltPPSExpCalibrationRaw = cms.EDProducer("EvFFEDSelector",
fedList = cms.vuint32(
579, 581, 582, 583, 586,
587, 1462, 1463
),
inputTag = cms.InputTag("rawDataCollector")
)
process.hltPPSPrCalibrationRaw = cms.EDProducer("EvFFEDSelector",
fedList = cms.vuint32(
579, 581, 582, 583, 586,
587, 1462, 1463
),
inputTag = cms.InputTag("rawDataCollector")
)
process.hltPSetMap = cms.EDProducer("ParameterSetBlobProducer")
process.hltPackedGenParticles = cms.EDProducer("PATPackedGenParticleProducer",
inputCollection = cms.InputTag("hltPrunedGenParticlesWithStatusOne"),
inputOriginal = cms.InputTag("genParticles"),
map = cms.InputTag("hltPrunedGenParticles"),
maxRapidity = cms.double(6)
)
process.hltParticleFlow = cms.EDProducer("PFProducer",
GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"),
GedPhotonValueMap = cms.InputTag("tmpGedPhotons","valMapPFEgammaCandToPhoton"),
PFEGammaCandidates = cms.InputTag("particleFlowEGamma"),
PFEGammaFiltersParameters = cms.PSet(
electron_ecalDrivenHademPreselCut = cms.double(0.15),
electron_iso_combIso_barrel = cms.double(10.0),
electron_iso_combIso_endcap = cms.double(10.0),
electron_iso_mva_barrel = cms.double(-0.1875),
electron_iso_mva_endcap = cms.double(-0.1075),
electron_iso_pt = cms.double(10.0),
electron_maxElePtForOnlyMVAPresel = cms.double(50.0),
electron_missinghits = cms.uint32(1),
electron_noniso_mvaCut = cms.double(-0.1),
electron_protectionsForBadHcal = cms.PSet(
dEta = cms.vdouble(0.0064, 0.01264),
dPhi = cms.vdouble(0.0547, 0.0394),
eInvPInv = cms.vdouble(0.184, 0.0721),
enableProtections = cms.bool(False),
full5x5_sigmaIetaIeta = cms.vdouble(0.0106, 0.0387)
),
electron_protectionsForJetMET = cms.PSet(
maxDPhiIN = cms.double(0.1),
maxE = cms.double(50.0),
maxEcalEOverPRes = cms.double(0.2),
maxEcalEOverP_1 = cms.double(0.5),
maxEcalEOverP_2 = cms.double(0.2),
maxEeleOverPout = cms.double(0.2),
maxEeleOverPoutRes = cms.double(0.5),
maxEleHcalEOverEcalE = cms.double(0.1),
maxHcalE = cms.double(10.0),
maxHcalEOverEcalE = cms.double(0.1),
maxHcalEOverP = cms.double(1.0),
maxNtracks = cms.double(3.0),
maxTrackPOverEele = cms.double(1.0)
),
photon_HoE = cms.double(0.05),
photon_MinEt = cms.double(10.0),
photon_SigmaiEtaiEta_barrel = cms.double(0.0125),
photon_SigmaiEtaiEta_endcap = cms.double(0.034),
photon_combIso = cms.double(10.0),
photon_protectionsForBadHcal = cms.PSet(
enableProtections = cms.bool(False),
solidConeTrkIsoOffset = cms.double(10.0),
solidConeTrkIsoSlope = cms.double(0.3)
),
photon_protectionsForJetMET = cms.PSet(
sumPtTrackIso = cms.double(4.0),
sumPtTrackIsoSlope = cms.double(0.001)
)
),
PFHFCleaningParameters = cms.PSet(
maxDeltaPhiPt = cms.double(7.0),
maxSignificance = cms.double(2.5),
minDeltaMet = cms.double(0.4),
minHFCleaningPt = cms.double(5.0),
minSignificance = cms.double(2.5),
minSignificanceReduction = cms.double(1.4)
),
PFMuonAlgoParameters = cms.PSet(
),
blocks = cms.InputTag("hltParticleFlowBlock"),
calibHF_a_EMHAD = cms.vdouble(
1.42215, 1.00496, 0.68961, 0.81656, 0.98504,
0.98504, 1.00802, 1.0593, 1.4576, 1.4576
),
calibHF_a_EMonly = cms.vdouble(
0.96945, 0.96701, 0.76309, 0.82268, 0.87583,
0.89718, 0.98674, 1.4681, 1.458, 1.458
),
calibHF_b_EMHAD = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_b_HADonly = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_eta_step = cms.vdouble(
0.0, 2.9, 3.0, 3.2, 4.2,
4.4, 4.6, 4.8, 5.2, 5.4
),
calibHF_use = cms.bool(False),
calibrationsLabel = cms.string('HLT'),
cleanedHF = cms.VInputTag("hltParticleFlowRecHitHF:Cleaned", "hltParticleFlowClusterHF:Cleaned"),
debug = cms.untracked.bool(False),
dptRel_DispVtx = cms.double(10.0),
egammaElectrons = cms.InputTag(""),
factors_45 = cms.vdouble(10.0, 100.0),
goodPixelTrackDeadHcal_chi2n = cms.double(2.0),
goodPixelTrackDeadHcal_dxy = cms.double(0.02),
goodPixelTrackDeadHcal_dz = cms.double(0.05),
goodPixelTrackDeadHcal_maxLost3Hit = cms.int32(0),
goodPixelTrackDeadHcal_maxLost4Hit = cms.int32(1),
goodPixelTrackDeadHcal_maxPt = cms.double(50.0),
goodPixelTrackDeadHcal_minEta = cms.double(2.3),
goodPixelTrackDeadHcal_ptErrRel = cms.double(1.0),
goodTrackDeadHcal_chi2n = cms.double(5.0),
goodTrackDeadHcal_dxy = cms.double(0.5),
goodTrackDeadHcal_layers = cms.uint32(4),
goodTrackDeadHcal_ptErrRel = cms.double(0.2),
goodTrackDeadHcal_validFr = cms.double(0.5),
iCfgCandConnector = cms.PSet(
bCalibPrimary = cms.bool(False),
bCorrect = cms.bool(False),
nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05)
),
muon_ECAL = cms.vdouble(0.5, 0.5),
muon_HCAL = cms.vdouble(3.0, 3.0),
muon_HO = cms.vdouble(0.9, 0.9),
muons = cms.InputTag("hltMuons"),
nsigma_TRACK = cms.double(1.0),
pf_nsigma_ECAL = cms.double(0.0),
pf_nsigma_HCAL = cms.double(1.0),
pf_nsigma_HFEM = cms.double(1.0),
pf_nsigma_HFHAD = cms.double(1.0),
postHFCleaning = cms.bool(False),
postMuonCleaning = cms.bool(True),
pt_Error = cms.double(1.0),
rejectTracks_Bad = cms.bool(False),
rejectTracks_Step45 = cms.bool(False),
resolHF_square = cms.vdouble(7.834401, 0.012996, 0.0),
useCalibrationsFromDB = cms.bool(True),
useEGammaElectrons = cms.bool(False),
useEGammaFilters = cms.bool(False),
useHO = cms.bool(False),
usePFConversions = cms.bool(False),
usePFDecays = cms.bool(False),
usePFNuclearInteractions = cms.bool(False),
useProtectionsForJetMET = cms.bool(True),
useVerticesForNeutral = cms.bool(True),
verbose = cms.untracked.bool(False),
vertexCollection = cms.InputTag("hltPixelVertices"),
vetoEndcap = cms.bool(False)
)
process.hltParticleFlowBlock = cms.EDProducer("PFBlockProducer",
debug = cms.untracked.bool(False),
elementImporters = cms.VPSet(
cms.PSet(
DPtOverPtCuts_byTrackAlgo = cms.vdouble(
0.5, 0.5, 0.5, 0.5, 0.5,
0.5
),
NHitCuts_byTrackAlgo = cms.vuint32(
3, 3, 3, 3, 3,
3
),
cleanBadConvertedBrems = cms.bool(False),
importerName = cms.string('GeneralTracksImporter'),
muonMaxDPtOPt = cms.double(1.0),
muonSrc = cms.InputTag("hltMuons"),
source = cms.InputTag("hltLightPFTracks"),
trackQuality = cms.string('highPurity'),
useIterativeTracking = cms.bool(False),
vetoEndcap = cms.bool(False)
),
cms.PSet(
BCtoPFCMap = cms.InputTag(""),
importerName = cms.string('ECALClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterECALUnseeded")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHCAL")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHF")
)
),
linkDefinitions = cms.VPSet(
cms.PSet(
linkType = cms.string('TRACK:ECAL'),
linkerName = cms.string('TrackAndECALLinker'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('TRACK:HCAL'),
linkerName = cms.string('TrackAndHCALLinker'),
nMaxHcalLinksPerTrack = cms.int32(1),
trajectoryLayerEntrance = cms.string('HCALEntrance'),
trajectoryLayerExit = cms.string('HCALExit'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('ECAL:HCAL'),
linkerName = cms.string('ECALAndHCALLinker'),
minAbsEtaEcal = cms.double(2.5),
useKDTree = cms.bool(False)
),
cms.PSet(
linkType = cms.string('HFEM:HFHAD'),
linkerName = cms.string('HFEMAndHFHADLinker'),
useKDTree = cms.bool(False)
)
),
verbose = cms.untracked.bool(False)
)
process.hltParticleFlowBlockForTaus = cms.EDProducer("PFBlockProducer",
debug = cms.untracked.bool(False),
elementImporters = cms.VPSet(
cms.PSet(
DPtOverPtCuts_byTrackAlgo = cms.vdouble(
20.0, 20.0, 20.0, 20.0, 20.0,
20.0
),
NHitCuts_byTrackAlgo = cms.vuint32(
3, 3, 3, 3, 3,
3
),
cleanBadConvertedBrems = cms.bool(False),
importerName = cms.string('GeneralTracksImporter'),
muonMaxDPtOPt = cms.double(1.0),
muonSrc = cms.InputTag("hltMuons"),
source = cms.InputTag("hltLightPFTracks"),
trackQuality = cms.string('highPurity'),
useIterativeTracking = cms.bool(False),
vetoEndcap = cms.bool(False)
),
cms.PSet(
BCtoPFCMap = cms.InputTag(""),
importerName = cms.string('ECALClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterECALUnseeded")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHCAL")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHF")
)
),
linkDefinitions = cms.VPSet(
cms.PSet(
linkType = cms.string('TRACK:ECAL'),
linkerName = cms.string('TrackAndECALLinker'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('TRACK:HCAL'),
linkerName = cms.string('TrackAndHCALLinker'),
nMaxHcalLinksPerTrack = cms.int32(1),
trajectoryLayerEntrance = cms.string('HCALEntrance'),
trajectoryLayerExit = cms.string('HCALExit'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('ECAL:HCAL'),
linkerName = cms.string('ECALAndHCALLinker'),
minAbsEtaEcal = cms.double(2.5),
useKDTree = cms.bool(False)
),
cms.PSet(
linkType = cms.string('HFEM:HFHAD'),
linkerName = cms.string('HFEMAndHFHADLinker'),
useKDTree = cms.bool(False)
)
),
verbose = cms.untracked.bool(False)
)
process.hltParticleFlowBlockROIForBTag = cms.EDProducer("PFBlockProducer",
debug = cms.untracked.bool(False),
elementImporters = cms.VPSet(
cms.PSet(
DPtOverPtCuts_byTrackAlgo = cms.vdouble(
0.5, 0.5, 0.5, 0.5, 0.5,
0.5
),
NHitCuts_byTrackAlgo = cms.vuint32(
3, 3, 3, 3, 3,
3
),
cleanBadConvertedBrems = cms.bool(False),
importerName = cms.string('GeneralTracksImporter'),
muonMaxDPtOPt = cms.double(1.0),
muonSrc = cms.InputTag("hltMuonsROIForBTag"),
source = cms.InputTag("hltLightPFTracksROIForBTag"),
trackQuality = cms.string('highPurity'),
useIterativeTracking = cms.bool(False),
vetoEndcap = cms.bool(False)
),
cms.PSet(
BCtoPFCMap = cms.InputTag(""),
importerName = cms.string('ECALClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterECALUnseeded")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHCAL")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHF")
)
),
linkDefinitions = cms.VPSet(
cms.PSet(
linkType = cms.string('TRACK:ECAL'),
linkerName = cms.string('TrackAndECALLinker'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('TRACK:HCAL'),
linkerName = cms.string('TrackAndHCALLinker'),
nMaxHcalLinksPerTrack = cms.int32(1),
trajectoryLayerEntrance = cms.string('HCALEntrance'),
trajectoryLayerExit = cms.string('HCALExit'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('ECAL:HCAL'),
linkerName = cms.string('ECALAndHCALLinker'),
minAbsEtaEcal = cms.double(2.5),
useKDTree = cms.bool(False)
),
cms.PSet(
linkType = cms.string('HFEM:HFHAD'),
linkerName = cms.string('HFEMAndHFHADLinker'),
useKDTree = cms.bool(False)
)
),
verbose = cms.untracked.bool(False)
)
process.hltParticleFlowBlockReg = cms.EDProducer("PFBlockProducer",
debug = cms.untracked.bool(False),
elementImporters = cms.VPSet(
cms.PSet(
DPtOverPtCuts_byTrackAlgo = cms.vdouble(
20.0, 20.0, 20.0, 20.0, 20.0,
20.0
),
NHitCuts_byTrackAlgo = cms.vuint32(
3, 3, 3, 3, 3,
3
),
cleanBadConvertedBrems = cms.bool(False),
importerName = cms.string('GeneralTracksImporter'),
muonMaxDPtOPt = cms.double(1.0),
muonSrc = cms.InputTag("hltMuonsReg"),
source = cms.InputTag("hltLightPFTracksReg"),
trackQuality = cms.string('highPurity'),
useIterativeTracking = cms.bool(False),
vetoEndcap = cms.bool(False)
),
cms.PSet(
BCtoPFCMap = cms.InputTag(""),
importerName = cms.string('ECALClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterECALUnseeded")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHCAL")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHF")
)
),
linkDefinitions = cms.VPSet(
cms.PSet(
linkType = cms.string('TRACK:ECAL'),
linkerName = cms.string('TrackAndECALLinker'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('TRACK:HCAL'),
linkerName = cms.string('TrackAndHCALLinker'),
nMaxHcalLinksPerTrack = cms.int32(1),
trajectoryLayerEntrance = cms.string('HCALEntrance'),
trajectoryLayerExit = cms.string('HCALExit'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('ECAL:HCAL'),
linkerName = cms.string('ECALAndHCALLinker'),
minAbsEtaEcal = cms.double(2.5),
useKDTree = cms.bool(False)
),
cms.PSet(
linkType = cms.string('HFEM:HFHAD'),
linkerName = cms.string('HFEMAndHFHADLinker'),
useKDTree = cms.bool(False)
)
),
verbose = cms.untracked.bool(False)
)
process.hltParticleFlowClusterECALForMuonsMF = cms.EDProducer("CorrectedECALPFClusterProducer",
energyCorrector = cms.PSet(
applyCrackCorrections = cms.bool(False)
),
inputECAL = cms.InputTag("hltParticleFlowClusterECALUncorrectedForMuonsMF"),
inputPS = cms.InputTag("hltParticleFlowClusterPSForMuons"),
minimumPSEnergy = cms.double(0.0),
skipPS = cms.bool(False)
)
process.hltParticleFlowClusterECALForMuonsMFNoVtx = cms.EDProducer("CorrectedECALPFClusterProducer",
energyCorrector = cms.PSet(
applyCrackCorrections = cms.bool(False)
),
inputECAL = cms.InputTag("hltParticleFlowClusterECALUncorrectedForMuonsMFNoVtx"),
inputPS = cms.InputTag("hltParticleFlowClusterPSForMuonsNoVtx"),
minimumPSEnergy = cms.double(0.0),
skipPS = cms.bool(False)
)
process.hltParticleFlowClusterECALL1Seeded = cms.EDProducer("CorrectedECALPFClusterProducer",
energyCorrector = cms.PSet(
applyCrackCorrections = cms.bool(False)
),
inputECAL = cms.InputTag("hltParticleFlowClusterECALUncorrectedL1Seeded"),
inputPS = cms.InputTag("hltParticleFlowClusterPSL1Seeded"),
minimumPSEnergy = cms.double(0.0),
skipPS = cms.bool(False)
)
process.hltParticleFlowClusterECALUncorrectedForMuonsMF = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
gatheringThreshold = cms.double(0.08),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
gatheringThreshold = cms.double(0.3),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(True)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
allCellsPositionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(9),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
positionCalcForConvergence = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
recHitEnergyNorm = cms.double(0.08)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
recHitEnergyNorm = cms.double(0.3)
)
),
showerSigma = cms.double(1.5),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitECALForMuonsMF"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(8),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
seedingThreshold = cms.double(0.6),
seedingThresholdPt = cms.double(0.15)
),
cms.PSet(
detector = cms.string('ECAL_BARREL'),
seedingThreshold = cms.double(0.23),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterECALUncorrectedForMuonsMFNoVtx = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
gatheringThreshold = cms.double(0.08),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
gatheringThreshold = cms.double(0.3),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(True)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
allCellsPositionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(9),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
positionCalcForConvergence = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
recHitEnergyNorm = cms.double(0.08)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
recHitEnergyNorm = cms.double(0.3)
)
),
showerSigma = cms.double(1.5),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitECALForMuonsMFNoVtx"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(8),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
seedingThreshold = cms.double(0.6),
seedingThresholdPt = cms.double(0.15)
),
cms.PSet(
detector = cms.string('ECAL_BARREL'),
seedingThreshold = cms.double(0.23),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterECALUncorrectedL1Seeded = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
gatheringThreshold = cms.double(0.08),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
gatheringThreshold = cms.double(0.3),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(True)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
allCellsPositionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(9),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
positionCalcForConvergence = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
recHitEnergyNorm = cms.double(0.08)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
recHitEnergyNorm = cms.double(0.3)
)
),
showerSigma = cms.double(1.5),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitECALL1Seeded"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(8),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
seedingThreshold = cms.double(0.6),
seedingThresholdPt = cms.double(0.15)
),
cms.PSet(
detector = cms.string('ECAL_BARREL'),
seedingThreshold = cms.double(0.23),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterECALUncorrectedUnseeded = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
gatheringThreshold = cms.double(0.08),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
gatheringThreshold = cms.double(0.3),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(True)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
allCellsPositionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(0.08),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(9),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(0.428192),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0510871),
noiseTerm = cms.double(1.10889),
noiseTermLowE = cms.double(1.31883),
threshHighE = cms.double(5.0),
threshLowE = cms.double(0.5)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(0.0),
constantTermLowE = cms.double(0.0),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(5.72489999999),
noiseTermLowE = cms.double(6.92683000001),
threshHighE = cms.double(10.0),
threshLowE = cms.double(1.0)
)
),
positionCalcForConvergence = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_BARREL'),
recHitEnergyNorm = cms.double(0.08)
),
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
recHitEnergyNorm = cms.double(0.3)
)
),
showerSigma = cms.double(1.5),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
T0_EB = cms.double(7.4),
T0_EE = cms.double(3.1),
T0_ES = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89),
algoName = cms.string('ECAL2DPositionCalcWithDepthCorr'),
minAllowedNormalization = cms.double(0.0),
minFractionInCalc = cms.double(0.0)
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitECALUnseeded"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(8),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('ECAL_ENDCAP'),
seedingThreshold = cms.double(0.6),
seedingThresholdPt = cms.double(0.15)
),
cms.PSet(
detector = cms.string('ECAL_BARREL'),
seedingThreshold = cms.double(0.23),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterECALUnseeded = cms.EDProducer("CorrectedECALPFClusterProducer",
energyCorrector = cms.PSet(
applyCrackCorrections = cms.bool(False)
),
inputECAL = cms.InputTag("hltParticleFlowClusterECALUncorrectedUnseeded"),
inputPS = cms.InputTag("hltParticleFlowClusterPSUnseeded"),
minimumPSEnergy = cms.double(0.0),
skipPS = cms.bool(False)
)
process.hltParticleFlowClusterHBHE = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
depths = cms.vint32(1, 2, 3, 4),
detector = cms.string('HCAL_BARREL1'),
gatheringThreshold = cms.vdouble(0.8, 0.8, 0.8, 0.8),
gatheringThresholdPt = cms.vdouble(0.0, 0.0, 0.0, 0.0)
),
cms.PSet(
depths = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detector = cms.string('HCAL_ENDCAP'),
gatheringThreshold = cms.vdouble(
0.1, 0.2, 0.2, 0.2, 0.2,
0.2, 0.2
),
gatheringThresholdPt = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0
)
)
),
useCornerCells = cms.bool(True)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
allCellsPositionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominatorByDetector = cms.VPSet(
cms.PSet(
depths = cms.vint32(1, 2, 3, 4),
detector = cms.string('HCAL_BARREL1'),
logWeightDenominator = cms.vdouble(0.8, 0.8, 0.8, 0.8)
),
cms.PSet(
depths = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detector = cms.string('HCAL_ENDCAP'),
logWeightDenominator = cms.vdouble(
0.1, 0.2, 0.2, 0.2, 0.2,
0.2, 0.2
)
)
),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1)
),
clusterTimeResFromSeed = cms.bool(False),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
maxNSigmaTime = cms.double(10.0),
minChi2Prob = cms.double(0.0),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominatorByDetector = cms.VPSet(
cms.PSet(
depths = cms.vint32(1, 2, 3, 4),
detector = cms.string('HCAL_BARREL1'),
logWeightDenominator = cms.vdouble(0.8, 0.8, 0.8, 0.8)
),
cms.PSet(
depths = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detector = cms.string('HCAL_ENDCAP'),
logWeightDenominator = cms.vdouble(
0.1, 0.2, 0.2, 0.2, 0.2,
0.2, 0.2
)
)
),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(5)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
depths = cms.vint32(1, 2, 3, 4),
detector = cms.string('HCAL_BARREL1'),
recHitEnergyNorm = cms.vdouble(0.8, 0.8, 0.8, 0.8)
),
cms.PSet(
depths = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detector = cms.string('HCAL_ENDCAP'),
recHitEnergyNorm = cms.vdouble(
0.1, 0.2, 0.2, 0.2, 0.2,
0.2, 0.2
)
)
),
showerSigma = cms.double(10.0),
stoppingTolerance = cms.double(1e-08),
timeResolutionCalcBarrel = cms.PSet(
constantTerm = cms.double(2.82),
constantTermLowE = cms.double(4.24),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(21.86),
noiseTermLowE = cms.double(8.0),
threshHighE = cms.double(15.0),
threshLowE = cms.double(6.0)
),
timeResolutionCalcEndcap = cms.PSet(
constantTerm = cms.double(2.82),
constantTermLowE = cms.double(4.24),
corrTermLowE = cms.double(0.0),
noiseTerm = cms.double(21.86),
noiseTermLowE = cms.double(8.0),
threshHighE = cms.double(15.0),
threshLowE = cms.double(6.0)
),
timeSigmaEB = cms.double(10.0),
timeSigmaEE = cms.double(10.0)
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitHBHE"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(4),
thresholdsByDetector = cms.VPSet(
cms.PSet(
depths = cms.vint32(1, 2, 3, 4),
detector = cms.string('HCAL_BARREL1'),
seedingThreshold = cms.vdouble(1.0, 1.0, 1.0, 1.0),
seedingThresholdPt = cms.vdouble(0.0, 0.0, 0.0, 0.0)
),
cms.PSet(
depths = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detector = cms.string('HCAL_ENDCAP'),
seedingThreshold = cms.vdouble(
0.1375, 0.275, 0.275, 0.275, 0.275,
0.275, 0.275
),
seedingThresholdPt = cms.vdouble(
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0
)
)
)
)
)
process.hltParticleFlowClusterHCAL = cms.EDProducer("PFMultiDepthClusterProducer",
clustersSource = cms.InputTag("hltParticleFlowClusterHBHE"),
energyCorrector = cms.PSet(
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('PFMultiDepthClusterizer'),
allCellsPositionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominatorByDetector = cms.VPSet(
cms.PSet(
depths = cms.vint32(1, 2, 3, 4),
detector = cms.string('HCAL_BARREL1'),
logWeightDenominator = cms.vdouble(0.8, 0.8, 0.8, 0.8)
),
cms.PSet(
depths = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detector = cms.string('HCAL_ENDCAP'),
logWeightDenominator = cms.vdouble(
0.1, 0.2, 0.2, 0.2, 0.2,
0.2, 0.2
)
)
),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1)
),
minFractionToKeep = cms.double(1e-07),
nSigmaEta = cms.double(2.0),
nSigmaPhi = cms.double(2.0)
),
positionReCalc = cms.PSet(
)
)
process.hltParticleFlowClusterHF = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DClusterForEachSeed'),
thresholdsByDetector = cms.VPSet()
),
pfClusterBuilder = cms.PSet(
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitHF"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(0),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('HF_EM'),
seedingThreshold = cms.double(1.4),
seedingThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('HF_HAD'),
seedingThreshold = cms.double(1.4),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterHFForEgammaUnseeded = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DClusterForEachSeed'),
thresholdsByDetector = cms.VPSet()
),
pfClusterBuilder = cms.PSet(
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitHF"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(0),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('HF_EM'),
seedingThreshold = cms.double(1.4),
seedingThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('HF_HAD'),
seedingThreshold = cms.double(1.4),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterPSForMuons = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(False)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(6e-05),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
recHitEnergyNorm = cms.double(6e-05)
),
cms.PSet(
detector = cms.string('PS2'),
recHitEnergyNorm = cms.double(6e-05)
)
),
showerSigma = cms.double(0.3),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitPSForMuons"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(4),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterPSForMuonsNoVtx = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(False)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(6e-05),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
recHitEnergyNorm = cms.double(6e-05)
),
cms.PSet(
detector = cms.string('PS2'),
recHitEnergyNorm = cms.double(6e-05)
)
),
showerSigma = cms.double(0.3),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitPSForMuonsNoVtx"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(4),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterPSL1Seeded = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(False)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(6e-05),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
recHitEnergyNorm = cms.double(6e-05)
),
cms.PSet(
detector = cms.string('PS2'),
recHitEnergyNorm = cms.double(6e-05)
)
),
showerSigma = cms.double(0.3),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitPSL1Seeded"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(4),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowClusterPSUnseeded = cms.EDProducer("PFClusterProducer",
energyCorrector = cms.PSet(
),
initialClusteringStep = cms.PSet(
algoName = cms.string('Basic2DGenericTopoClusterizer'),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
gatheringThreshold = cms.double(6e-05),
gatheringThresholdPt = cms.double(0.0)
)
),
useCornerCells = cms.bool(False)
),
pfClusterBuilder = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowClusterizer'),
excludeOtherSeeds = cms.bool(True),
maxIterations = cms.uint32(50),
minFracTot = cms.double(1e-20),
minFractionToKeep = cms.double(1e-07),
positionCalc = cms.PSet(
algoName = cms.string('Basic2DGenericPFlowPositionCalc'),
logWeightDenominator = cms.double(6e-05),
minAllowedNormalization = cms.double(1e-09),
minFractionInCalc = cms.double(1e-09),
posCalcNCrystals = cms.int32(-1)
),
recHitEnergyNorms = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
recHitEnergyNorm = cms.double(6e-05)
),
cms.PSet(
detector = cms.string('PS2'),
recHitEnergyNorm = cms.double(6e-05)
)
),
showerSigma = cms.double(0.3),
stoppingTolerance = cms.double(1e-08)
),
positionReCalc = cms.PSet(
),
recHitCleaners = cms.VPSet(),
recHitsSource = cms.InputTag("hltParticleFlowRecHitPSUnseeded"),
seedCleaners = cms.VPSet(),
seedFinder = cms.PSet(
algoName = cms.string('LocalMaximumSeedFinder'),
nNeighbours = cms.int32(4),
thresholdsByDetector = cms.VPSet(
cms.PSet(
detector = cms.string('PS1'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
),
cms.PSet(
detector = cms.string('PS2'),
seedingThreshold = cms.double(0.00012),
seedingThresholdPt = cms.double(0.0)
)
)
)
)
process.hltParticleFlowForTaus = cms.EDProducer("PFProducer",
GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"),
GedPhotonValueMap = cms.InputTag("tmpGedPhotons","valMapPFEgammaCandToPhoton"),
PFEGammaCandidates = cms.InputTag("particleFlowEGamma"),
PFEGammaFiltersParameters = cms.PSet(
electron_ecalDrivenHademPreselCut = cms.double(0.15),
electron_iso_combIso_barrel = cms.double(10.0),
electron_iso_combIso_endcap = cms.double(10.0),
electron_iso_mva_barrel = cms.double(-0.1875),
electron_iso_mva_endcap = cms.double(-0.1075),
electron_iso_pt = cms.double(10.0),
electron_maxElePtForOnlyMVAPresel = cms.double(50.0),
electron_missinghits = cms.uint32(1),
electron_noniso_mvaCut = cms.double(-0.1),
electron_protectionsForBadHcal = cms.PSet(
dEta = cms.vdouble(0.0064, 0.01264),
dPhi = cms.vdouble(0.0547, 0.0394),
eInvPInv = cms.vdouble(0.184, 0.0721),
enableProtections = cms.bool(False),
full5x5_sigmaIetaIeta = cms.vdouble(0.0106, 0.0387)
),
electron_protectionsForJetMET = cms.PSet(
maxDPhiIN = cms.double(0.1),
maxE = cms.double(50.0),
maxEcalEOverPRes = cms.double(0.2),
maxEcalEOverP_1 = cms.double(0.5),
maxEcalEOverP_2 = cms.double(0.2),
maxEeleOverPout = cms.double(0.2),
maxEeleOverPoutRes = cms.double(0.5),
maxEleHcalEOverEcalE = cms.double(0.1),
maxHcalE = cms.double(10.0),
maxHcalEOverEcalE = cms.double(0.1),
maxHcalEOverP = cms.double(1.0),
maxNtracks = cms.double(3.0),
maxTrackPOverEele = cms.double(1.0)
),
photon_HoE = cms.double(0.05),
photon_MinEt = cms.double(10.0),
photon_SigmaiEtaiEta_barrel = cms.double(0.0125),
photon_SigmaiEtaiEta_endcap = cms.double(0.034),
photon_combIso = cms.double(10.0),
photon_protectionsForBadHcal = cms.PSet(
enableProtections = cms.bool(False),
solidConeTrkIsoOffset = cms.double(10.0),
solidConeTrkIsoSlope = cms.double(0.3)
),
photon_protectionsForJetMET = cms.PSet(
sumPtTrackIso = cms.double(4.0),
sumPtTrackIsoSlope = cms.double(0.001)
)
),
PFHFCleaningParameters = cms.PSet(
maxDeltaPhiPt = cms.double(7.0),
maxSignificance = cms.double(2.5),
minDeltaMet = cms.double(0.4),
minHFCleaningPt = cms.double(5.0),
minSignificance = cms.double(2.5),
minSignificanceReduction = cms.double(1.4)
),
PFMuonAlgoParameters = cms.PSet(
),
blocks = cms.InputTag("hltParticleFlowBlockForTaus"),
calibHF_a_EMHAD = cms.vdouble(
1.42215, 1.00496, 0.68961, 0.81656, 0.98504,
0.98504, 1.00802, 1.0593, 1.4576, 1.4576
),
calibHF_a_EMonly = cms.vdouble(
0.96945, 0.96701, 0.76309, 0.82268, 0.87583,
0.89718, 0.98674, 1.4681, 1.458, 1.458
),
calibHF_b_EMHAD = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_b_HADonly = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_eta_step = cms.vdouble(
0.0, 2.9, 3.0, 3.2, 4.2,
4.4, 4.6, 4.8, 5.2, 5.4
),
calibHF_use = cms.bool(False),
calibrationsLabel = cms.string('HLT'),
cleanedHF = cms.VInputTag("hltParticleFlowRecHitHF:Cleaned", "hltParticleFlowClusterHF:Cleaned"),
debug = cms.untracked.bool(False),
dptRel_DispVtx = cms.double(10.0),
egammaElectrons = cms.InputTag(""),
factors_45 = cms.vdouble(10.0, 100.0),
goodPixelTrackDeadHcal_chi2n = cms.double(2.0),
goodPixelTrackDeadHcal_dxy = cms.double(0.02),
goodPixelTrackDeadHcal_dz = cms.double(0.05),
goodPixelTrackDeadHcal_maxLost3Hit = cms.int32(0),
goodPixelTrackDeadHcal_maxLost4Hit = cms.int32(1),
goodPixelTrackDeadHcal_maxPt = cms.double(50.0),
goodPixelTrackDeadHcal_minEta = cms.double(2.3),
goodPixelTrackDeadHcal_ptErrRel = cms.double(1.0),
goodTrackDeadHcal_chi2n = cms.double(5.0),
goodTrackDeadHcal_dxy = cms.double(0.5),
goodTrackDeadHcal_layers = cms.uint32(4),
goodTrackDeadHcal_ptErrRel = cms.double(0.2),
goodTrackDeadHcal_validFr = cms.double(0.5),
iCfgCandConnector = cms.PSet(
bCalibPrimary = cms.bool(False),
bCorrect = cms.bool(False),
nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05)
),
muon_ECAL = cms.vdouble(0.5, 0.5),
muon_HCAL = cms.vdouble(3.0, 3.0),
muon_HO = cms.vdouble(0.9, 0.9),
muons = cms.InputTag("hltMuons"),
nsigma_TRACK = cms.double(1.0),
pf_nsigma_ECAL = cms.double(0.0),
pf_nsigma_HCAL = cms.double(1.0),
pf_nsigma_HFEM = cms.double(1.0),
pf_nsigma_HFHAD = cms.double(1.0),
postHFCleaning = cms.bool(False),
postMuonCleaning = cms.bool(True),
pt_Error = cms.double(1.0),
rejectTracks_Bad = cms.bool(False),
rejectTracks_Step45 = cms.bool(False),
resolHF_square = cms.vdouble(7.834401, 0.012996, 0.0),
useCalibrationsFromDB = cms.bool(True),
useEGammaElectrons = cms.bool(False),
useEGammaFilters = cms.bool(False),
useHO = cms.bool(False),
usePFConversions = cms.bool(False),
usePFDecays = cms.bool(False),
usePFNuclearInteractions = cms.bool(False),
useProtectionsForJetMET = cms.bool(True),
useVerticesForNeutral = cms.bool(True),
verbose = cms.untracked.bool(False),
vertexCollection = cms.InputTag("hltPixelVertices"),
vetoEndcap = cms.bool(False)
)
process.hltParticleFlowROIForBTag = cms.EDProducer("PFProducer",
GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"),
GedPhotonValueMap = cms.InputTag("tmpGedPhotons","valMapPFEgammaCandToPhoton"),
PFEGammaCandidates = cms.InputTag("particleFlowEGamma"),
PFEGammaFiltersParameters = cms.PSet(
electron_ecalDrivenHademPreselCut = cms.double(0.15),
electron_iso_combIso_barrel = cms.double(10.0),
electron_iso_combIso_endcap = cms.double(10.0),
electron_iso_mva_barrel = cms.double(-0.1875),
electron_iso_mva_endcap = cms.double(-0.1075),
electron_iso_pt = cms.double(10.0),
electron_maxElePtForOnlyMVAPresel = cms.double(50.0),
electron_missinghits = cms.uint32(1),
electron_noniso_mvaCut = cms.double(-0.1),
electron_protectionsForBadHcal = cms.PSet(
dEta = cms.vdouble(0.0064, 0.01264),
dPhi = cms.vdouble(0.0547, 0.0394),
eInvPInv = cms.vdouble(0.184, 0.0721),
enableProtections = cms.bool(False),
full5x5_sigmaIetaIeta = cms.vdouble(0.0106, 0.0387)
),
electron_protectionsForJetMET = cms.PSet(
maxDPhiIN = cms.double(0.1),
maxE = cms.double(50.0),
maxEcalEOverPRes = cms.double(0.2),
maxEcalEOverP_1 = cms.double(0.5),
maxEcalEOverP_2 = cms.double(0.2),
maxEeleOverPout = cms.double(0.2),
maxEeleOverPoutRes = cms.double(0.5),
maxEleHcalEOverEcalE = cms.double(0.1),
maxHcalE = cms.double(10.0),
maxHcalEOverEcalE = cms.double(0.1),
maxHcalEOverP = cms.double(1.0),
maxNtracks = cms.double(3.0),
maxTrackPOverEele = cms.double(1.0)
),
photon_HoE = cms.double(0.05),
photon_MinEt = cms.double(10.0),
photon_SigmaiEtaiEta_barrel = cms.double(0.0125),
photon_SigmaiEtaiEta_endcap = cms.double(0.034),
photon_combIso = cms.double(10.0),
photon_protectionsForBadHcal = cms.PSet(
enableProtections = cms.bool(False),
solidConeTrkIsoOffset = cms.double(10.0),
solidConeTrkIsoSlope = cms.double(0.3)
),
photon_protectionsForJetMET = cms.PSet(
sumPtTrackIso = cms.double(4.0),
sumPtTrackIsoSlope = cms.double(0.001)
)
),
PFHFCleaningParameters = cms.PSet(
maxDeltaPhiPt = cms.double(7.0),
maxSignificance = cms.double(2.5),
minDeltaMet = cms.double(0.4),
minHFCleaningPt = cms.double(5.0),
minSignificance = cms.double(2.5),
minSignificanceReduction = cms.double(1.4)
),
PFMuonAlgoParameters = cms.PSet(
),
blocks = cms.InputTag("hltParticleFlowBlockROIForBTag"),
calibHF_a_EMHAD = cms.vdouble(
1.42215, 1.00496, 0.68961, 0.81656, 0.98504,
0.98504, 1.00802, 1.0593, 1.4576, 1.4576
),
calibHF_a_EMonly = cms.vdouble(
0.96945, 0.96701, 0.76309, 0.82268, 0.87583,
0.89718, 0.98674, 1.4681, 1.458, 1.458
),
calibHF_b_EMHAD = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_b_HADonly = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_eta_step = cms.vdouble(
0.0, 2.9, 3.0, 3.2, 4.2,
4.4, 4.6, 4.8, 5.2, 5.4
),
calibHF_use = cms.bool(False),
calibrationsLabel = cms.string('HLT'),
cleanedHF = cms.VInputTag("hltParticleFlowRecHitHF:Cleaned", "hltParticleFlowClusterHF:Cleaned"),
debug = cms.untracked.bool(False),
dptRel_DispVtx = cms.double(10.0),
egammaElectrons = cms.InputTag(""),
factors_45 = cms.vdouble(10.0, 100.0),
goodPixelTrackDeadHcal_chi2n = cms.double(2.0),
goodPixelTrackDeadHcal_dxy = cms.double(0.02),
goodPixelTrackDeadHcal_dz = cms.double(0.05),
goodPixelTrackDeadHcal_maxLost3Hit = cms.int32(0),
goodPixelTrackDeadHcal_maxLost4Hit = cms.int32(1),
goodPixelTrackDeadHcal_maxPt = cms.double(50.0),
goodPixelTrackDeadHcal_minEta = cms.double(2.3),
goodPixelTrackDeadHcal_ptErrRel = cms.double(1.0),
goodTrackDeadHcal_chi2n = cms.double(5.0),
goodTrackDeadHcal_dxy = cms.double(0.5),
goodTrackDeadHcal_layers = cms.uint32(4),
goodTrackDeadHcal_ptErrRel = cms.double(0.2),
goodTrackDeadHcal_validFr = cms.double(0.5),
iCfgCandConnector = cms.PSet(
bCalibPrimary = cms.bool(False),
bCorrect = cms.bool(False),
nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05)
),
muon_ECAL = cms.vdouble(0.5, 0.5),
muon_HCAL = cms.vdouble(3.0, 3.0),
muon_HO = cms.vdouble(0.9, 0.9),
muons = cms.InputTag("hltMuonsROIForBTag"),
nsigma_TRACK = cms.double(1.0),
pf_nsigma_ECAL = cms.double(0.0),
pf_nsigma_HCAL = cms.double(1.0),
pf_nsigma_HFEM = cms.double(1.0),
pf_nsigma_HFHAD = cms.double(1.0),
postHFCleaning = cms.bool(False),
postMuonCleaning = cms.bool(True),
pt_Error = cms.double(1.0),
rejectTracks_Bad = cms.bool(False),
rejectTracks_Step45 = cms.bool(False),
resolHF_square = cms.vdouble(7.834401, 0.012996, 0.0),
useCalibrationsFromDB = cms.bool(True),
useEGammaElectrons = cms.bool(False),
useEGammaFilters = cms.bool(False),
useHO = cms.bool(False),
usePFConversions = cms.bool(False),
usePFDecays = cms.bool(False),
usePFNuclearInteractions = cms.bool(False),
useProtectionsForJetMET = cms.bool(True),
useVerticesForNeutral = cms.bool(True),
verbose = cms.untracked.bool(False),
vertexCollection = cms.InputTag("hltPixelVertices"),
vetoEndcap = cms.bool(False)
)
process.hltParticleFlowRecHitECALForMuonsMF = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
barrel = cms.PSet(
),
endcap = cms.PSet(
),
name = cms.string('PFRecHitECALNavigator')
),
producers = cms.VPSet(
cms.PSet(
name = cms.string('PFEBRecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltRecHitInRegionForMuonsMF","EcalRegionalRecHitsEB")
),
cms.PSet(
name = cms.string('PFEERecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltRecHitInRegionForMuonsMF","EcalRegionalRecHitsEE")
)
)
)
process.hltParticleFlowRecHitECALForMuonsMFNoVtx = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
barrel = cms.PSet(
),
endcap = cms.PSet(
),
name = cms.string('PFRecHitECALNavigator')
),
producers = cms.VPSet(
cms.PSet(
name = cms.string('PFEBRecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltRecHitInRegionForMuonsMFnoVtx","EcalRegionalRecHitsEB")
),
cms.PSet(
name = cms.string('PFEERecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltRecHitInRegionForMuonsMFnoVtx","EcalRegionalRecHitsEE")
)
)
)
process.hltParticleFlowRecHitECALL1Seeded = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
barrel = cms.PSet(
),
endcap = cms.PSet(
),
name = cms.string('PFRecHitECALNavigator')
),
producers = cms.VPSet(
cms.PSet(
name = cms.string('PFEBRecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltRechitInRegionsECAL","EcalRecHitsEB")
),
cms.PSet(
name = cms.string('PFEERecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltRechitInRegionsECAL","EcalRecHitsEE")
)
)
)
process.hltParticleFlowRecHitECALUnseeded = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
barrel = cms.PSet(
),
endcap = cms.PSet(
),
name = cms.string('PFRecHitECALNavigator')
),
producers = cms.VPSet(
cms.PSet(
name = cms.string('PFEBRecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltEcalRecHit","EcalRecHitsEB")
),
cms.PSet(
name = cms.string('PFEERecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
applySelectionsToAllCrystals = cms.bool(True),
name = cms.string('PFRecHitQTestDBThreshold')
),
cms.PSet(
cleaningThreshold = cms.double(2.0),
name = cms.string('PFRecHitQTestECAL'),
skipTTRecoveredHits = cms.bool(True),
timingCleaning = cms.bool(True),
topologicalCleaning = cms.bool(True)
)
),
srFlags = cms.InputTag(""),
src = cms.InputTag("hltEcalRecHit","EcalRecHitsEE")
)
)
)
process.hltParticleFlowRecHitHBHE = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
hcalEnums = cms.vint32(1, 2),
name = cms.string('PFRecHitHCALDenseIdNavigator')
),
producers = cms.VPSet(cms.PSet(
name = cms.string('PFHBHERecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
cuts = cms.VPSet(
cms.PSet(
depth = cms.vint32(1, 2, 3, 4),
detectorEnum = cms.int32(1),
threshold = cms.vdouble(0.8, 0.8, 0.8, 0.8)
),
cms.PSet(
depth = cms.vint32(
1, 2, 3, 4, 5,
6, 7
),
detectorEnum = cms.int32(2),
threshold = cms.vdouble(
0.1, 0.2, 0.2, 0.2, 0.2,
0.2, 0.2
)
)
),
name = cms.string('PFRecHitQTestThreshold'),
threshold = cms.double(0.8)
),
cms.PSet(
cleaningThresholds = cms.vdouble(0.0),
flags = cms.vstring('Standard'),
maxSeverities = cms.vint32(11),
name = cms.string('PFRecHitQTestHCALChannel')
)
),
src = cms.InputTag("hltHbhereco")
))
)
process.hltParticleFlowRecHitHF = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
hcalEnums = cms.vint32(4),
name = cms.string('PFRecHitHCALDenseIdNavigator')
),
producers = cms.VPSet(cms.PSet(
EMDepthCorrection = cms.double(22.0),
HADDepthCorrection = cms.double(25.0),
HFCalib29 = cms.double(1.07),
LongFibre_Cut = cms.double(120.0),
LongFibre_Fraction = cms.double(0.1),
ShortFibre_Cut = cms.double(60.0),
ShortFibre_Fraction = cms.double(0.01),
name = cms.string('PFHFRecHitCreator'),
qualityTests = cms.VPSet(
cms.PSet(
cleaningThresholds = cms.vdouble(0.0, 120.0, 60.0),
flags = cms.vstring(
'Standard',
'HFLong',
'HFShort'
),
maxSeverities = cms.vint32(11, 9, 9),
name = cms.string('PFRecHitQTestHCALChannel')
),
cms.PSet(
cuts = cms.VPSet(cms.PSet(
depth = cms.vint32(1, 2),
detectorEnum = cms.int32(4),
threshold = cms.vdouble(1.2, 1.8)
)),
name = cms.string('PFRecHitQTestHCALThresholdVsDepth')
)
),
src = cms.InputTag("hltHfreco"),
thresh_HF = cms.double(0.4)
))
)
process.hltParticleFlowRecHitPSForMuons = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
name = cms.string('PFRecHitPreshowerNavigator')
),
producers = cms.VPSet(cms.PSet(
name = cms.string('PFPSRecHitCreator'),
qualityTests = cms.VPSet(cms.PSet(
name = cms.string('PFRecHitQTestThreshold'),
threshold = cms.double(7e-06)
)),
src = cms.InputTag("hltRecHitInRegionForMuonsES","EcalRegionalRecHitsES")
))
)
process.hltParticleFlowRecHitPSForMuonsNoVtx = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
name = cms.string('PFRecHitPreshowerNavigator')
),
producers = cms.VPSet(cms.PSet(
name = cms.string('PFPSRecHitCreator'),
qualityTests = cms.VPSet(cms.PSet(
name = cms.string('PFRecHitQTestThreshold'),
threshold = cms.double(7e-06)
)),
src = cms.InputTag("hltRecHitInRegionForMuonsESNoVtx","EcalRegionalRecHitsES")
))
)
process.hltParticleFlowRecHitPSL1Seeded = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
name = cms.string('PFRecHitPreshowerNavigator')
),
producers = cms.VPSet(cms.PSet(
name = cms.string('PFPSRecHitCreator'),
qualityTests = cms.VPSet(cms.PSet(
name = cms.string('PFRecHitQTestThreshold'),
threshold = cms.double(7e-06)
)),
src = cms.InputTag("hltRechitInRegionsES","EcalRecHitsES")
))
)
process.hltParticleFlowRecHitPSUnseeded = cms.EDProducer("PFRecHitProducer",
navigator = cms.PSet(
name = cms.string('PFRecHitPreshowerNavigator')
),
producers = cms.VPSet(cms.PSet(
name = cms.string('PFPSRecHitCreator'),
qualityTests = cms.VPSet(cms.PSet(
name = cms.string('PFRecHitQTestThreshold'),
threshold = cms.double(7e-06)
)),
src = cms.InputTag("hltEcalPreshowerRecHit","EcalRecHitsES")
))
)
process.hltParticleFlowReg = cms.EDProducer("PFProducer",
GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"),
GedPhotonValueMap = cms.InputTag("tmpGedPhotons","valMapPFEgammaCandToPhoton"),
PFEGammaCandidates = cms.InputTag("particleFlowEGamma"),
PFEGammaFiltersParameters = cms.PSet(
electron_ecalDrivenHademPreselCut = cms.double(0.15),
electron_iso_combIso_barrel = cms.double(10.0),
electron_iso_combIso_endcap = cms.double(10.0),
electron_iso_mva_barrel = cms.double(-0.1875),
electron_iso_mva_endcap = cms.double(-0.1075),
electron_iso_pt = cms.double(10.0),
electron_maxElePtForOnlyMVAPresel = cms.double(50.0),
electron_missinghits = cms.uint32(1),
electron_noniso_mvaCut = cms.double(-0.1),
electron_protectionsForBadHcal = cms.PSet(
dEta = cms.vdouble(0.0064, 0.01264),
dPhi = cms.vdouble(0.0547, 0.0394),
eInvPInv = cms.vdouble(0.184, 0.0721),
enableProtections = cms.bool(False),
full5x5_sigmaIetaIeta = cms.vdouble(0.0106, 0.0387)
),
electron_protectionsForJetMET = cms.PSet(
maxDPhiIN = cms.double(0.1),
maxE = cms.double(50.0),
maxEcalEOverPRes = cms.double(0.2),
maxEcalEOverP_1 = cms.double(0.5),
maxEcalEOverP_2 = cms.double(0.2),
maxEeleOverPout = cms.double(0.2),
maxEeleOverPoutRes = cms.double(0.5),
maxEleHcalEOverEcalE = cms.double(0.1),
maxHcalE = cms.double(10.0),
maxHcalEOverEcalE = cms.double(0.1),
maxHcalEOverP = cms.double(1.0),
maxNtracks = cms.double(3.0),
maxTrackPOverEele = cms.double(1.0)
),
photon_HoE = cms.double(0.05),
photon_MinEt = cms.double(10.0),
photon_SigmaiEtaiEta_barrel = cms.double(0.0125),
photon_SigmaiEtaiEta_endcap = cms.double(0.034),
photon_combIso = cms.double(10.0),
photon_protectionsForBadHcal = cms.PSet(
enableProtections = cms.bool(False),
solidConeTrkIsoOffset = cms.double(10.0),
solidConeTrkIsoSlope = cms.double(0.3)
),
photon_protectionsForJetMET = cms.PSet(
sumPtTrackIso = cms.double(4.0),
sumPtTrackIsoSlope = cms.double(0.001)
)
),
PFHFCleaningParameters = cms.PSet(
maxDeltaPhiPt = cms.double(7.0),
maxSignificance = cms.double(2.5),
minDeltaMet = cms.double(0.4),
minHFCleaningPt = cms.double(5.0),
minSignificance = cms.double(2.5),
minSignificanceReduction = cms.double(1.4)
),
PFMuonAlgoParameters = cms.PSet(
),
blocks = cms.InputTag("hltParticleFlowBlockReg"),
calibHF_a_EMHAD = cms.vdouble(
1.42215, 1.00496, 0.68961, 0.81656, 0.98504,
0.98504, 1.00802, 1.0593, 1.4576, 1.4576
),
calibHF_a_EMonly = cms.vdouble(
0.96945, 0.96701, 0.76309, 0.82268, 0.87583,
0.89718, 0.98674, 1.4681, 1.458, 1.458
),
calibHF_b_EMHAD = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_b_HADonly = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_eta_step = cms.vdouble(
0.0, 2.9, 3.0, 3.2, 4.2,
4.4, 4.6, 4.8, 5.2, 5.4
),
calibHF_use = cms.bool(False),
calibrationsLabel = cms.string('HLT'),
cleanedHF = cms.VInputTag("hltParticleFlowRecHitHF:Cleaned", "hltParticleFlowClusterHF:Cleaned"),
debug = cms.untracked.bool(False),
dptRel_DispVtx = cms.double(10.0),
egammaElectrons = cms.InputTag(""),
factors_45 = cms.vdouble(10.0, 100.0),
goodPixelTrackDeadHcal_chi2n = cms.double(2.0),
goodPixelTrackDeadHcal_dxy = cms.double(0.02),
goodPixelTrackDeadHcal_dz = cms.double(0.05),
goodPixelTrackDeadHcal_maxLost3Hit = cms.int32(0),
goodPixelTrackDeadHcal_maxLost4Hit = cms.int32(1),
goodPixelTrackDeadHcal_maxPt = cms.double(50.0),
goodPixelTrackDeadHcal_minEta = cms.double(2.3),
goodPixelTrackDeadHcal_ptErrRel = cms.double(1.0),
goodTrackDeadHcal_chi2n = cms.double(5.0),
goodTrackDeadHcal_dxy = cms.double(0.5),
goodTrackDeadHcal_layers = cms.uint32(4),
goodTrackDeadHcal_ptErrRel = cms.double(0.2),
goodTrackDeadHcal_validFr = cms.double(0.5),
iCfgCandConnector = cms.PSet(
bCalibPrimary = cms.bool(False),
bCorrect = cms.bool(False),
nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05)
),
muon_ECAL = cms.vdouble(0.5, 0.5),
muon_HCAL = cms.vdouble(3.0, 3.0),
muon_HO = cms.vdouble(0.9, 0.9),
muons = cms.InputTag("hltMuonsReg"),
nsigma_TRACK = cms.double(1.0),
pf_nsigma_ECAL = cms.double(0.0),
pf_nsigma_HCAL = cms.double(1.0),
pf_nsigma_HFEM = cms.double(1.0),
pf_nsigma_HFHAD = cms.double(1.0),
postHFCleaning = cms.bool(False),
postMuonCleaning = cms.bool(True),
pt_Error = cms.double(1.0),
rejectTracks_Bad = cms.bool(False),
rejectTracks_Step45 = cms.bool(False),
resolHF_square = cms.vdouble(7.834401, 0.012996, 0.0),
useCalibrationsFromDB = cms.bool(True),
useEGammaElectrons = cms.bool(False),
useEGammaFilters = cms.bool(False),
useHO = cms.bool(False),
usePFConversions = cms.bool(False),
usePFDecays = cms.bool(False),
usePFNuclearInteractions = cms.bool(False),
useProtectionsForJetMET = cms.bool(True),
useVerticesForNeutral = cms.bool(True),
verbose = cms.untracked.bool(False),
vertexCollection = cms.InputTag("hltPixelVertices"),
vetoEndcap = cms.bool(False)
)
process.hltParticleFlowSuperClusterECALL1Seeded = cms.EDProducer("PFECALSuperClusterProducer",
BeamSpot = cms.InputTag("hltOnlineBeamSpot"),
ClusteringType = cms.string('Mustache'),
ESAssociation = cms.InputTag("hltParticleFlowClusterECALL1Seeded"),
EnergyWeight = cms.string('Raw'),
PFBasicClusterCollectionBarrel = cms.string('hltParticleFlowBasicClusterECALBarrel'),
PFBasicClusterCollectionEndcap = cms.string('hltParticleFlowBasicClusterECALEndcap'),
PFBasicClusterCollectionPreshower = cms.string('hltParticleFlowBasicClusterECALPreshower'),
PFClusters = cms.InputTag("hltParticleFlowClusterECALL1Seeded"),
PFSuperClusterCollectionBarrel = cms.string('hltParticleFlowSuperClusterECALBarrel'),
PFSuperClusterCollectionEndcap = cms.string('hltParticleFlowSuperClusterECALEndcap'),
PFSuperClusterCollectionEndcapWithPreshower = cms.string('hltParticleFlowSuperClusterECALEndcapWithPreshower'),
applyCrackCorrections = cms.bool(False),
barrelRecHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"),
doSatelliteClusterMerge = cms.bool(False),
dropUnseedable = cms.bool(False),
endcapRecHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"),
etawidth_SuperClusterBarrel = cms.double(0.04),
etawidth_SuperClusterEndcap = cms.double(0.04),
isOOTCollection = cms.bool(False),
phiwidth_SuperClusterBarrel = cms.double(0.6),
phiwidth_SuperClusterEndcap = cms.double(0.6),
regressionConfig = cms.PSet(
ecalRecHitsEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ecalRecHitsEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
isHLT = cms.bool(True),
regressionKeyEB = cms.string('pfscecal_EBCorrection_online'),
regressionKeyEE = cms.string('pfscecal_EECorrection_online'),
uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_online'),
uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_online')
),
satelliteClusterSeedThreshold = cms.double(50.0),
satelliteMajorityFraction = cms.double(0.5),
seedThresholdIsET = cms.bool(True),
thresh_PFClusterBarrel = cms.double(0.5),
thresh_PFClusterES = cms.double(0.5),
thresh_PFClusterEndcap = cms.double(0.5),
thresh_PFClusterSeedBarrel = cms.double(1.0),
thresh_PFClusterSeedEndcap = cms.double(1.0),
thresh_SCEt = cms.double(4.0),
useDynamicDPhiWindow = cms.bool(True),
useRegression = cms.bool(True),
use_preshower = cms.bool(True),
verbose = cms.untracked.bool(False)
)
process.hltParticleFlowSuperClusterECALUnseeded = cms.EDProducer("PFECALSuperClusterProducer",
BeamSpot = cms.InputTag("hltOnlineBeamSpot"),
ClusteringType = cms.string('Mustache'),
ESAssociation = cms.InputTag("hltParticleFlowClusterECALUnseeded"),
EnergyWeight = cms.string('Raw'),
PFBasicClusterCollectionBarrel = cms.string('hltParticleFlowBasicClusterECALBarrel'),
PFBasicClusterCollectionEndcap = cms.string('hltParticleFlowBasicClusterECALEndcap'),
PFBasicClusterCollectionPreshower = cms.string('hltParticleFlowBasicClusterECALPreshower'),
PFClusters = cms.InputTag("hltParticleFlowClusterECALUnseeded"),
PFSuperClusterCollectionBarrel = cms.string('hltParticleFlowSuperClusterECALBarrel'),
PFSuperClusterCollectionEndcap = cms.string('hltParticleFlowSuperClusterECALEndcap'),
PFSuperClusterCollectionEndcapWithPreshower = cms.string('hltParticleFlowSuperClusterECALEndcapWithPreshower'),
applyCrackCorrections = cms.bool(False),
barrelRecHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"),
doSatelliteClusterMerge = cms.bool(False),
dropUnseedable = cms.bool(False),
endcapRecHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"),
etawidth_SuperClusterBarrel = cms.double(0.04),
etawidth_SuperClusterEndcap = cms.double(0.04),
isOOTCollection = cms.bool(False),
phiwidth_SuperClusterBarrel = cms.double(0.6),
phiwidth_SuperClusterEndcap = cms.double(0.6),
regressionConfig = cms.PSet(
ecalRecHitsEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ecalRecHitsEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
isHLT = cms.bool(True),
regressionKeyEB = cms.string('pfscecal_EBCorrection_online'),
regressionKeyEE = cms.string('pfscecal_EECorrection_online'),
uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_online'),
uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_online')
),
satelliteClusterSeedThreshold = cms.double(50.0),
satelliteMajorityFraction = cms.double(0.5),
seedThresholdIsET = cms.bool(True),
thresh_PFClusterBarrel = cms.double(0.5),
thresh_PFClusterES = cms.double(0.5),
thresh_PFClusterEndcap = cms.double(0.5),
thresh_PFClusterSeedBarrel = cms.double(1.0),
thresh_PFClusterSeedEndcap = cms.double(1.0),
thresh_SCEt = cms.double(4.0),
useDynamicDPhiWindow = cms.bool(True),
useRegression = cms.bool(True),
use_preshower = cms.bool(True),
verbose = cms.untracked.bool(False)
)
process.hltPatJetCharge = cms.EDProducer("JetChargeProducer",
exp = cms.double(1.0),
src = cms.InputTag("hltAk4JetTracksAssociatorAtVertexPF"),
var = cms.string('Pt')
)
process.hltPatJetCorrFactors = cms.EDProducer("JetCorrFactorsProducer",
emf = cms.bool(False),
extraJPTOffset = cms.string('L1FastJet'),
flavorType = cms.string('J'),
levels = cms.vstring(
'L1FastJet',
'L2Relative',
'L3Absolute'
),
mightGet = cms.optional.untracked.vstring,
payload = cms.string('AK4PFHLT'),
primaryVertices = cms.InputTag("hltVerticesPFFilterROIForBTag"),
rho = cms.InputTag("hltFixedGridRhoFastjetAllROIForBTag"),
src = cms.InputTag("hltAK4PFJetsROIForBTag"),
useNPV = cms.bool(True),
useRho = cms.bool(True)
)
process.hltPatJetCorrFactorsPuppi = cms.EDProducer("JetCorrFactorsProducer",
emf = cms.bool(False),
extraJPTOffset = cms.string('L1FastJet'),
flavorType = cms.string('J'),
levels = cms.vstring(
'L1FastJet',
'L2Relative',
'L3Absolute'
),
mightGet = cms.optional.untracked.vstring,
payload = cms.string('AK4PFPuppiHLT'),
primaryVertices = cms.InputTag("hltVerticesPFFilterROIForBTag"),
rho = cms.InputTag("hltFixedGridRhoFastjetAllROIForBTag"),
src = cms.InputTag("hltAK4PFPuppiJets"),
useNPV = cms.bool(True),
useRho = cms.bool(True)
)
process.hltPatJetFlavourAssociation = cms.EDProducer("JetFlavourClustering",
bHadrons = cms.InputTag("hltPatJetPartons","bHadrons"),
cHadrons = cms.InputTag("hltPatJetPartons","cHadrons"),
ghostRescaling = cms.double(1e-18),
hadronFlavourHasPriority = cms.bool(False),
jetAlgorithm = cms.string('AntiKt'),
jets = cms.InputTag("hltAK4PFJetsROIForBTag"),
leptons = cms.InputTag("hltPatJetPartons","leptons"),
partons = cms.InputTag("hltPatJetPartons","physicsPartons"),
rParam = cms.double(0.4)
)
process.hltPatJetFlavourAssociationCalo = cms.EDProducer("JetFlavourClustering",
bHadrons = cms.InputTag("hltPatJetPartons","bHadrons"),
cHadrons = cms.InputTag("hltPatJetPartons","cHadrons"),
ghostRescaling = cms.double(1e-18),
hadronFlavourHasPriority = cms.bool(False),
jetAlgorithm = cms.string('AntiKt'),
jets = cms.InputTag("hltSelectorCentralJets30L1FastJeta"),
leptons = cms.InputTag("hltPatJetPartons","leptons"),
partons = cms.InputTag("hltPatJetPartons","physicsPartons"),
rParam = cms.double(0.4)
)
process.hltPatJetFlavourAssociationLegacy = cms.EDProducer("JetFlavourIdentifier",
physicsDefinition = cms.bool(False),
srcByReference = cms.InputTag("hltPatJetPartonAssociationLegacy")
)
process.hltPatJetFlavourAssociationLegacyCalo = cms.EDProducer("JetFlavourIdentifier",
physicsDefinition = cms.bool(False),
srcByReference = cms.InputTag("hltPatJetPartonAssociationLegacyCalo")
)
process.hltPatJetFlavourAssociationLegacyPuppi = cms.EDProducer("JetFlavourIdentifier",
physicsDefinition = cms.bool(False),
srcByReference = cms.InputTag("hltPatJetPartonAssociationLegacyPuppi")
)
process.hltPatJetFlavourAssociationPuppi = cms.EDProducer("JetFlavourClustering",
bHadrons = cms.InputTag("hltPatJetPartons","bHadrons"),
cHadrons = cms.InputTag("hltPatJetPartons","cHadrons"),
ghostRescaling = cms.double(1e-18),
hadronFlavourHasPriority = cms.bool(False),
jetAlgorithm = cms.string('AntiKt'),
jets = cms.InputTag("hltAK4PFPuppiJets"),
leptons = cms.InputTag("hltPatJetPartons","leptons"),
partons = cms.InputTag("hltPatJetPartons","physicsPartons"),
rParam = cms.double(0.4),
weights = cms.InputTag("hltPFPuppi")
)
process.hltPatJetGenJetMatch = cms.EDProducer("GenJetMatcher",
checkCharge = cms.bool(False),
matched = cms.InputTag("hltSlimmedGenJets"),
maxDeltaR = cms.double(0.4),
mcPdgId = cms.vint32(),
mcStatus = cms.vint32(),
resolveAmbiguities = cms.bool(True),
resolveByMatchQuality = cms.bool(False),
src = cms.InputTag("hltAK4PFJetsROIForBTag")
)
process.hltPatJetGenJetMatchCalo = cms.EDProducer("GenJetMatcher",
checkCharge = cms.bool(False),
matched = cms.InputTag("hltSlimmedGenJets"),
maxDeltaR = cms.double(0.4),
mcPdgId = cms.vint32(),
mcStatus = cms.vint32(),
resolveAmbiguities = cms.bool(True),
resolveByMatchQuality = cms.bool(False),
src = cms.InputTag("hltSelectorCentralJets30L1FastJeta")
)
process.hltPatJetGenJetMatchPuppi = cms.EDProducer("GenJetMatcher",
checkCharge = cms.bool(False),
matched = cms.InputTag("hltSlimmedGenJets"),
maxDeltaR = cms.double(0.4),
mcPdgId = cms.vint32(),
mcStatus = cms.vint32(),
resolveAmbiguities = cms.bool(True),
resolveByMatchQuality = cms.bool(False),
src = cms.InputTag("hltAK4PFPuppiJets")
)
process.hltPatJetPartonAssociationLegacy = cms.EDProducer("JetPartonMatcher",
coneSizeToAssociate = cms.double(0.3),
jets = cms.InputTag("hltAK4PFJetsROIForBTag"),
partons = cms.InputTag("hltPatJetPartonsLegacy")
)
process.hltPatJetPartonAssociationLegacyCalo = cms.EDProducer("JetPartonMatcher",
coneSizeToAssociate = cms.double(0.3),
jets = cms.InputTag("hltSelectorCentralJets30L1FastJeta"),
partons = cms.InputTag("hltPatJetPartonsLegacy")
)
process.hltPatJetPartonAssociationLegacyPuppi = cms.EDProducer("JetPartonMatcher",
coneSizeToAssociate = cms.double(0.3),
jets = cms.InputTag("hltAK4PFPuppiJets"),
partons = cms.InputTag("hltPatJetPartonsLegacy")
)
process.hltPatJetPartonMatch = cms.EDProducer("MCMatcher",
checkCharge = cms.bool(False),
matched = cms.InputTag("hltPrunedGenParticles"),
maxDPtRel = cms.double(3.0),
maxDeltaR = cms.double(0.4),
mcPdgId = cms.vint32(
1, 2, 3, 4, 5,
21
),
mcStatus = cms.vint32(3, 23),
resolveAmbiguities = cms.bool(True),
resolveByMatchQuality = cms.bool(False),
src = cms.InputTag("hltAK4PFJetsROIForBTag")
)
process.hltPatJetPartonMatchCalo = cms.EDProducer("MCMatcher",
checkCharge = cms.bool(False),
matched = cms.InputTag("hltPrunedGenParticles"),
maxDPtRel = cms.double(3.0),
maxDeltaR = cms.double(0.4),
mcPdgId = cms.vint32(
1, 2, 3, 4, 5,
21
),
mcStatus = cms.vint32(3, 23),
resolveAmbiguities = cms.bool(True),
resolveByMatchQuality = cms.bool(False),
src = cms.InputTag("hltSelectorCentralJets30L1FastJeta")
)
process.hltPatJetPartonMatchPuppi = cms.EDProducer("MCMatcher",
checkCharge = cms.bool(False),
matched = cms.InputTag("hltPrunedGenParticles"),
maxDPtRel = cms.double(3.0),
maxDeltaR = cms.double(0.4),
mcPdgId = cms.vint32(
1, 2, 3, 4, 5,
21
),
mcStatus = cms.vint32(3, 23),
resolveAmbiguities = cms.bool(True),
resolveByMatchQuality = cms.bool(False),
src = cms.InputTag("hltAK4PFPuppiJets")
)
process.hltPatJetPartons = cms.EDProducer("HadronAndPartonSelector",
fullChainPhysPartons = cms.bool(True),
particles = cms.InputTag("genParticles"),
partonMode = cms.string('Auto'),
src = cms.InputTag("generator")
)
process.hltPatJetPartonsLegacy = cms.EDProducer("PartonSelector",
src = cms.InputTag("genParticles"),
withLeptons = cms.bool(False)
)
process.hltPatJets = cms.EDProducer("PATJetProducer",
JetFlavourInfoSource = cms.InputTag(""),
JetPartonMapSource = cms.InputTag(""),
addAssociatedTracks = cms.bool(True),
addBTagInfo = cms.bool(True),
addDiscriminators = cms.bool(True),
addEfficiencies = cms.bool(False),
addGenJetMatch = cms.bool(False),
addGenPartonMatch = cms.bool(False),
addJetCharge = cms.bool(True),
addJetCorrFactors = cms.bool(True),
addJetFlavourInfo = cms.bool(False),
addJetID = cms.bool(False),
addPartonJetMatch = cms.bool(False),
addResolutions = cms.bool(False),
addTagInfos = cms.bool(True),
discriminatorSources = cms.VInputTag(
cms.InputTag("hltDeepCombinedSecondaryVertexBPFPatJetTags","probb"), cms.InputTag("hltDeepCombinedSecondaryVertexBPFPatJetTags","probc"), cms.InputTag("hltDeepCombinedSecondaryVertexBPFPatJetTags","probudsg"), cms.InputTag("hltPFDeepFlavourPatJetTags","probb"), cms.InputTag("hltPFDeepFlavourPatJetTags","probc"),
cms.InputTag("hltPFDeepFlavourPatJetTags","probg"), cms.InputTag("hltPFDeepFlavourPatJetTags","problepb"), cms.InputTag("hltPFDeepFlavourPatJetTags","probbb"), cms.InputTag("hltPFDeepFlavourPatJetTags","probuds")
),
efficiencies = cms.PSet(
),
embedCaloTowers = cms.bool(False),
embedGenJetMatch = cms.bool(True),
embedGenPartonMatch = cms.bool(False),
embedPFCandidates = cms.bool(False),
genJetMatch = cms.InputTag(""),
genPartonMatch = cms.InputTag(""),
getJetMCFlavour = cms.bool(True),
jetChargeSource = cms.InputTag("hltPatJetCharge"),
jetCorrFactorsSource = cms.VInputTag(cms.InputTag("hltPatJetCorrFactors")),
jetIDMap = cms.InputTag("hltAk4JetID"),
jetSource = cms.InputTag("hltAK4PFJetsROIForBTag"),
mightGet = cms.optional.untracked.vstring,
partonJetSource = cms.InputTag("NOT_IMPLEMENTED"),
resolutions = cms.PSet(
),
tagInfoSources = cms.VInputTag(cms.InputTag("hltDeepBLifetimePFPatTagInfos"), cms.InputTag("hltDeepCombinedSecondaryVertexBJetPatTagInfos"), cms.InputTag("hltDeepSecondaryVertexPFPatTagInfos"), cms.InputTag("hltPFDeepFlavourPatTagInfos")),
trackAssociationSource = cms.InputTag("hltAk4JetTracksAssociatorAtVertexPF"),
useLegacyJetMCFlavour = cms.bool(False),
userData = cms.PSet(
userCands = cms.PSet(
src = cms.VInputTag("")
),
userClasses = cms.PSet(
src = cms.VInputTag("")
),
userFloats = cms.PSet(
src = cms.VInputTag("")
),
userFunctionLabels = cms.vstring(),
userFunctions = cms.vstring(),
userInts = cms.PSet(
src = cms.VInputTag("")
)
)
)
process.hltPatJetsCalo = cms.EDProducer("PATJetProducer",
JetFlavourInfoSource = cms.InputTag(""),
JetPartonMapSource = cms.InputTag(""),
addAssociatedTracks = cms.bool(True),
addBTagInfo = cms.bool(True),
addDiscriminators = cms.bool(True),
addEfficiencies = cms.bool(False),
addGenJetMatch = cms.bool(False),
addGenPartonMatch = cms.bool(False),
addJetCharge = cms.bool(False),
addJetCorrFactors = cms.bool(False),
addJetFlavourInfo = cms.bool(False),
addJetID = cms.bool(False),
addPartonJetMatch = cms.bool(False),
addResolutions = cms.bool(False),
addTagInfos = cms.bool(True),
discriminatorSources = cms.VInputTag(cms.InputTag("hltDeepCombinedSecondaryVertexCaloPatBJetTags","probb"), cms.InputTag("hltDeepCombinedSecondaryVertexCaloPatBJetTags","probc"), cms.InputTag("hltDeepCombinedSecondaryVertexCaloPatBJetTags","probudsg")),
efficiencies = cms.PSet(
),
embedCaloTowers = cms.bool(True),
embedGenJetMatch = cms.bool(True),
embedGenPartonMatch = cms.bool(False),
embedPFCandidates = cms.bool(False),
genJetMatch = cms.InputTag(""),
genPartonMatch = cms.InputTag(""),
getJetMCFlavour = cms.bool(True),
jetChargeSource = cms.InputTag("patJetCharge"),
jetCorrFactorsSource = cms.VInputTag("patJetCorrFactors"),
jetIDMap = cms.InputTag("ak4JetID"),
jetSource = cms.InputTag("hltSelectorCentralJets30L1FastJeta"),
mightGet = cms.optional.untracked.vstring,
partonJetSource = cms.InputTag("NOT_IMPLEMENTED"),
resolutions = cms.PSet(
),
tagInfoSources = cms.VInputTag(cms.InputTag("hltImpactParameterPatTagInfos"), cms.InputTag("hltDeepCombinedSecondaryVertexBJetCaloPatTagInfos"), cms.InputTag("hltInclusiveSecondaryVertexFinderPatTagInfos")),
trackAssociationSource = cms.InputTag("hltAk4JetTracksAssociatorAtVertexCalo"),
useLegacyJetMCFlavour = cms.bool(False),
userData = cms.PSet(
userCands = cms.PSet(
src = cms.VInputTag("")
),
userClasses = cms.PSet(
src = cms.VInputTag("")
),
userFloats = cms.PSet(
src = cms.VInputTag("")
),
userFunctionLabels = cms.vstring(),
userFunctions = cms.vstring(),
userInts = cms.PSet(
src = cms.VInputTag("")
)
)
)
process.hltPatJetsPuppi = cms.EDProducer("PATJetProducer",
JetFlavourInfoSource = cms.InputTag(""),
JetPartonMapSource = cms.InputTag(""),
addAssociatedTracks = cms.bool(True),
addBTagInfo = cms.bool(True),
addDiscriminators = cms.bool(True),
addEfficiencies = cms.bool(False),
addGenJetMatch = cms.bool(False),
addGenPartonMatch = cms.bool(False),
addJetCharge = cms.bool(True),
addJetCorrFactors = cms.bool(True),
addJetFlavourInfo = cms.bool(False),
addJetID = cms.bool(False),
addPartonJetMatch = cms.bool(False),
addResolutions = cms.bool(False),
addTagInfos = cms.bool(True),
discriminatorSources = cms.VInputTag(
cms.InputTag("hltDeepCombinedSecondaryVertexBPFPuppiPatJetTags","probb"), cms.InputTag("hltDeepCombinedSecondaryVertexBPFPuppiPatJetTags","probc"), cms.InputTag("hltDeepCombinedSecondaryVertexBPFPuppiPatJetTags","probudsg"), cms.InputTag("hltPFPuppiDeepFlavourJetTags","probb"), cms.InputTag("hltPFPuppiDeepFlavourJetTags","probc"),
cms.InputTag("hltPFPuppiDeepFlavourJetTags","probg"), cms.InputTag("hltPFPuppiDeepFlavourJetTags","problepb"), cms.InputTag("hltPFPuppiDeepFlavourJetTags","probbb"), cms.InputTag("hltPFPuppiDeepFlavourJetTags","probuds")
),
efficiencies = cms.PSet(
),
embedCaloTowers = cms.bool(False),
embedGenJetMatch = cms.bool(True),
embedGenPartonMatch = cms.bool(False),
embedPFCandidates = cms.bool(False),
genJetMatch = cms.InputTag(""),
genPartonMatch = cms.InputTag(""),
getJetMCFlavour = cms.bool(True),
jetChargeSource = cms.InputTag("patJetPuppiCharge"),
jetCorrFactorsSource = cms.VInputTag(cms.InputTag("hltPatJetCorrFactorsPuppi")),
jetIDMap = cms.InputTag("hltAk4JetID"),
jetSource = cms.InputTag("hltAK4PFPuppiJets"),
mightGet = cms.optional.untracked.vstring,
partonJetSource = cms.InputTag("NOT_IMPLEMENTED"),
resolutions = cms.PSet(
),
tagInfoSources = cms.VInputTag(cms.InputTag("hltDeepBLifetimePFPuppiPatTagInfos"), cms.InputTag("hltDeepCombinedSecondaryVertexBPuppiJetPatTagInfos"), cms.InputTag("hltDeepSecondaryVertexPFPuppiPatTagInfos"), cms.InputTag("hltPFPuppiDeepFlavourTagInfos")),
trackAssociationSource = cms.InputTag("hltAk4JetTracksAssociatorAtVertexPFPuppi"),
useLegacyJetMCFlavour = cms.bool(False),
userData = cms.PSet(
userCands = cms.PSet(
src = cms.VInputTag("")
),
userClasses = cms.PSet(
src = cms.VInputTag("")
),
userFloats = cms.PSet(
src = cms.VInputTag("")
),
userFunctionLabels = cms.vstring(),
userFunctions = cms.vstring(),
userInts = cms.PSet(
src = cms.VInputTag("")
)
)
)
process.hltPixelLayerPairs = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix1+BPix4',
'BPix2+BPix3',
'BPix2+BPix4',
'BPix3+BPix4',
'FPix1_pos+FPix2_pos',
'FPix1_pos+FPix3_pos',
'FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos',
'BPix1+FPix2_pos',
'BPix1+FPix3_pos',
'BPix2+FPix1_pos',
'BPix2+FPix2_pos',
'BPix2+FPix3_pos',
'BPix3+FPix1_pos',
'BPix3+FPix2_pos',
'BPix3+FPix3_pos',
'BPix4+FPix1_pos',
'BPix4+FPix2_pos',
'BPix4+FPix3_pos',
'FPix1_neg+FPix2_neg',
'FPix1_neg+FPix3_neg',
'FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg',
'BPix1+FPix2_neg',
'BPix1+FPix3_neg',
'BPix2+FPix1_neg',
'BPix2+FPix2_neg',
'BPix2+FPix3_neg',
'BPix3+FPix1_neg',
'BPix3+FPix2_neg',
'BPix3+FPix3_neg',
'BPix4+FPix1_neg',
'BPix4+FPix2_neg',
'BPix4+FPix3_neg'
)
)
process.hltPixelLayerPairsLegacy = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2',
'BPix1+BPix3',
'BPix2+BPix3',
'BPix1+FPix1_pos',
'BPix1+FPix1_neg',
'BPix1+FPix2_pos',
'BPix1+FPix2_neg',
'BPix2+FPix1_pos',
'BPix2+FPix1_neg',
'BPix2+FPix2_pos',
'BPix2+FPix2_neg',
'FPix1_pos+FPix2_pos',
'FPix1_neg+FPix2_neg'
)
)
process.hltPixelLayerQuadruplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltPixelLayerQuadrupletsRegForBTag = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForBTag'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltPixelLayerQuadrupletsRegForTau = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForTau'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForTau'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltPixelLayerQuadrupletsRegL1TauSeeded = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegL1TauSeeded'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegL1TauSeeded'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3+BPix4',
'BPix1+BPix2+BPix3+FPix1_pos',
'BPix1+BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos+FPix2_pos',
'BPix1+BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos+FPix3_pos',
'BPix1+FPix1_neg+FPix2_neg+FPix3_neg'
)
)
process.hltPixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltPixelLayerTripletsWithClustersRemovalRegForTau = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForTau'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltPixelTripletsClustersRefRemovalRegForTau"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegForTau'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltPixelTripletsClustersRefRemovalRegForTau"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltPixelLayerTripletsWithClustersRemovalRegL1TauSeeded = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegL1TauSeeded'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltPixelTripletsClustersRefRemovalRegL1TauSeeded"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHitsRegL1TauSeeded'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltPixelTripletsClustersRefRemovalRegL1TauSeeded"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltPixelOnlyMuonLinks = cms.EDProducer("MuonLinksProducerForHLT",
InclusiveTrackerTrackCollection = cms.InputTag("hltPixelOnlyPFMuonMerging"),
LinkCollection = cms.InputTag("hltL3MuonsIterL3Links"),
pMin = cms.double(2.5),
ptMin = cms.double(2.5),
shareHitFraction = cms.double(0.8)
)
process.hltPixelOnlyMuons = cms.EDProducer("MuonIdProducer",
CaloExtractorPSet = cms.PSet(
CenterConeOnCalIntersection = cms.bool(False),
ComponentName = cms.string('CaloExtractorByAssociator'),
DR_Max = cms.double(1.0),
DR_Veto_E = cms.double(0.07),
DR_Veto_H = cms.double(0.1),
DR_Veto_HO = cms.double(0.1),
DepositInstanceLabels = cms.vstring(
'ecal',
'hcal',
'ho'
),
DepositLabel = cms.untracked.string('Cal'),
NoiseTow_EB = cms.double(0.04),
NoiseTow_EE = cms.double(0.15),
Noise_EB = cms.double(0.025),
Noise_EE = cms.double(0.1),
Noise_HB = cms.double(0.2),
Noise_HE = cms.double(0.2),
Noise_HO = cms.double(0.2),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold_E = cms.double(0.2),
Threshold_H = cms.double(0.5),
Threshold_HO = cms.double(0.5),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(1.0),
dREcalPreselection = cms.double(1.0),
dRHcal = cms.double(1.0),
dRHcalPreselection = cms.double(1.0),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
),
UseRecHitsFlag = cms.bool(False)
),
JetExtractorPSet = cms.PSet(
ComponentName = cms.string('JetExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.1),
ExcludeMuonVeto = cms.bool(True),
JetCollectionLabel = cms.InputTag("hltAK4CaloJetsPFEt5"),
PrintTimeReport = cms.untracked.bool(False),
PropagatorName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(False),
UseMuonNavigation = cms.untracked.bool(False)
),
Threshold = cms.double(5.0),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(0.5),
dREcalPreselection = cms.double(0.5),
dRHcal = cms.double(0.5),
dRHcalPreselection = cms.double(0.5),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(True),
useEcal = cms.bool(False),
useHO = cms.bool(False),
useHcal = cms.bool(False),
useMuon = cms.bool(False),
usePreshower = cms.bool(False)
)
),
MuonCaloCompatibility = cms.PSet(
MuonTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_muons_lowPt_3_1_norm.root'),
PionTemplateFileName = cms.FileInPath('RecoMuon/MuonIdentification/data/MuID_templates_pions_lowPt_3_1_norm.root'),
allSiPMHO = cms.bool(False),
delta_eta = cms.double(0.02),
delta_phi = cms.double(0.02)
),
ShowerDigiFillerParameters = cms.PSet(
cscDigiCollectionLabel = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"),
digiMaxDistanceX = cms.double(25.0),
dtDigiCollectionLabel = cms.InputTag("muonDTDigis")
),
TimingFillerParameters = cms.PSet(
CSCTimingParameters = cms.PSet(
CSCStripError = cms.double(7.0),
CSCStripTimeOffset = cms.double(0.0),
CSCTimeOffset = cms.double(0.0),
CSCWireError = cms.double(8.6),
CSCWireTimeOffset = cms.double(0.0),
CSCsegments = cms.InputTag("hltCscSegments"),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(100.0),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseStripTime = cms.bool(True),
UseWireTime = cms.bool(True),
debug = cms.bool(False)
),
DTTimingParameters = cms.PSet(
DTTimeOffset = cms.double(2.7),
DTsegments = cms.InputTag("hltDt4DSegments"),
DoWireCorr = cms.bool(False),
DropTheta = cms.bool(True),
HitError = cms.double(6.0),
HitsMin = cms.int32(5),
MatchParameters = cms.PSet(
CSCsegments = cms.InputTag("hltCscSegments"),
DTradius = cms.double(0.01),
DTsegments = cms.InputTag("hltDt4DSegments"),
TightMatchCSC = cms.bool(True),
TightMatchDT = cms.bool(False)
),
PruneCut = cms.double(10000.0),
RequireBothProjections = cms.bool(False),
ServiceParameters = cms.PSet(
Propagators = cms.untracked.vstring('hltESPFastSteppingHelixPropagatorAny'),
RPCLayers = cms.bool(True)
),
UseSegmentT0 = cms.bool(False),
debug = cms.bool(False)
),
EcalEnergyCut = cms.double(0.4),
ErrorCSC = cms.double(7.4),
ErrorDT = cms.double(6.0),
ErrorEB = cms.double(2.085),
ErrorEE = cms.double(6.95),
UseCSC = cms.bool(True),
UseDT = cms.bool(True),
UseECAL = cms.bool(True)
),
TrackAssociatorParameters = cms.PSet(
CSCSegmentCollectionLabel = cms.InputTag("hltCscSegments"),
CaloTowerCollectionLabel = cms.InputTag("hltTowerMakerForAll"),
DTRecSegment4DCollectionLabel = cms.InputTag("hltDt4DSegments"),
EBRecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
EERecHitCollectionLabel = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
HBHERecHitCollectionLabel = cms.InputTag("hltHbhereco"),
HORecHitCollectionLabel = cms.InputTag("hltHoreco"),
accountForTrajectoryChangeCalo = cms.bool(False),
dREcal = cms.double(9999.0),
dREcalPreselection = cms.double(0.05),
dRHcal = cms.double(9999.0),
dRHcalPreselection = cms.double(0.2),
dRMuon = cms.double(9999.0),
dRMuonPreselection = cms.double(0.2),
dRPreshowerPreselection = cms.double(0.2),
muonMaxDistanceSigmaX = cms.double(0.0),
muonMaxDistanceSigmaY = cms.double(0.0),
muonMaxDistanceX = cms.double(5.0),
muonMaxDistanceY = cms.double(5.0),
propagateAllDirections = cms.bool(True),
trajectoryUncertaintyTolerance = cms.double(-1.0),
truthMatch = cms.bool(False),
useCalo = cms.bool(False),
useEcal = cms.bool(True),
useHO = cms.bool(True),
useHcal = cms.bool(True),
useMuon = cms.bool(True),
usePreshower = cms.bool(False)
),
TrackExtractorPSet = cms.PSet(
BeamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
BeamlineOption = cms.string('BeamSpotFromEvent'),
Chi2Ndof_Max = cms.double(1e+64),
Chi2Prob_Min = cms.double(-1.0),
ComponentName = cms.string('TrackExtractor'),
DR_Max = cms.double(1.0),
DR_Veto = cms.double(0.01),
DepositLabel = cms.untracked.string(''),
Diff_r = cms.double(0.1),
Diff_z = cms.double(0.2),
NHits_Min = cms.uint32(0),
Pt_Min = cms.double(-1.0),
inputTrackCollection = cms.InputTag("hltPixelOnlyPFMuonMerging")
),
TrackerKinkFinderParameters = cms.PSet(
diagonalOnly = cms.bool(False),
usePosition = cms.bool(False)
),
addExtraSoftMuons = cms.bool(False),
arbitrateTrackerMuons = cms.bool(False),
arbitrationCleanerOptions = cms.PSet(
ClusterDPhi = cms.double(0.6),
ClusterDTheta = cms.double(0.02),
Clustering = cms.bool(True),
ME1a = cms.bool(True),
Overlap = cms.bool(True),
OverlapDPhi = cms.double(0.0786),
OverlapDTheta = cms.double(0.02)
),
debugWithTruthMatching = cms.bool(False),
ecalDepositName = cms.string('ecal'),
fillCaloCompatibility = cms.bool(True),
fillEnergy = cms.bool(True),
fillGlobalTrackQuality = cms.bool(False),
fillGlobalTrackRefits = cms.bool(False),
fillIsolation = cms.bool(True),
fillMatching = cms.bool(True),
fillShowerDigis = cms.bool(False),
fillTrackerKink = cms.bool(False),
globalTrackQualityInputTag = cms.InputTag("glbTrackQual"),
hcalDepositName = cms.string('hcal'),
hoDepositName = cms.string('ho'),
inputCollectionLabels = cms.VInputTag("hltPixelOnlyPFMuonMerging", "hltPixelOnlyMuonLinks", "hltL2Muons"),
inputCollectionTypes = cms.vstring(
'inner tracks',
'links',
'outer tracks'
),
jetDepositName = cms.string('jets'),
maxAbsDx = cms.double(3.0),
maxAbsDy = cms.double(9999.0),
maxAbsEta = cms.double(3.0),
maxAbsPullX = cms.double(4.0),
maxAbsPullY = cms.double(9999.0),
minCaloCompatibility = cms.double(0.6),
minNumberOfMatches = cms.int32(1),
minP = cms.double(10.0),
minPCaloMuon = cms.double(1000000000.0),
minPt = cms.double(10.0),
ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0),
runArbitrationCleaner = cms.bool(False),
sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0),
storeCrossedHcalRecHits = cms.bool(False),
trackDepositName = cms.string('tracker'),
writeIsoDeposits = cms.bool(False)
)
process.hltPixelOnlyPFMETProducer = cms.EDProducer("PFMETProducer",
alias = cms.string('hltPFMet'),
applyWeight = cms.bool(False),
calculateSignificance = cms.bool(False),
globalThreshold = cms.double(0.0),
parameters = cms.PSet(
),
src = cms.InputTag("hltPixelOnlyParticleFlow"),
srcWeights = cms.InputTag("")
)
process.hltPixelOnlyPFMuonMerging = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIterL3MuonTracks", "hltPixelTracksZetaClean"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIterL3MuonTracks", "hltPixelTracksZetaClean"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltPixelOnlyParticleFlow = cms.EDProducer("PFProducer",
GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"),
GedPhotonValueMap = cms.InputTag("tmpGedPhotons","valMapPFEgammaCandToPhoton"),
PFEGammaCandidates = cms.InputTag("particleFlowEGamma"),
PFEGammaFiltersParameters = cms.PSet(
electron_ecalDrivenHademPreselCut = cms.double(0.15),
electron_iso_combIso_barrel = cms.double(10.0),
electron_iso_combIso_endcap = cms.double(10.0),
electron_iso_mva_barrel = cms.double(-0.1875),
electron_iso_mva_endcap = cms.double(-0.1075),
electron_iso_pt = cms.double(10.0),
electron_maxElePtForOnlyMVAPresel = cms.double(50.0),
electron_missinghits = cms.uint32(1),
electron_noniso_mvaCut = cms.double(-0.1),
electron_protectionsForBadHcal = cms.PSet(
dEta = cms.vdouble(0.0064, 0.01264),
dPhi = cms.vdouble(0.0547, 0.0394),
eInvPInv = cms.vdouble(0.184, 0.0721),
enableProtections = cms.bool(False),
full5x5_sigmaIetaIeta = cms.vdouble(0.0106, 0.0387)
),
electron_protectionsForJetMET = cms.PSet(
maxDPhiIN = cms.double(0.1),
maxE = cms.double(50.0),
maxEcalEOverPRes = cms.double(0.2),
maxEcalEOverP_1 = cms.double(0.5),
maxEcalEOverP_2 = cms.double(0.2),
maxEeleOverPout = cms.double(0.2),
maxEeleOverPoutRes = cms.double(0.5),
maxEleHcalEOverEcalE = cms.double(0.1),
maxHcalE = cms.double(10.0),
maxHcalEOverEcalE = cms.double(0.1),
maxHcalEOverP = cms.double(1.0),
maxNtracks = cms.double(3.0),
maxTrackPOverEele = cms.double(1.0)
),
photon_HoE = cms.double(0.05),
photon_MinEt = cms.double(10.0),
photon_SigmaiEtaiEta_barrel = cms.double(0.0125),
photon_SigmaiEtaiEta_endcap = cms.double(0.034),
photon_combIso = cms.double(10.0),
photon_protectionsForBadHcal = cms.PSet(
enableProtections = cms.bool(False),
solidConeTrkIsoOffset = cms.double(10.0),
solidConeTrkIsoSlope = cms.double(0.3)
),
photon_protectionsForJetMET = cms.PSet(
sumPtTrackIso = cms.double(4.0),
sumPtTrackIsoSlope = cms.double(0.001)
)
),
PFHFCleaningParameters = cms.PSet(
maxDeltaPhiPt = cms.double(7.0),
maxSignificance = cms.double(2.5),
minDeltaMet = cms.double(0.4),
minHFCleaningPt = cms.double(5.0),
minSignificance = cms.double(2.5),
minSignificanceReduction = cms.double(1.4)
),
PFMuonAlgoParameters = cms.PSet(
),
blocks = cms.InputTag("hltPixelOnlyParticleFlowBlock"),
calibHF_a_EMHAD = cms.vdouble(
1.42215, 1.00496, 0.68961, 0.81656, 0.98504,
0.98504, 1.00802, 1.0593, 1.4576, 1.4576
),
calibHF_a_EMonly = cms.vdouble(
0.96945, 0.96701, 0.76309, 0.82268, 0.87583,
0.89718, 0.98674, 1.4681, 1.458, 1.458
),
calibHF_b_EMHAD = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_b_HADonly = cms.vdouble(
1.27541, 0.85361, 0.86333, 0.89091, 0.94348,
0.94348, 0.9437, 1.0034, 1.0444, 1.0444
),
calibHF_eta_step = cms.vdouble(
0.0, 2.9, 3.0, 3.2, 4.2,
4.4, 4.6, 4.8, 5.2, 5.4
),
calibHF_use = cms.bool(False),
calibrationsLabel = cms.string('HLT'),
cleanedHF = cms.VInputTag("hltParticleFlowRecHitHF:Cleaned", "hltParticleFlowClusterHF:Cleaned"),
debug = cms.untracked.bool(False),
dptRel_DispVtx = cms.double(10.0),
egammaElectrons = cms.InputTag(""),
factors_45 = cms.vdouble(10.0, 100.0),
goodPixelTrackDeadHcal_chi2n = cms.double(2.0),
goodPixelTrackDeadHcal_dxy = cms.double(0.02),
goodPixelTrackDeadHcal_dz = cms.double(0.05),
goodPixelTrackDeadHcal_maxLost3Hit = cms.int32(0),
goodPixelTrackDeadHcal_maxLost4Hit = cms.int32(1),
goodPixelTrackDeadHcal_maxPt = cms.double(50.0),
goodPixelTrackDeadHcal_minEta = cms.double(2.3),
goodPixelTrackDeadHcal_ptErrRel = cms.double(1.0),
goodTrackDeadHcal_chi2n = cms.double(5.0),
goodTrackDeadHcal_dxy = cms.double(0.5),
goodTrackDeadHcal_layers = cms.uint32(4),
goodTrackDeadHcal_ptErrRel = cms.double(0.2),
goodTrackDeadHcal_validFr = cms.double(0.5),
iCfgCandConnector = cms.PSet(
bCalibPrimary = cms.bool(False),
bCorrect = cms.bool(False),
nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05)
),
muon_ECAL = cms.vdouble(0.5, 0.5),
muon_HCAL = cms.vdouble(3.0, 3.0),
muon_HO = cms.vdouble(0.9, 0.9),
muons = cms.InputTag("hltPixelOnlyMuons"),
nsigma_TRACK = cms.double(1.0),
pf_nsigma_ECAL = cms.double(0.0),
pf_nsigma_HCAL = cms.double(1.0),
pf_nsigma_HFEM = cms.double(1.0),
pf_nsigma_HFHAD = cms.double(1.0),
postHFCleaning = cms.bool(False),
postMuonCleaning = cms.bool(True),
pt_Error = cms.double(1.0),
rejectTracks_Bad = cms.bool(False),
rejectTracks_Step45 = cms.bool(False),
resolHF_square = cms.vdouble(7.834401, 0.012996, 0.0),
useCalibrationsFromDB = cms.bool(True),
useEGammaElectrons = cms.bool(False),
useEGammaFilters = cms.bool(False),
useHO = cms.bool(False),
usePFConversions = cms.bool(False),
usePFDecays = cms.bool(False),
usePFNuclearInteractions = cms.bool(False),
useProtectionsForJetMET = cms.bool(True),
useVerticesForNeutral = cms.bool(True),
verbose = cms.untracked.bool(False),
vertexCollection = cms.InputTag("hltPixelVertices"),
vetoEndcap = cms.bool(False)
)
process.hltPixelOnlyParticleFlowBlock = cms.EDProducer("PFBlockProducer",
debug = cms.untracked.bool(False),
elementImporters = cms.VPSet(
cms.PSet(
DPtOverPtCuts_byTrackAlgo = cms.vdouble(
5.0, 5.0, 5.0, 5.0, 5.0,
5.0
),
NHitCuts_byTrackAlgo = cms.vuint32(
3, 3, 3, 3, 3,
3
),
cleanBadConvertedBrems = cms.bool(False),
importerName = cms.string('GeneralTracksImporter'),
muonMaxDPtOPt = cms.double(1.0),
muonSrc = cms.InputTag("hltPixelOnlyMuons"),
source = cms.InputTag("hltLightPixelOnlyPFTracks"),
trackQuality = cms.string('highPurity'),
useIterativeTracking = cms.bool(False),
vetoEndcap = cms.bool(False)
),
cms.PSet(
BCtoPFCMap = cms.InputTag(""),
importerName = cms.string('ECALClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterECALUnseeded")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHCAL")
),
cms.PSet(
importerName = cms.string('GenericClusterImporter'),
source = cms.InputTag("hltParticleFlowClusterHF")
)
),
linkDefinitions = cms.VPSet(
cms.PSet(
linkType = cms.string('TRACK:ECAL'),
linkerName = cms.string('TrackAndECALLinker'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('TRACK:HCAL'),
linkerName = cms.string('TrackAndHCALLinker'),
nMaxHcalLinksPerTrack = cms.int32(1),
trajectoryLayerEntrance = cms.string('HCALEntrance'),
trajectoryLayerExit = cms.string('HCALExit'),
useKDTree = cms.bool(True)
),
cms.PSet(
linkType = cms.string('ECAL:HCAL'),
linkerName = cms.string('ECALAndHCALLinker'),
minAbsEtaEcal = cms.double(2.5),
useKDTree = cms.bool(False)
),
cms.PSet(
linkType = cms.string('HFEM:HFHAD'),
linkerName = cms.string('HFEMAndHFHADLinker'),
useKDTree = cms.bool(False)
)
),
verbose = cms.untracked.bool(False)
)
process.hltPixelTracks = cms.EDProducer("PixelTrackProducerFromSoA",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
mightGet = cms.optional.untracked.vstring,
minNumberOfHits = cms.int32(0),
minQuality = cms.string('loose'),
pixelRecHitLegacySrc = cms.InputTag("hltSiPixelRecHits"),
trackSrc = cms.InputTag("hltPixelTracksSoA")
)
process.hltPixelTracksCUDA = cms.EDProducer("CAHitNtupletCUDA",
CAThetaCutBarrel = cms.double(0.0020000000949949026),
CAThetaCutForward = cms.double(0.003000000026077032),
dcaCutInnerTriplet = cms.double(0.15000000596046448),
dcaCutOuterTriplet = cms.double(0.25),
doClusterCut = cms.bool(True),
doPtCut = cms.bool(True),
doSharedHitCut = cms.bool(True),
doZ0Cut = cms.bool(True),
dupPassThrough = cms.bool(False),
earlyFishbone = cms.bool(True),
fillStatistics = cms.bool(True),
fit5as4 = cms.bool(True),
hardCurvCut = cms.double(0.03284072249589491),
idealConditions = cms.bool(False),
includeJumpingForwardDoublets = cms.bool(True),
lateFishbone = cms.bool(False),
maxNumberOfDoublets = cms.uint32(524288),
mightGet = cms.optional.untracked.vstring,
minHitsForSharingCut = cms.uint32(5),
minHitsPerNtuplet = cms.uint32(3),
onGPU = cms.bool(True),
pixelRecHitSrc = cms.InputTag("hltSiPixelRecHitsCUDA"),
ptmin = cms.double(0.8999999761581421),
trackQualityCuts = cms.PSet(
chi2Coeff = cms.vdouble(0.9, 1.8),
chi2MaxPt = cms.double(10),
chi2Scale = cms.double(8),
quadrupletMaxTip = cms.double(0.5),
quadrupletMaxZip = cms.double(12),
quadrupletMinPt = cms.double(0.3),
tripletMaxTip = cms.double(0.3),
tripletMaxZip = cms.double(12),
tripletMinPt = cms.double(0.5)
),
useRiemannFit = cms.bool(False),
useSimpleTripletCleaner = cms.bool(False)
)
process.hltPixelTracksCleanForBTag = cms.EDProducer("TrackWithVertexSelector",
copyExtras = cms.untracked.bool(False),
copyTrajectories = cms.untracked.bool(False),
d0Max = cms.double(999.0),
dzMax = cms.double(999.0),
etaMax = cms.double(5.0),
etaMin = cms.double(0.0),
nSigmaDtVertex = cms.double(0.0),
nVertices = cms.uint32(2),
normalizedChi2 = cms.double(999999.0),
numberOfLostHits = cms.uint32(999),
numberOfValidHits = cms.uint32(0),
numberOfValidPixelHits = cms.uint32(3),
ptErrorCut = cms.double(5.0),
ptMax = cms.double(9999.0),
ptMin = cms.double(0.3),
quality = cms.string('loose'),
rhoVtx = cms.double(0.2),
src = cms.InputTag("hltPixelTracks"),
timeResosTag = cms.InputTag(""),
timesTag = cms.InputTag(""),
useVtx = cms.bool(True),
vertexTag = cms.InputTag("hltTrimmedPixelVertices"),
vtxFallback = cms.bool(True),
zetaVtx = cms.double(0.3)
)
process.hltPixelTracksFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForBTag = cms.EDProducer("TrackSelectorByRegion",
mightGet = cms.optional.untracked.vstring,
produceMask = cms.bool(True),
produceTrackCollection = cms.bool(True),
regions = cms.InputTag("hltBTaggingRegion"),
tracks = cms.InputTag("hltPixelTracksCleanForBTag")
)
process.hltPixelTracksForNoPU = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForNoPUFilter"),
Fitter = cms.InputTag("hltPixelTracksForNoPUFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForNoPU"),
passLabel = cms.string('')
)
process.hltPixelTracksForNoPUFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.0),
tipMax = cms.double(999.0)
)
process.hltPixelTracksForNoPUFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForSeedsJpsi = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsJpsiFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsJpsiFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsJpsi"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsJpsiDoubleTrk = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsJpsiFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsJpsiFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsJpsiDoubleTrk"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsJpsiFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(50.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksForSeedsJpsiFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForSeedsL3Muon = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsL3MuonFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsL3MuonFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsL3Muon"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsL3MuonFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksForSeedsL3MuonFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForSeedsL3MuonNoVtx = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsL3MuonFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsL3MuonFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsL3MuonNoVtx"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsNR = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsNRFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsNRFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsNR"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsNRFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(50.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksForSeedsNRFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForSeedsPsiPrime = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsPsiPrimeFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsPsiPrimeFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsPsiPrime"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsPsiPrimeFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(50.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksForSeedsPsiPrimeFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForSeedsTau3mu = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsTau3muFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsTau3muFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsTau3mu"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsTau3muFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(50.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksForSeedsTau3muFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksForSeedsTau3muNoL1Mass = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksForSeedsTau3muNoL1MassFilter"),
Fitter = cms.InputTag("hltPixelTracksForSeedsTau3muNoL1MassFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsForSeedsTau3muNoL1Mass"),
passLabel = cms.string('')
)
process.hltPixelTracksForSeedsTau3muNoL1MassFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(50.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksForSeedsTau3muNoL1MassFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksFromQuadrupletsRegForTau = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksFilter"),
Fitter = cms.InputTag("hltPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsRegForTau"),
passLabel = cms.string('')
)
process.hltPixelTracksFromQuadrupletsRegL1TauSeeded = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksFilter"),
Fitter = cms.InputTag("hltPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsRegL1TauSeeded"),
passLabel = cms.string('')
)
process.hltPixelTracksFromTripletsRegForTau = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksFilter"),
Fitter = cms.InputTag("hltPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitTripletsRegForTau"),
passLabel = cms.string('')
)
process.hltPixelTracksFromTripletsRegL1TauSeeded = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksFilter"),
Fitter = cms.InputTag("hltPixelTracksFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitTripletsRegL1TauSeeded"),
passLabel = cms.string('')
)
process.hltPixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegions"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForNoPU = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadrupletsRegForBTag"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForNoPU"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsJpsi = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsJpsi"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsJpsiDoubleTrk = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsJpsiDoubleTrk"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsL3Muon = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsL3Muon"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsL3MuonNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsL3MuonNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsNR = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsNR"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsPsiPrime = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsPsiPrime"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsTau3mu = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsTau3mu"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForSeedsTau3muNoL1Mass = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsTau3muNoL1Mass"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForTripletsRegForTau = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerTripletsWithClustersRemovalRegForTau"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsRegForTau"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsForTripletsRegL1TauSeeded = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerTripletsWithClustersRemovalRegL1TauSeeded"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsRegL1TauSeeded"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsL3Muon = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsL3Muon"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsL3MuonNoVtx = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadruplets"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsL3MuonNoVtx"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsRegForTau = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadrupletsRegForTau"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsRegForTau"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitDoubletsRegL1TauSeeded = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag(""),
layerPairs = cms.vuint32(0, 1, 2),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltPixelLayerQuadrupletsRegL1TauSeeded"),
trackingRegions = cms.InputTag("hltPixelTracksTrackingRegionsRegL1TauSeeded"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltPixelTracksHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoublets"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForNoPU = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegForBTagCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForNoPU"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsJpsi = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsJpsi"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsJpsiDoubleTrk = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsJpsiDoubleTrk"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsL3Muon = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsL3Muon"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsL3MuonNoVtx = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsL3MuonNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsNR = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsNR"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsPsiPrime = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsPsiPrime"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsTau3mu = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsTau3mu"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsForSeedsTau3muNoL1Mass = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForSeedsTau3muNoL1Mass"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsL3Muon = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsL3Muon"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsL3MuonNoVtx = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsL3MuonNoVtx"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsRegForTau = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegForTauCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsRegForTau"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitQuadrupletsRegL1TauSeeded = cms.EDProducer("CAHitQuadrupletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegL1TauSeededCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsRegL1TauSeeded"),
extraHitRPhitolerance = cms.double(0.032),
fitFastCircle = cms.bool(True),
fitFastCircleChi2Cut = cms.bool(True),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitTripletsRegForTau = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegForTauCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForTripletsRegForTau"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(False),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksHitTripletsRegL1TauSeeded = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.0),
CAPhiCut = cms.double(0.2),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.002),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('LowPtClusterShapeSeedComparitor'),
clusterShapeCacheSrc = cms.InputTag("hltSiPixelClustersRegL1TauSeededCache"),
clusterShapeHitFilter = cms.string('ClusterShapeHitFilter')
),
doublets = cms.InputTag("hltPixelTracksHitDoubletsForTripletsRegL1TauSeeded"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(False),
pt1 = cms.double(0.7),
pt2 = cms.double(2.0),
value1 = cms.double(200.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltPixelTracksInRegionIter0L3Muon = cms.EDProducer("TrackSelectorByRegion",
produceMask = cms.bool(False),
produceTrackCollection = cms.bool(True),
regions = cms.InputTag("hltPixelTracksTrackingRegionsForSeedsL3Muon"),
tracks = cms.InputTag("hltPixelTracks")
)
process.hltPixelTracksInRegionL1 = cms.EDProducer("TrackSelectorByRegion",
produceMask = cms.bool(False),
produceTrackCollection = cms.bool(True),
regions = cms.InputTag("hltIterL3FromL1MuonPixelTracksTrackingRegions"),
tracks = cms.InputTag("hltPixelTracks")
)
process.hltPixelTracksInRegionL2 = cms.EDProducer("TrackSelectorByRegion",
produceMask = cms.bool(False),
produceTrackCollection = cms.bool(True),
regions = cms.InputTag("hltIterL3MuonPixelTracksTrackingRegions"),
tracks = cms.InputTag("hltPixelTracks")
)
process.hltPixelTracksL3Muon = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksL3MuonFilter"),
Fitter = cms.InputTag("hltPixelTracksL3MuonFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsL3Muon"),
passLabel = cms.string('')
)
process.hltPixelTracksL3MuonFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer",
chi2 = cms.double(1000.0),
nSigmaInvPtTolerance = cms.double(0.0),
nSigmaTipMaxTolerance = cms.double(0.0),
ptMin = cms.double(0.1),
tipMax = cms.double(1.0)
)
process.hltPixelTracksL3MuonFitter = cms.EDProducer("PixelFitterByHelixProjectionsProducer",
scaleErrorsForBPix1 = cms.bool(False),
scaleFactor = cms.double(0.65)
)
process.hltPixelTracksL3MuonNoVtx = cms.EDProducer("PixelTrackProducer",
Cleaner = cms.string('hltPixelTracksCleanerBySharedHits'),
Filter = cms.InputTag("hltPixelTracksL3MuonFilter"),
Fitter = cms.InputTag("hltPixelTracksL3MuonFitter"),
SeedingHitSets = cms.InputTag("hltPixelTracksHitQuadrupletsL3MuonNoVtx"),
passLabel = cms.string('')
)
process.hltPixelTracksMergedRegForTau = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltPixelTracksFromQuadrupletsRegForTau", "hltPixelTracksFromTripletsRegForTau"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltPixelTracksFromQuadrupletsRegForTau", "hltPixelTracksFromTripletsRegForTau"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltPixelTracksMergedRegL1TauSeeded = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltPixelTracksFromQuadrupletsRegL1TauSeeded", "hltPixelTracksFromTripletsRegL1TauSeeded"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltPixelTracksFromQuadrupletsRegL1TauSeeded", "hltPixelTracksFromTripletsRegL1TauSeeded"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltPixelTracksQuadruplets = cms.EDProducer("TrackWithVertexSelector",
copyExtras = cms.untracked.bool(False),
copyTrajectories = cms.untracked.bool(False),
d0Max = cms.double(999.0),
dzMax = cms.double(999.0),
etaMax = cms.double(999.0),
etaMin = cms.double(-999.0),
nSigmaDtVertex = cms.double(0.0),
nVertices = cms.uint32(0),
normalizedChi2 = cms.double(999999.0),
numberOfLostHits = cms.uint32(999),
numberOfValidHits = cms.uint32(0),
numberOfValidPixelHits = cms.uint32(4),
ptErrorCut = cms.double(999999.0),
ptMax = cms.double(999999.0),
ptMin = cms.double(0.0),
quality = cms.string('loose'),
rhoVtx = cms.double(999999.0),
src = cms.InputTag("hltPixelTracks"),
timeResosTag = cms.InputTag(""),
timesTag = cms.InputTag(""),
useVtx = cms.bool(False),
vertexTag = cms.InputTag("hltTrimmedPixelVertices"),
vtxFallback = cms.bool(False),
zetaVtx = cms.double(999999.0)
)
process.hltPixelTracksTrackingRegions = cms.EDProducer("GlobalTrackingRegionFromBeamSpotEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
nSigmaZ = cms.double(4.0),
originRadius = cms.double(0.02),
precise = cms.bool(True),
ptMin = cms.double(0.8)
)
)
process.hltPixelTracksTrackingRegionsForNoPU = cms.EDProducer("TauRegionalPixelSeedTrackingRegionEDProducer",
RegionPSet = cms.PSet(
JetSrc = cms.InputTag("hltSelectorJets20L1FastJetForNoPU"),
deltaEtaRegion = cms.double(0.5),
deltaPhiRegion = cms.double(0.5),
howToUseMeasurementTracker = cms.string('Never'),
measurementTrackerName = cms.InputTag("MeasurementTrackerEvent"),
originHalfLength = cms.double(0.5),
originRadius = cms.double(0.1),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexSrc = cms.InputTag("hltFastPVPixelVertices")
)
)
process.hltPixelTracksTrackingRegionsForSeedsJpsi = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsJpsiDoubleTrk = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsL3Muon = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.3),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.3),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltPixelVertices"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsL3MuonNoVtx = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.3),
deltaPhi = cms.double(0.3),
input = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.9),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltPixelVerticesL3MuonNoVtx"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsNR = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsPsiPrime = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsTau3mu = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsForSeedsTau3muNoL1Mass = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltIterL3MuonCandidates"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('VerticesSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.1),
precise = cms.bool(True),
ptMin = cms.double(0.5),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsL3Muon = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer",
RegionPSet = cms.PSet(
VertexCollection = cms.InputTag("hltL3MuonVertex"),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
fixedError = cms.double(0.5),
nSigmaZ = cms.double(4.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(0.9),
sigmaZVertex = cms.double(4.0),
useFakeVertices = cms.bool(True),
useFixedError = cms.bool(True),
useFoundVertices = cms.bool(True),
useMultipleScattering = cms.bool(False)
)
)
process.hltPixelTracksTrackingRegionsL3MuonNoVtx = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer",
RegionPSet = cms.PSet(
VertexCollection = cms.InputTag("hltL3MuonVertexNoVtx"),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
fixedError = cms.double(0.5),
nSigmaZ = cms.double(4.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(0.9),
sigmaZVertex = cms.double(4.0),
useFakeVertices = cms.bool(True),
useFixedError = cms.bool(True),
useFoundVertices = cms.bool(True),
useMultipleScattering = cms.bool(False)
)
)
process.hltPixelTracksTrackingRegionsRegForTau = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltL2TausForPixelIsolation"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(0.9),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag(""),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksTrackingRegionsRegL1TauSeeded = cms.EDProducer("CandidateSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.5),
deltaPhi = cms.double(0.5),
input = cms.InputTag("hltL2TausForPixelIsolationL1TauSeeded"),
maxNRegions = cms.int32(10),
maxNVertices = cms.int32(1),
measurementTrackerName = cms.InputTag(""),
mode = cms.string('BeamSpotSigma'),
nSigmaZBeamSpot = cms.double(4.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.2),
precise = cms.bool(True),
ptMin = cms.double(0.9),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag(""),
whereToUseMeasurementTracker = cms.string('Never'),
zErrorBeamSpot = cms.double(24.2),
zErrorVetex = cms.double(0.2)
)
)
process.hltPixelTracksZetaClean = cms.EDProducer("TrackWithVertexSelector",
copyExtras = cms.untracked.bool(False),
copyTrajectories = cms.untracked.bool(False),
d0Max = cms.double(999.0),
dzMax = cms.double(999.0),
etaMax = cms.double(5.0),
etaMin = cms.double(0.0),
nSigmaDtVertex = cms.double(0.0),
nVertices = cms.uint32(2),
normalizedChi2 = cms.double(999999.0),
numberOfLostHits = cms.uint32(999),
numberOfValidHits = cms.uint32(0),
numberOfValidPixelHits = cms.uint32(3),
ptErrorCut = cms.double(5.0),
ptMax = cms.double(500.0),
ptMin = cms.double(0.3),
quality = cms.string('highPurity'),
rhoVtx = cms.double(0.2),
src = cms.InputTag("hltPixelTracks"),
timeResosTag = cms.InputTag(""),
timesTag = cms.InputTag(""),
useVtx = cms.bool(True),
vertexTag = cms.InputTag("hltPixelVertices"),
vtxFallback = cms.bool(True),
zetaVtx = cms.double(0.3)
)
process.hltPixelTripletsClustersRefRemovalRegForTau = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('undefQuality'),
maxChi2 = cms.double(3000.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClustersRegForTau"),
stripClusters = cms.InputTag(""),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltPixelTracksFromQuadrupletsRegForTau")
)
process.hltPixelTripletsClustersRefRemovalRegL1TauSeeded = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('undefQuality'),
maxChi2 = cms.double(3000.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag(""),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClustersRegL1TauSeeded"),
stripClusters = cms.InputTag(""),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltPixelTracksFromQuadrupletsRegL1TauSeeded")
)
process.hltPixelVertices = cms.EDProducer("PixelVertexProducerFromSoA",
TrackCollection = cms.InputTag("hltPixelTracks"),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltPixelVerticesSoA")
)
process.hltPixelVerticesCUDA = cms.EDProducer("PixelVertexProducerCUDA",
PtMin = cms.double(0.5),
chi2max = cms.double(9),
eps = cms.double(0.07),
errmax = cms.double(0.01),
mightGet = cms.optional.untracked.vstring,
minT = cms.int32(2),
onGPU = cms.bool(True),
oneKernel = cms.bool(True),
pixelTrackSrc = cms.InputTag("hltPixelTracksCUDA"),
useDBSCAN = cms.bool(False),
useDensity = cms.bool(True),
useIterative = cms.bool(False)
)
process.hltPixelVerticesL3Muon = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparer')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltPixelTracksL3Muon"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltPixelVerticesL3MuonNoVtx = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparer')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltPixelTracksL3MuonNoVtx"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltPixelVerticesRegForTau = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltPixelTracksMergedRegForTau"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltPixelVerticesRegL1TauSeeded = cms.EDProducer("PixelVertexProducer",
Finder = cms.string('DivisiveVertexFinder'),
Method2 = cms.bool(True),
NTrkMin = cms.int32(2),
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
PtMin = cms.double(1.0),
TrackCollection = cms.InputTag("hltPixelTracksMergedRegL1TauSeeded"),
UseError = cms.bool(True),
Verbosity = cms.int32(0),
WtAverage = cms.bool(True),
ZOffset = cms.double(5.0),
ZSeparation = cms.double(0.05),
beamSpot = cms.InputTag("hltOnlineBeamSpot")
)
process.hltPrimaryVertexAssociationPat = cms.EDProducer("PFCandidatePrimaryVertexSorter",
assignment = cms.PSet(
DzCutForChargedFromPUVtxs = cms.double(0.2),
EtaMinUseDz = cms.double(-1),
NumOfPUVtxsForCharged = cms.int32(-1),
OnlyUseFirstDz = cms.bool(False),
PtMaxCharged = cms.double(-1),
maxDistanceToJetAxis = cms.double(0.07),
maxDtSigForPrimaryAssignment = cms.double(3.0),
maxDxyForJetAxisAssigment = cms.double(0.1),
maxDxyForNotReconstructedPrimary = cms.double(0.01),
maxDxySigForNotReconstructedPrimary = cms.double(2),
maxDzErrorForPrimaryAssignment = cms.double(0.05),
maxDzForJetAxisAssigment = cms.double(0.1),
maxDzForPrimaryAssignment = cms.double(0.1),
maxDzSigForPrimaryAssignment = cms.double(5.0),
maxJetDeltaR = cms.double(0.5),
minJetPt = cms.double(25),
preferHighRanked = cms.bool(False),
useTiming = cms.bool(False),
useVertexFit = cms.bool(True)
),
jets = cms.InputTag("hltAK4PFJetsROIForBTag"),
particles = cms.InputTag("hltParticleFlowROIForBTag"),
produceAssociationToOriginalVertices = cms.bool(True),
produceNoPileUpCollection = cms.bool(False),
producePileUpCollection = cms.bool(False),
produceSortedVertices = cms.bool(False),
qualityForPrimary = cms.int32(2),
sorting = cms.PSet(
),
usePVMET = cms.bool(True),
vertices = cms.InputTag("hltVerticesPFFilterROIForBTag")
)
process.hltPrimaryVertexAssociationROIForBTag = cms.EDProducer("PFCandidatePrimaryVertexSorter",
assignment = cms.PSet(
DzCutForChargedFromPUVtxs = cms.double(0.2),
EtaMinUseDz = cms.double(-1),
NumOfPUVtxsForCharged = cms.int32(-1),
OnlyUseFirstDz = cms.bool(False),
PtMaxCharged = cms.double(-1),
maxDistanceToJetAxis = cms.double(0.07),
maxDtSigForPrimaryAssignment = cms.double(3.0),
maxDxyForJetAxisAssigment = cms.double(0.1),
maxDxyForNotReconstructedPrimary = cms.double(0.01),
maxDxySigForNotReconstructedPrimary = cms.double(2),
maxDzErrorForPrimaryAssignment = cms.double(0.05),
maxDzForJetAxisAssigment = cms.double(0.1),
maxDzForPrimaryAssignment = cms.double(0.1),
maxDzSigForPrimaryAssignment = cms.double(5.0),
maxJetDeltaR = cms.double(0.5),
minJetPt = cms.double(25),
preferHighRanked = cms.bool(False),
useTiming = cms.bool(False),
useVertexFit = cms.bool(True)
),
jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
particles = cms.InputTag("hltParticleFlowROIForBTag"),
produceAssociationToOriginalVertices = cms.bool(True),
produceNoPileUpCollection = cms.bool(False),
producePileUpCollection = cms.bool(False),
produceSortedVertices = cms.bool(False),
qualityForPrimary = cms.int32(2),
sorting = cms.PSet(
),
usePVMET = cms.bool(True),
vertices = cms.InputTag("hltVerticesPFFilterROIForBTag")
)
process.hltPrunedGenParticles = cms.EDProducer("GenParticlePruner",
select = cms.vstring(
'drop *',
'++keep abs(pdgId) == 11 || abs(pdgId) == 13 || abs(pdgId) == 15',
'drop status == 2',
'keep++ (400 < abs(pdgId) < 600) || (4000 < abs(pdgId) < 6000)',
'drop status == 1',
'keep+ (400 < abs(pdgId) < 600) || (4000 < abs(pdgId) < 6000)',
'keep abs(pdgId) == 11 || abs(pdgId) == 13 || abs(pdgId) == 15',
'keep abs(pdgId) == 12 || abs(pdgId) == 14 || abs(pdgId) == 16',
'+keep pdgId == 22 && status == 1 && (pt > 10 || isPromptFinalState())',
'+keep abs(pdgId) == 11 && status == 1 && (pt > 3 || isPromptFinalState())',
'keep++ abs(pdgId) == 15',
'drop status > 30 && status < 70 ',
'drop pdgId == 21 && pt < 5',
'drop status == 2 && abs(pdgId) == 21',
'keep abs(pdgId) == 23 || abs(pdgId) == 24 || abs(pdgId) == 25 || abs(pdgId) == 6 || abs(pdgId) == 37 ',
'keep abs(pdgId) == 310 && abs(eta) < 2.5 && pt > 1 ',
'+keep abs(pdgId) == 13 && status == 1',
'keep (4 <= abs(pdgId) <= 5)',
'keep (1 <= abs(pdgId) <= 3 || pdgId = 21) & (status = 2 || status = 11 || status = 71 || status = 72) && pt>5',
'keep abs(pdgId) == 323 && abs(eta) < 2.5 && pt > 1',
'keep+ abs(pdgId) == 333',
'keep+ abs(pdgId) == 9920443 || abs(pdgId) == 9042413 || abs(pdgId) == 9000443 || abs(pdgId) == 100541 || abs(pdgId) == 100543',
'keep+ abs(pdgId) == 443 || abs(pdgId) == 100443 || abs(pdgId) == 10441 || abs(pdgId) == 20443 || abs(pdgId) == 445 || abs(pdgId) == 30443',
'keep+ abs(pdgId) == 553 || abs(pdgId) == 100553 || abs(pdgId) == 200553 || abs(pdgId) == 10551 || abs(pdgId) == 20553 || abs(pdgId) == 555',
'keep abs(pdgId) = 10411 || abs(pdgId) = 10421 || abs(pdgId) = 10413 || abs(pdgId) = 10423 || abs(pdgId) = 20413 || abs(pdgId) = 20423 || abs(pdgId) = 10431 || abs(pdgId) = 10433 || abs(pdgId) = 20433',
'keep abs(pdgId) = 10511 || abs(pdgId) = 10521 || abs(pdgId) = 10513 || abs(pdgId) = 10523 || abs(pdgId) = 20513 || abs(pdgId) = 20523 || abs(pdgId) = 10531 || abs(pdgId) = 10533 || abs(pdgId) = 20533 || abs(pdgId) = 10541 || abs(pdgId) = 10543 || abs(pdgId) = 20543',
'keep (1000001 <= abs(pdgId) <= 1000039 ) || ( 2000001 <= abs(pdgId) <= 2000015)',
'keep (4900001 <= abs(pdgId) <= 4900991)',
'keep (51 <= abs(pdgId) <= 53)',
'keep pdgId = 2212',
'keep status == 3 || ( 21 <= status <= 29) || ( 11 <= status <= 19)',
'keep isHardProcess() || fromHardProcessFinalState() || fromHardProcessDecayed() || fromHardProcessBeforeFSR() || (statusFlags().fromHardProcess() && statusFlags().isLastCopy())'
),
src = cms.InputTag("hltPrunedGenParticlesWithStatusOne")
)
process.hltPrunedGenParticlesWithStatusOne = cms.EDProducer("GenParticlePruner",
select = cms.vstring(
'drop *',
'++keep abs(pdgId) == 11 || abs(pdgId) == 13 || abs(pdgId) == 15',
'drop status == 2',
'keep++ (400 < abs(pdgId) < 600) || (4000 < abs(pdgId) < 6000)',
'drop status == 1',
'keep+ (400 < abs(pdgId) < 600) || (4000 < abs(pdgId) < 6000)',
'keep abs(pdgId) == 11 || abs(pdgId) == 13 || abs(pdgId) == 15',
'keep abs(pdgId) == 12 || abs(pdgId) == 14 || abs(pdgId) == 16',
'+keep pdgId == 22 && status == 1 && (pt > 10 || isPromptFinalState())',
'+keep abs(pdgId) == 11 && status == 1 && (pt > 3 || isPromptFinalState())',
'keep++ abs(pdgId) == 15',
'drop status > 30 && status < 70 ',
'drop pdgId == 21 && pt < 5',
'drop status == 2 && abs(pdgId) == 21',
'keep abs(pdgId) == 23 || abs(pdgId) == 24 || abs(pdgId) == 25 || abs(pdgId) == 6 || abs(pdgId) == 37 ',
'keep abs(pdgId) == 310 && abs(eta) < 2.5 && pt > 1 ',
'+keep abs(pdgId) == 13 && status == 1',
'keep (4 <= abs(pdgId) <= 5)',
'keep (1 <= abs(pdgId) <= 3 || pdgId = 21) & (status = 2 || status = 11 || status = 71 || status = 72) && pt>5',
'keep abs(pdgId) == 323 && abs(eta) < 2.5 && pt > 1',
'keep+ abs(pdgId) == 333',
'keep+ abs(pdgId) == 9920443 || abs(pdgId) == 9042413 || abs(pdgId) == 9000443 || abs(pdgId) == 100541 || abs(pdgId) == 100543',
'keep+ abs(pdgId) == 443 || abs(pdgId) == 100443 || abs(pdgId) == 10441 || abs(pdgId) == 20443 || abs(pdgId) == 445 || abs(pdgId) == 30443',
'keep+ abs(pdgId) == 553 || abs(pdgId) == 100553 || abs(pdgId) == 200553 || abs(pdgId) == 10551 || abs(pdgId) == 20553 || abs(pdgId) == 555',
'keep abs(pdgId) = 10411 || abs(pdgId) = 10421 || abs(pdgId) = 10413 || abs(pdgId) = 10423 || abs(pdgId) = 20413 || abs(pdgId) = 20423 || abs(pdgId) = 10431 || abs(pdgId) = 10433 || abs(pdgId) = 20433',
'keep abs(pdgId) = 10511 || abs(pdgId) = 10521 || abs(pdgId) = 10513 || abs(pdgId) = 10523 || abs(pdgId) = 20513 || abs(pdgId) = 20523 || abs(pdgId) = 10531 || abs(pdgId) = 10533 || abs(pdgId) = 20533 || abs(pdgId) = 10541 || abs(pdgId) = 10543 || abs(pdgId) = 20543',
'keep (1000001 <= abs(pdgId) <= 1000039 ) || ( 2000001 <= abs(pdgId) <= 2000015)',
'keep (4900001 <= abs(pdgId) <= 4900991)',
'keep (51 <= abs(pdgId) <= 53)',
'keep pdgId = 2212',
'keep status == 3 || ( 21 <= status <= 29) || ( 11 <= status <= 19)',
'keep isHardProcess() || fromHardProcessFinalState() || fromHardProcessDecayed() || fromHardProcessBeforeFSR() || (statusFlags().fromHardProcess() && statusFlags().isLastCopy())',
'keep status == 1'
),
src = cms.InputTag("genParticles")
)
process.hltPsiPrimeTkAllConeTracksIter = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('K+'),
src = cms.InputTag("hltMergedTracksDisplacedPsiPrimeReg")
)
process.hltPsiPrimeTkVertexProducer = cms.EDProducer("HLTmumutkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(99999.0),
MinD0Significance = cms.double(2.0),
MinInvMass = cms.double(0.0),
MinPt = cms.double(1.2),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OverlapDR = cms.double(0.005),
PreviousCandTag = cms.InputTag("hltDisplacedmumuFilterDoubleMu4PsiPrime"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.493677),
TrackCand = cms.InputTag("hltPsiPrimeTkAllConeTracksIter")
)
process.hltRecHitInRegionForMuonsES = cms.EDProducer("MuonHLTRechitInRegionsProducer",
doIsolated = cms.bool(True),
ecalhitLabels = cms.VInputTag("hltEcalPreshowerRecHit:EcalRecHitsES"),
l1LowerThr = cms.double(0.0),
l1LowerThrIgnoreIsolation = cms.double(100.0),
l1TagIsolated = cms.InputTag("hltIterL3MuonCandidates"),
l1TagNonIsolated = cms.InputTag("NotUsed"),
l1UpperThr = cms.double(999.0),
productLabels = cms.vstring('EcalRegionalRecHitsES'),
regionEtaMargin = cms.double(0.4),
regionPhiMargin = cms.double(0.4),
useUncalib = cms.bool(False)
)
process.hltRecHitInRegionForMuonsESNoVtx = cms.EDProducer("MuonHLTRechitInRegionsProducer",
doIsolated = cms.bool(True),
ecalhitLabels = cms.VInputTag("hltEcalPreshowerRecHit:EcalRecHitsES"),
l1LowerThr = cms.double(0.0),
l1LowerThrIgnoreIsolation = cms.double(100.0),
l1TagIsolated = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
l1TagNonIsolated = cms.InputTag("NotUsed"),
l1UpperThr = cms.double(999.0),
productLabels = cms.vstring('EcalRegionalRecHitsES'),
regionEtaMargin = cms.double(0.4),
regionPhiMargin = cms.double(0.4),
useUncalib = cms.bool(False)
)
process.hltRecHitInRegionForMuonsMF = cms.EDProducer("MuonHLTRechitInRegionsProducer",
doIsolated = cms.bool(True),
ecalhitLabels = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE"),
l1LowerThr = cms.double(0.0),
l1LowerThrIgnoreIsolation = cms.double(100.0),
l1TagIsolated = cms.InputTag("hltIterL3MuonCandidates"),
l1TagNonIsolated = cms.InputTag("NotUsed"),
l1UpperThr = cms.double(999.0),
productLabels = cms.vstring(
'EcalRegionalRecHitsEB',
'EcalRegionalRecHitsEE'
),
regionEtaMargin = cms.double(0.4),
regionPhiMargin = cms.double(0.4),
useUncalib = cms.bool(False)
)
process.hltRecHitInRegionForMuonsMFnoVtx = cms.EDProducer("MuonHLTRechitInRegionsProducer",
doIsolated = cms.bool(True),
ecalhitLabels = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE"),
l1LowerThr = cms.double(0.0),
l1LowerThrIgnoreIsolation = cms.double(100.0),
l1TagIsolated = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
l1TagNonIsolated = cms.InputTag("NotUsed"),
l1UpperThr = cms.double(999.0),
productLabels = cms.vstring(
'EcalRegionalRecHitsEB',
'EcalRegionalRecHitsEE'
),
regionEtaMargin = cms.double(0.4),
regionPhiMargin = cms.double(0.4),
useUncalib = cms.bool(False)
)
process.hltRechitInRegionsECAL = cms.EDProducer("HLTEcalRecHitInAllL1RegionsProducer",
l1InputRegions = cms.VPSet(
cms.PSet(
inputColl = cms.InputTag("hltGtStage2Digis","EGamma"),
maxEt = cms.double(999999.0),
minEt = cms.double(5.0),
regionEtaMargin = cms.double(0.9),
regionPhiMargin = cms.double(1.2),
type = cms.string('EGamma')
),
cms.PSet(
inputColl = cms.InputTag("hltGtStage2Digis","Jet"),
maxEt = cms.double(999999.0),
minEt = cms.double(170.0),
regionEtaMargin = cms.double(0.9),
regionPhiMargin = cms.double(1.2),
type = cms.string('Jet')
),
cms.PSet(
inputColl = cms.InputTag("hltGtStage2Digis","Tau"),
maxEt = cms.double(999999.0),
minEt = cms.double(100.0),
regionEtaMargin = cms.double(0.9),
regionPhiMargin = cms.double(1.2),
type = cms.string('Tau')
)
),
productLabels = cms.vstring(
'EcalRecHitsEB',
'EcalRecHitsEE'
),
recHitLabels = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE")
)
process.hltRechitInRegionsES = cms.EDProducer("HLTEcalRecHitInAllL1RegionsProducer",
l1InputRegions = cms.VPSet(
cms.PSet(
inputColl = cms.InputTag("hltGtStage2Digis","EGamma"),
maxEt = cms.double(999999.0),
minEt = cms.double(5.0),
regionEtaMargin = cms.double(0.9),
regionPhiMargin = cms.double(1.2),
type = cms.string('EGamma')
),
cms.PSet(
inputColl = cms.InputTag("hltGtStage2Digis","Jet"),
maxEt = cms.double(999999.0),
minEt = cms.double(170.0),
regionEtaMargin = cms.double(0.9),
regionPhiMargin = cms.double(1.2),
type = cms.string('Jet')
),
cms.PSet(
inputColl = cms.InputTag("hltGtStage2Digis","Tau"),
maxEt = cms.double(999999.0),
minEt = cms.double(100.0),
regionEtaMargin = cms.double(0.9),
regionPhiMargin = cms.double(1.2),
type = cms.string('Tau')
)
),
productLabels = cms.vstring('EcalRecHitsES'),
recHitLabels = cms.VInputTag("hltEcalPreshowerRecHit:EcalRecHitsES")
)
process.hltRecoHIEcalWithCleaningCandidate = cms.EDProducer("EgammaHLTRecoEcalCandidateProducers",
recoEcalCandidateCollection = cms.string(''),
scHybridBarrelProducer = cms.InputTag("hltCleanedHiCorrectedIslandBarrelSuperClustersHI"),
scIslandEndcapProducer = cms.InputTag("hltHiCorrectedIslandEndcapSuperClustersHI")
)
process.hltRpcRecHits = cms.EDProducer("RPCRecHitProducer",
deadSource = cms.string('File'),
deadvecfile = cms.FileInPath('RecoLocalMuon/RPCRecHit/data/RPCDeadVec.dat'),
maskSource = cms.string('File'),
maskvecfile = cms.FileInPath('RecoLocalMuon/RPCRecHit/data/RPCMaskVec.dat'),
recAlgo = cms.string('RPCRecHitStandardAlgo'),
recAlgoConfig = cms.PSet(
),
rpcDigiLabel = cms.InputTag("hltMuonRPCDigis")
)
process.hltScalersRawToDigi = cms.EDProducer("ScalersRawToDigi",
scalersInputTag = cms.InputTag("rawDataCollector")
)
process.hltScoutingCaloPacker = cms.EDProducer("HLTScoutingCaloProducer",
caloJetBTagCollection = cms.InputTag("hltCombinedSecondaryVertexBJetTagsCalo","","@currentProcess"),
caloJetCollection = cms.InputTag("hltAK4CaloJetsIDPassed","","@currentProcess"),
caloJetEtaCut = cms.double(3.0),
caloJetIDTagCollection = cms.InputTag("hltCaloJetFromPV","","@currentProcess"),
caloJetPtCut = cms.double(20.0),
doJetBTags = cms.bool(True),
doJetIDTags = cms.bool(True),
doMet = cms.bool(True),
metCollection = cms.InputTag("hltMet","","@currentProcess"),
rho = cms.InputTag("hltFixedGridRhoFastjetAllCalo","","@currentProcess"),
vertexCollection = cms.InputTag("hltPixelVertices","","@currentProcess")
)
process.hltScoutingEgammaPacker = cms.EDProducer("HLTScoutingEgammaProducer",
DetaMap = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed","@currentProcess"),
DphiMap = cms.InputTag("hltEgammaGsfTrackVars","Dphi","@currentProcess"),
EcalPFClusterIsoMap = cms.InputTag("hltEgammaEcalPFClusterIso","","@currentProcess"),
EgammaCandidates = cms.InputTag("hltEgammaCandidates","","@currentProcess"),
EgammaGsfTracks = cms.InputTag("hltEgammaGsfTracks","","@currentProcess"),
EleGsfTrackIsoMap = cms.InputTag("hltEgammaEleGsfTrackIsoPixelOnly","","@currentProcess"),
HcalPFClusterIsoMap = cms.InputTag("hltEgammaHcalPFClusterIso","","@currentProcess"),
HoverEMap = cms.InputTag("hltEgammaHoverE","","@currentProcess"),
MissingHitsMap = cms.InputTag("hltEgammaGsfTrackVars","MissingHits","@currentProcess"),
OneOEMinusOneOPMap = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP","@currentProcess"),
SigmaIEtaIEtaMap = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5","@currentProcess"),
ecalRechitEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
ecalRechitEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
egammaEtaCut = cms.double(2.5),
egammaHoverECut = cms.double(1.0),
egammaPtCut = cms.double(2.0),
mantissaPrecision = cms.int32(10),
r9Map = cms.InputTag("hltEgammaR9ID","r95x5"),
rechitMatrixSize = cms.int32(15),
saveRecHitTiming = cms.bool(False)
)
process.hltScoutingMuonPacker = cms.EDProducer("HLTScoutingMuonProducer",
ChargedCandidates = cms.InputTag("hltIterL3MuonCandidatesNoVtx","","@currentProcess"),
EcalPFClusterIsoMap = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuonsNoVtx","","@currentProcess"),
HcalPFClusterIsoMap = cms.InputTag("hltMuonHcalPFClusterIsoForMuonsNoVtx","","@currentProcess"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx","","@currentProcess"),
InputMuons = cms.InputTag("hltIterL3MuonsNoVtx"),
TrackIsoMap = cms.InputTag("hltMuonTkRelIsolationCut0p09MapNoVtx","combinedRelativeIsoDeposits","@currentProcess"),
Tracks = cms.InputTag("hltIterL3MuonAndMuonFromL1MergedNoVtx"),
displacedvertexCollection = cms.InputTag("hltDisplacedmumuVtxNoMatchingProducer","","@currentProcess"),
minVtxProbCut = cms.double(0.001),
muonEtaCut = cms.double(2.4),
muonPtCut = cms.double(0.0)
)
process.hltScoutingMuonPackerCalo = cms.EDProducer("HLTScoutingMuonProducer",
ChargedCandidates = cms.InputTag("hltIterL3MuonCandidatesNoVtx","","@currentProcess"),
EcalPFClusterIsoMap = cms.InputTag(""),
HcalPFClusterIsoMap = cms.InputTag(""),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx","","@currentProcess"),
InputMuons = cms.InputTag("hltIterL3MuonsNoVtx"),
TrackIsoMap = cms.InputTag("hltMuonTkRelIsolationCut0p09MapNoVtx","combinedRelativeIsoDeposits","@currentProcess"),
Tracks = cms.InputTag("hltIterL3MuonAndMuonFromL1MergedNoVtx","","@currentProcess"),
displacedvertexCollection = cms.InputTag("hltDisplacedmumuVtxProducer","","@currentProcess"),
minVtxProbCut = cms.double(0.001),
muonEtaCut = cms.double(2.4),
muonPtCut = cms.double(3.0)
)
process.hltScoutingPFPacker = cms.EDProducer("HLTScoutingPFProducer",
doCandidates = cms.bool(True),
doJetTags = cms.bool(True),
doMet = cms.bool(True),
mantissaPrecision = cms.int32(10),
metCollection = cms.InputTag("hltPixelOnlyPFMETProducer","","@currentProcess"),
pfCandidateCollection = cms.InputTag("hltPixelOnlyParticleFlow","","@currentProcess"),
pfCandidateEtaCut = cms.double(3.0),
pfCandidatePtCut = cms.double(0.6),
pfJetCollection = cms.InputTag("hltAK4PixelOnlyPFJets","","@currentProcess"),
pfJetEtaCut = cms.double(3.0),
pfJetPtCut = cms.double(20.0),
pfJetTagCollection = cms.InputTag("hltCombinedSecondaryVertexBJetTagsPF","","@currentProcess"),
rho = cms.InputTag("hltFixedGridRhoFastjetPixelOnlyAll","","@currentProcess"),
vertexCollection = cms.InputTag("hltPixelVertices","","@currentProcess")
)
process.hltScoutingPrimaryVertexPacker = cms.EDProducer("HLTScoutingPrimaryVertexProducer",
vertexCollection = cms.InputTag("hltPixelVertices","","@currentProcess")
)
process.hltScoutingPrimaryVertexPackerCaloMuon = cms.EDProducer("HLTScoutingPrimaryVertexProducer",
vertexCollection = cms.InputTag("hltPixelVerticesL3MuonNoVtx","","@currentProcess")
)
process.hltScoutingTrackPacker = cms.EDProducer("HLTScoutingTrackProducer",
OtherTracks = cms.InputTag("hltPixelOnlyPFMuonMerging"),
mantissaPrecision = cms.int32(10),
vertexCollection = cms.InputTag("hltPixelVertices"),
vtxMinDist = cms.double(0.01)
)
process.hltSiPixelClustersCUDA = cms.EDProducer("SiPixelRawToClusterCUDA",
CablingMapLabel = cms.string(''),
IncludeErrors = cms.bool(True),
InputLabel = cms.InputTag("rawDataCollector"),
MaxFEDWords = cms.uint32(300000),
Regions = cms.PSet(
beamSpot = cms.optional.InputTag,
deltaPhi = cms.optional.vdouble,
inputs = cms.optional.VInputTag,
maxZ = cms.optional.vdouble
),
UseQualityInfo = cms.bool(False),
clusterThreshold_layer1 = cms.int32(2000),
clusterThreshold_otherLayers = cms.int32(4000),
isRun2 = cms.bool(True),
mightGet = cms.optional.untracked.vstring
)
process.hltSiPixelClustersCache = cms.EDProducer("SiPixelClusterShapeCacheProducer",
onDemand = cms.bool(False),
src = cms.InputTag("hltSiPixelClusters")
)
process.hltSiPixelClustersLegacy = cms.EDProducer("SiPixelClusterProducer",
ChannelThreshold = cms.int32(10),
ClusterMode = cms.string('PixelThresholdClusterizer'),
ClusterThreshold = cms.int32(4000),
ClusterThreshold_L1 = cms.int32(2000),
ElectronPerADCGain = cms.double(135.0),
MissCalibrate = cms.bool(True),
Phase2Calibration = cms.bool(False),
Phase2DigiBaseline = cms.double(1200.0),
Phase2KinkADC = cms.int32(8),
Phase2ReadoutMode = cms.int32(-1),
SeedThreshold = cms.int32(1000),
SplitClusters = cms.bool(False),
VCaltoElectronGain = cms.int32(47),
VCaltoElectronGain_L1 = cms.int32(50),
VCaltoElectronOffset = cms.int32(-60),
VCaltoElectronOffset_L1 = cms.int32(-670),
maxNumberOfClusters = cms.int32(40000),
payloadType = cms.string('HLT'),
src = cms.InputTag("hltSiPixelDigisLegacy")
)
process.hltSiPixelClustersRegForBTag = cms.EDProducer("SiPixelClusterProducer",
ChannelThreshold = cms.int32(10),
ClusterMode = cms.string('PixelThresholdClusterizer'),
ClusterThreshold = cms.int32(4000),
ClusterThreshold_L1 = cms.int32(2000),
ElectronPerADCGain = cms.double(135.0),
MissCalibrate = cms.bool(True),
Phase2Calibration = cms.bool(False),
Phase2DigiBaseline = cms.double(1200.0),
Phase2KinkADC = cms.int32(8),
Phase2ReadoutMode = cms.int32(-1),
SeedThreshold = cms.int32(1000),
SplitClusters = cms.bool(False),
VCaltoElectronGain = cms.int32(47),
VCaltoElectronGain_L1 = cms.int32(50),
VCaltoElectronOffset = cms.int32(-60),
VCaltoElectronOffset_L1 = cms.int32(-670),
maxNumberOfClusters = cms.int32(40000),
payloadType = cms.string('HLT'),
src = cms.InputTag("hltSiPixelDigisRegForBTag")
)
process.hltSiPixelClustersRegForBTagCache = cms.EDProducer("SiPixelClusterShapeCacheProducer",
onDemand = cms.bool(False),
src = cms.InputTag("hltSiPixelClustersRegForBTag")
)
process.hltSiPixelClustersRegForTau = cms.EDProducer("SiPixelClusterProducer",
ChannelThreshold = cms.int32(10),
ClusterMode = cms.string('PixelThresholdClusterizer'),
ClusterThreshold = cms.int32(4000),
ClusterThreshold_L1 = cms.int32(2000),
ElectronPerADCGain = cms.double(135.0),
MissCalibrate = cms.bool(True),
Phase2Calibration = cms.bool(False),
Phase2DigiBaseline = cms.double(1200.0),
Phase2KinkADC = cms.int32(8),
Phase2ReadoutMode = cms.int32(-1),
SeedThreshold = cms.int32(1000),
SplitClusters = cms.bool(False),
VCaltoElectronGain = cms.int32(47),
VCaltoElectronGain_L1 = cms.int32(50),
VCaltoElectronOffset = cms.int32(-60),
VCaltoElectronOffset_L1 = cms.int32(-670),
maxNumberOfClusters = cms.int32(20000),
payloadType = cms.string('HLT'),
src = cms.InputTag("hltSiPixelDigisRegForTau")
)
process.hltSiPixelClustersRegForTauCache = cms.EDProducer("SiPixelClusterShapeCacheProducer",
onDemand = cms.bool(False),
src = cms.InputTag("hltSiPixelClustersRegForTau")
)
process.hltSiPixelClustersRegL1TauSeeded = cms.EDProducer("SiPixelClusterProducer",
ChannelThreshold = cms.int32(10),
ClusterMode = cms.string('PixelThresholdClusterizer'),
ClusterThreshold = cms.int32(4000),
ClusterThreshold_L1 = cms.int32(2000),
ElectronPerADCGain = cms.double(135.0),
MissCalibrate = cms.bool(True),
Phase2Calibration = cms.bool(False),
Phase2DigiBaseline = cms.double(1200.0),
Phase2KinkADC = cms.int32(8),
Phase2ReadoutMode = cms.int32(-1),
SeedThreshold = cms.int32(1000),
SplitClusters = cms.bool(False),
VCaltoElectronGain = cms.int32(47),
VCaltoElectronGain_L1 = cms.int32(50),
VCaltoElectronOffset = cms.int32(-60),
VCaltoElectronOffset_L1 = cms.int32(-670),
maxNumberOfClusters = cms.int32(20000),
payloadType = cms.string('HLT'),
src = cms.InputTag("hltSiPixelDigisRegL1TauSeeded")
)
process.hltSiPixelClustersRegL1TauSeededCache = cms.EDProducer("SiPixelClusterShapeCacheProducer",
onDemand = cms.bool(False),
src = cms.InputTag("hltSiPixelClustersRegL1TauSeeded")
)
process.hltSiPixelDigiErrorsSoA = cms.EDProducer("SiPixelDigiErrorsSoAFromCUDA",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltSiPixelClustersCUDA")
)
process.hltSiPixelDigisLegacy = cms.EDProducer("SiPixelRawToDigi",
CablingMapLabel = cms.string(''),
ErrorList = cms.vint32(29),
IncludeErrors = cms.bool(True),
InputLabel = cms.InputTag("rawDataCollector"),
Regions = cms.PSet(
),
UsePhase1 = cms.bool(True),
UsePilotBlade = cms.bool(False),
UseQualityInfo = cms.bool(False),
UserErrorList = cms.vint32()
)
process.hltSiPixelDigisRegForBTag = cms.EDProducer("SiPixelRawToDigi",
CablingMapLabel = cms.string(''),
ErrorList = cms.vint32(),
IncludeErrors = cms.bool(True),
InputLabel = cms.InputTag("rawDataCollector"),
Regions = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaPhi = cms.vdouble(0.5),
inputs = cms.VInputTag("hltSelectorCentralJets20L1FastJeta"),
maxZ = cms.vdouble(24.0)
),
UsePhase1 = cms.bool(True),
UsePilotBlade = cms.bool(False),
UseQualityInfo = cms.bool(False),
UserErrorList = cms.vint32()
)
process.hltSiPixelDigisRegForTau = cms.EDProducer("SiPixelRawToDigi",
CablingMapLabel = cms.string(''),
ErrorList = cms.vint32(),
IncludeErrors = cms.bool(False),
InputLabel = cms.InputTag("rawDataCollector"),
Regions = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaPhi = cms.vdouble(0.5),
inputs = cms.VInputTag("hltL2TausForPixelIsolation"),
maxZ = cms.vdouble(24.0)
),
UsePhase1 = cms.bool(True),
UsePilotBlade = cms.bool(False),
UseQualityInfo = cms.bool(False),
UserErrorList = cms.vint32()
)
process.hltSiPixelDigisRegL1TauSeeded = cms.EDProducer("SiPixelRawToDigi",
CablingMapLabel = cms.string(''),
ErrorList = cms.vint32(),
IncludeErrors = cms.bool(False),
InputLabel = cms.InputTag("rawDataCollector"),
Regions = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaPhi = cms.vdouble(0.5),
inputs = cms.VInputTag("hltL2TausForPixelIsolationL1TauSeeded"),
maxZ = cms.vdouble(24.0)
),
UsePhase1 = cms.bool(True),
UsePilotBlade = cms.bool(False),
UseQualityInfo = cms.bool(False),
UserErrorList = cms.vint32()
)
process.hltSiPixelDigisSoA = cms.EDProducer("SiPixelDigisSoAFromCUDA",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltSiPixelClustersCUDA")
)
process.hltSiPixelRecHitSoA = cms.EDProducer("SiPixelRecHitSoAFromLegacy",
CPE = cms.string('PixelCPEFast'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
convertToLegacy = cms.bool(True),
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltSiPixelClusters")
)
process.hltSiPixelRecHitsCUDA = cms.EDProducer("SiPixelRecHitCUDA",
CPE = cms.string('PixelCPEFast'),
beamSpot = cms.InputTag("hltOnlineBeamSpotToCUDA"),
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltSiPixelClustersCUDA")
)
process.hltSiPixelRecHitsRegForBTag = cms.EDProducer("SiPixelRecHitConverter",
CPE = cms.string('hltESPPixelCPEGeneric'),
VerboseLevel = cms.untracked.int32(0),
src = cms.InputTag("hltSiPixelClustersRegForBTag")
)
process.hltSiPixelRecHitsRegForTau = cms.EDProducer("SiPixelRecHitConverter",
CPE = cms.string('hltESPPixelCPEGeneric'),
VerboseLevel = cms.untracked.int32(0),
src = cms.InputTag("hltSiPixelClustersRegForTau")
)
process.hltSiPixelRecHitsRegL1TauSeeded = cms.EDProducer("SiPixelRecHitConverter",
CPE = cms.string('hltESPPixelCPEGeneric'),
VerboseLevel = cms.untracked.int32(0),
src = cms.InputTag("hltSiPixelClustersRegL1TauSeeded")
)
process.hltSiStripClusters = cms.EDProducer("MeasurementTrackerEventProducer",
Phase2TrackerCluster1DProducer = cms.string(''),
badPixelFEDChannelCollectionLabels = cms.VInputTag("hltSiPixelDigis"),
inactivePixelDetectorLabels = cms.VInputTag("hltSiPixelDigis"),
inactiveStripDetectorLabels = cms.VInputTag("hltSiStripExcludedFEDListProducer"),
measurementTracker = cms.string('hltESPMeasurementTracker'),
pixelCablingMapLabel = cms.string(''),
pixelClusterProducer = cms.string('hltSiPixelClusters'),
skipClusters = cms.InputTag(""),
stripClusterProducer = cms.string('hltSiStripRawToClustersFacility'),
switchOffPixelsIfEmpty = cms.bool(True),
vectorHits = cms.InputTag(""),
vectorHitsRej = cms.InputTag("")
)
process.hltSiStripClustersRegForBTag = cms.EDProducer("MeasurementTrackerEventProducer",
Phase2TrackerCluster1DProducer = cms.string(''),
badPixelFEDChannelCollectionLabels = cms.VInputTag(),
inactivePixelDetectorLabels = cms.VInputTag(),
inactiveStripDetectorLabels = cms.VInputTag("hltSiStripExcludedFEDListProducer"),
measurementTracker = cms.string('hltESPMeasurementTracker'),
pixelCablingMapLabel = cms.string(''),
pixelClusterProducer = cms.string('hltSiPixelClustersRegForBTag'),
skipClusters = cms.InputTag(""),
stripClusterProducer = cms.string('hltSiStripRawToClustersFacility'),
switchOffPixelsIfEmpty = cms.bool(True),
vectorHits = cms.InputTag(""),
vectorHitsRej = cms.InputTag("")
)
process.hltSiStripExcludedFEDListProducer = cms.EDProducer("SiStripExcludedFEDListProducer",
ProductLabel = cms.InputTag("rawDataCollector")
)
process.hltSiStripRawToClustersFacility = cms.EDProducer("SiStripClusterizerFromRaw",
Algorithms = cms.PSet(
CommonModeNoiseSubtractionMode = cms.string('Median'),
PedestalSubtractionFedMode = cms.bool(True),
SiStripFedZeroSuppressionMode = cms.uint32(4),
TruncateInSuppressor = cms.bool(True),
Use10bitsTruncation = cms.bool(False),
doAPVRestore = cms.bool(False),
useCMMeanMap = cms.bool(False)
),
Clusterizer = cms.PSet(
Algorithm = cms.string('ThreeThresholdAlgorithm'),
ChannelThreshold = cms.double(2.0),
ClusterThreshold = cms.double(5.0),
ConditionsLabel = cms.string(''),
MaxAdjacentBad = cms.uint32(0),
MaxSequentialBad = cms.uint32(1),
MaxSequentialHoles = cms.uint32(0),
RemoveApvShots = cms.bool(True),
SeedThreshold = cms.double(3.0),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
setDetId = cms.bool(True)
),
DoAPVEmulatorCheck = cms.bool(False),
HybridZeroSuppressed = cms.bool(False),
ProductLabel = cms.InputTag("rawDataCollector"),
onDemand = cms.bool(True)
)
process.hltSimple3x3Clusters = cms.EDProducer("EgammaHLTNxNClusterProducer",
barrelClusterCollection = cms.string('Simple3x3ClustersBarrel'),
barrelHitProducer = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
clusEtaSize = cms.int32(3),
clusPhiSize = cms.int32(3),
clusSeedThr = cms.double(0.5),
clusSeedThrEndCap = cms.double(1.0),
debugLevel = cms.int32(0),
doBarrel = cms.bool(True),
doEndcaps = cms.bool(True),
endcapClusterCollection = cms.string('Simple3x3ClustersEndcap'),
endcapHitProducer = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
flagLevelRecHitsToUse = cms.int32(1),
maxNumberofClusters = cms.int32(300),
maxNumberofSeeds = cms.int32(700),
posCalcParameters = cms.PSet(
LogWeighted = cms.bool(True),
T0_barl = cms.double(7.4),
T0_endc = cms.double(3.1),
T0_endcPresh = cms.double(1.2),
W0 = cms.double(4.2),
X0 = cms.double(0.89)
),
statusLevelRecHitsToUse = cms.int32(1),
useDBStatus = cms.bool(True),
useRecoFlag = cms.bool(False)
)
process.hltSlimmedGenJets = cms.EDProducer("PATGenJetSlimmer",
clearDaughters = cms.bool(False),
cut = cms.string('pt > 8'),
cutLoose = cms.string(''),
dropSpecific = cms.bool(False),
nLoose = cms.uint32(0),
packedGenParticles = cms.InputTag("hltPackedGenParticles"),
src = cms.InputTag("ak4GenJetsNoNu")
)
process.hltStoppedHSCPIterativeCone4CaloJets = cms.EDProducer("FastjetJetProducer",
Active_Area_Repeats = cms.int32(5),
DxyTrVtxMax = cms.double(0.0),
DzTrVtxMax = cms.double(0.0),
GhostArea = cms.double(0.01),
Ghost_EtaMax = cms.double(6.0),
MaxVtxZ = cms.double(15.0),
MinVtxNdof = cms.int32(5),
R0 = cms.double(-1.0),
Rho_EtaMax = cms.double(4.4),
UseOnlyOnePV = cms.bool(False),
UseOnlyVertexTracks = cms.bool(False),
applyWeight = cms.bool(False),
beta = cms.double(-1.0),
correctShape = cms.bool(False),
csRParam = cms.double(-1.0),
csRho_EtaMax = cms.double(-1.0),
dRMax = cms.double(-1.0),
dRMin = cms.double(-1.0),
doAreaDiskApprox = cms.bool(False),
doAreaFastjet = cms.bool(False),
doFastJetNonUniform = cms.bool(False),
doPUOffsetCorr = cms.bool(False),
doPVCorrection = cms.bool(False),
doRhoFastjet = cms.bool(False),
gridMaxRapidity = cms.double(-1.0),
gridSpacing = cms.double(-1.0),
inputEMin = cms.double(0.0),
inputEtMin = cms.double(0.3),
jetAlgorithm = cms.string('IterativeCone'),
jetCollInstanceName = cms.string(''),
jetPtMin = cms.double(1.0),
jetType = cms.string('CaloJet'),
maxBadEcalCells = cms.uint32(9999999),
maxBadHcalCells = cms.uint32(9999999),
maxDepth = cms.int32(-1),
maxInputs = cms.uint32(1),
maxProblematicEcalCells = cms.uint32(9999999),
maxProblematicHcalCells = cms.uint32(9999999),
maxRecoveredEcalCells = cms.uint32(9999999),
maxRecoveredHcalCells = cms.uint32(9999999),
minSeed = cms.uint32(0),
minimumTowersFraction = cms.double(0.0),
muCut = cms.double(-1.0),
muMax = cms.double(-1.0),
muMin = cms.double(-1.0),
nExclude = cms.uint32(0),
nFilt = cms.int32(-1),
nSigmaPU = cms.double(1.0),
puCenters = cms.vdouble(),
puPtMin = cms.double(10.0),
puWidth = cms.double(0.0),
rFilt = cms.double(-1.0),
rFiltFactor = cms.double(-1.0),
rParam = cms.double(0.4),
radiusPU = cms.double(0.4),
rcut_factor = cms.double(-1.0),
restrictInputs = cms.bool(False),
src = cms.InputTag("hltStoppedHSCPTowerMakerForAll"),
srcPVs = cms.InputTag("offlinePrimaryVertices"),
srcWeights = cms.InputTag(""),
subjetPtMin = cms.double(-1.0),
subtractorName = cms.string(''),
sumRecHits = cms.bool(False),
trimPtFracMin = cms.double(-1.0),
useCMSBoostedTauSeedingAlgorithm = cms.bool(False),
useConstituentSubtraction = cms.bool(False),
useDeterministicSeed = cms.bool(True),
useDynamicFiltering = cms.bool(False),
useExplicitGhosts = cms.bool(False),
useFiltering = cms.bool(False),
useKtPruning = cms.bool(False),
useMassDropTagger = cms.bool(False),
usePruning = cms.bool(False),
useSoftDrop = cms.bool(False),
useTrimming = cms.bool(False),
verbosity = cms.int32(0),
voronoiRfact = cms.double(-9.0),
writeCompound = cms.bool(False),
writeJetsWithConst = cms.bool(False),
yCut = cms.double(-1.0),
yMax = cms.double(-1.0),
yMin = cms.double(-1.0),
zcut = cms.double(-1.0)
)
process.hltStoppedHSCPTowerMakerForAll = cms.EDProducer("CaloTowersCreator",
AllowMissingInputs = cms.bool(True),
EBGrid = cms.vdouble(),
EBSumThreshold = cms.double(0.2),
EBThreshold = cms.double(0.07),
EBWeight = cms.double(1.0),
EBWeights = cms.vdouble(),
EEGrid = cms.vdouble(),
EESumThreshold = cms.double(0.45),
EEThreshold = cms.double(0.3),
EEWeight = cms.double(1.0),
EEWeights = cms.vdouble(),
EcalRecHitSeveritiesToBeExcluded = cms.vstring(
'kTime',
'kWeird',
'kBad'
),
EcalSeveritiesToBeUsedInBadTowers = cms.vstring(),
EcutTower = cms.double(-1000.0),
HBGrid = cms.vdouble(),
HBThreshold = cms.double(0.7),
HBThreshold1 = cms.double(0.7),
HBThreshold2 = cms.double(0.7),
HBWeight = cms.double(1.0),
HBWeights = cms.vdouble(),
HEDGrid = cms.vdouble(),
HEDThreshold = cms.double(0.2),
HEDThreshold1 = cms.double(0.1),
HEDWeight = cms.double(1.0),
HEDWeights = cms.vdouble(),
HESGrid = cms.vdouble(),
HESThreshold = cms.double(0.2),
HESThreshold1 = cms.double(0.1),
HESWeight = cms.double(1.0),
HESWeights = cms.vdouble(),
HF1Grid = cms.vdouble(),
HF1Threshold = cms.double(0.5),
HF1Weight = cms.double(1.0),
HF1Weights = cms.vdouble(),
HF2Grid = cms.vdouble(),
HF2Threshold = cms.double(0.85),
HF2Weight = cms.double(1.0),
HF2Weights = cms.vdouble(),
HOGrid = cms.vdouble(),
HOThreshold0 = cms.double(3.5),
HOThresholdMinus1 = cms.double(3.5),
HOThresholdMinus2 = cms.double(3.5),
HOThresholdPlus1 = cms.double(3.5),
HOThresholdPlus2 = cms.double(3.5),
HOWeight = cms.double(1e-99),
HOWeights = cms.vdouble(),
HcalAcceptSeverityLevel = cms.uint32(9),
HcalAcceptSeverityLevelForRejectedHit = cms.uint32(9999),
HcalPhase = cms.int32(1),
HcalThreshold = cms.double(-1000.0),
MomConstrMethod = cms.int32(1),
MomEBDepth = cms.double(0.3),
MomEEDepth = cms.double(0.0),
MomHBDepth = cms.double(0.2),
MomHEDepth = cms.double(0.4),
UseEcalRecoveredHits = cms.bool(False),
UseEtEBTreshold = cms.bool(False),
UseEtEETreshold = cms.bool(False),
UseHO = cms.bool(False),
UseHcalRecoveredHits = cms.bool(False),
UseRejectedHitsOnly = cms.bool(False),
UseRejectedRecoveredEcalHits = cms.bool(False),
UseRejectedRecoveredHcalHits = cms.bool(False),
UseSymEBTreshold = cms.bool(False),
UseSymEETreshold = cms.bool(False),
ecalInputs = cms.VInputTag(),
hbheInput = cms.InputTag("hltHbhereco"),
hfInput = cms.InputTag(""),
hoInput = cms.InputTag(""),
missingHcalRescaleFactorForEcal = cms.double(0.0)
)
process.hltTau3muNoL1MassTkAllConeTracksIter = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('mu+'),
src = cms.InputTag("hltIter2DisplacedTau3muNoL1MassMerged")
)
process.hltTau3muNoL1MassTkVertexProducer = cms.EDProducer("HLTmumutkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(2.02),
MinD0Significance = cms.double(0.0),
MinInvMass = cms.double(1.6),
MinPt = cms.double(1.2),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OverlapDR = cms.double(0.000144),
PreviousCandTag = cms.InputTag("hltDisplacedmumuFilterDoubleMu3Tau3muNoL1Mass"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.106),
TrackCand = cms.InputTag("hltTau3muNoL1MassTkAllConeTracksIter")
)
process.hltTau3muTkAllConeTracksIter = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('mu+'),
src = cms.InputTag("hltIter2DisplacedTau3muMerged")
)
process.hltTau3muTkVertexProducer = cms.EDProducer("HLTmumutkVtxProducer",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(2.1),
MinD0Significance = cms.double(0.0),
MinInvMass = cms.double(1.6),
MinPt = cms.double(1.2),
MuCand = cms.InputTag("hltIterL3MuonCandidates"),
OverlapDR = cms.double(0.000144),
PreviousCandTag = cms.InputTag("hltDisplacedmumuFilterDoubleMu3Tau3mu"),
SimpleMagneticField = cms.string(''),
ThirdTrackMass = cms.double(0.106),
TrackCand = cms.InputTag("hltTau3muTkAllConeTracksIter")
)
process.hltTauPFJets08Region = cms.EDProducer("RecoTauJetRegionProducer",
deltaR = cms.double(0.8),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
pfCandAssocMapSrc = cms.InputTag(""),
pfCandSrc = cms.InputTag("hltParticleFlowForTaus"),
src = cms.InputTag("hltAK4PFJetsForTaus"),
verbosity = cms.int32(0)
)
process.hltTauPFJets08RegionReg = cms.EDProducer("RecoTauJetRegionProducer",
deltaR = cms.double(0.8),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
pfCandAssocMapSrc = cms.InputTag(""),
pfCandSrc = cms.InputTag("hltParticleFlowReg"),
src = cms.InputTag("hltAK4PFJetsReg"),
verbosity = cms.int32(0)
)
process.hltTauPFJetsRecoTauChargedHadrons = cms.EDProducer("PFRecoTauChargedHadronProducer",
builders = cms.VPSet(cms.PSet(
chargedHadronCandidatesParticleIds = cms.vint32(1, 2, 3),
dRmergeNeutralHadronWrtChargedHadron = cms.double(0.005),
dRmergeNeutralHadronWrtElectron = cms.double(0.05),
dRmergeNeutralHadronWrtNeutralHadron = cms.double(0.01),
dRmergeNeutralHadronWrtOther = cms.double(0.005),
dRmergePhotonWrtChargedHadron = cms.double(0.005),
dRmergePhotonWrtElectron = cms.double(0.005),
dRmergePhotonWrtNeutralHadron = cms.double(0.01),
dRmergePhotonWrtOther = cms.double(0.005),
maxUnmatchedBlockElementsNeutralHadron = cms.int32(1),
maxUnmatchedBlockElementsPhoton = cms.int32(1),
minBlockElementMatchesNeutralHadron = cms.int32(2),
minBlockElementMatchesPhoton = cms.int32(2),
minMergeChargedHadronPt = cms.double(100.0),
minMergeGammaEt = cms.double(0.0),
minMergeNeutralHadronEt = cms.double(0.0),
name = cms.string('chargedPFCandidates'),
plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
)
)),
jetSrc = cms.InputTag("hltAK4PFJetsForTaus"),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
outputSelection = cms.string('pt > 0.5'),
ranking = cms.VPSet(cms.PSet(
name = cms.string('ChargedPFCandidate'),
plugin = cms.string('PFRecoTauChargedHadronStringQuality'),
selection = cms.string("algoIs(\'kChargedPFCandidate\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt')
)),
verbosity = cms.int32(0)
)
process.hltTauPFJetsRecoTauChargedHadronsReg = cms.EDProducer("PFRecoTauChargedHadronProducer",
builders = cms.VPSet(cms.PSet(
chargedHadronCandidatesParticleIds = cms.vint32(1, 2, 3),
dRmergeNeutralHadronWrtChargedHadron = cms.double(0.005),
dRmergeNeutralHadronWrtElectron = cms.double(0.05),
dRmergeNeutralHadronWrtNeutralHadron = cms.double(0.01),
dRmergeNeutralHadronWrtOther = cms.double(0.005),
dRmergePhotonWrtChargedHadron = cms.double(0.005),
dRmergePhotonWrtElectron = cms.double(0.005),
dRmergePhotonWrtNeutralHadron = cms.double(0.01),
dRmergePhotonWrtOther = cms.double(0.005),
maxUnmatchedBlockElementsNeutralHadron = cms.int32(1),
maxUnmatchedBlockElementsPhoton = cms.int32(1),
minBlockElementMatchesNeutralHadron = cms.int32(2),
minBlockElementMatchesPhoton = cms.int32(2),
minMergeChargedHadronPt = cms.double(100.0),
minMergeGammaEt = cms.double(0.0),
minMergeNeutralHadronEt = cms.double(0.0),
name = cms.string('chargedPFCandidates'),
plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'),
qualityCuts = cms.PSet(
primaryVertexSrc = cms.InputTag("hltPixelVertices"),
pvFindingAlgo = cms.string('closestInDeltaZ'),
recoverLeadingTrk = cms.bool(False),
signalQualityCuts = cms.PSet(
maxDeltaZ = cms.double(0.2),
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minNeutralHadronEt = cms.double(30.0),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
),
vertexTrackFiltering = cms.bool(False),
vxAssocQualityCuts = cms.PSet(
maxTrackChi2 = cms.double(1000.0),
maxTransverseImpactParameter = cms.double(0.2),
minGammaEt = cms.double(0.5),
minTrackHits = cms.uint32(3),
minTrackPixelHits = cms.uint32(0),
minTrackPt = cms.double(0.0),
useTracksInsteadOfPFHadrons = cms.bool(False)
)
)
)),
jetSrc = cms.InputTag("hltAK4PFJetsReg"),
maxJetAbsEta = cms.double(99.0),
minJetPt = cms.double(-1.0),
outputSelection = cms.string('pt > 0.5'),
ranking = cms.VPSet(cms.PSet(
name = cms.string('ChargedPFCandidate'),
plugin = cms.string('PFRecoTauChargedHadronStringQuality'),
selection = cms.string("algoIs(\'kChargedPFCandidate\')"),
selectionFailValue = cms.double(1000.0),
selectionPassFunction = cms.string('-pt')
)),
verbosity = cms.int32(0)
)
process.hltTauPt15MuPts711Mass1p3to2p1Iso = cms.EDProducer("HLTTriMuonIsolation",
AllMuonsSrc = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
ChargedAbsIsoCut = cms.double(2.0),
ChargedRelIsoCut = cms.double(0.2),
EnableAbsIso = cms.bool(True),
EnableRelIso = cms.bool(True),
IsoConeSize = cms.double(0.8),
IsoTracksSrc = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurity"),
L3DiMuonsFilterSrc = cms.InputTag("hltDiMuonForTau3MuDzFiltered0p3"),
L3MuonsSrc = cms.InputTag("hltIterL3MuonCandidates"),
MatchingConeSize = cms.double(0.03),
MaxDZ = cms.double(0.3),
MaxTriMuonMass = cms.double(2.1),
MaxTriMuonRadius = cms.double(0.3),
MinTriMuonMass = cms.double(1.3),
Muon1PtCut = cms.double(7.0),
Muon2PtCut = cms.double(1.0),
Muon3PtCut = cms.double(1.0),
TriMuonAbsCharge = cms.int32(-1),
TriMuonEtaCut = cms.double(2.5),
TriMuonPtCut = cms.double(15.0)
)
process.hltTauPt15MuPts711Mass1p3to2p1IsoCharge1 = cms.EDProducer("HLTTriMuonIsolation",
AllMuonsSrc = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
ChargedAbsIsoCut = cms.double(2.0),
ChargedRelIsoCut = cms.double(0.2),
EnableAbsIso = cms.bool(True),
EnableRelIso = cms.bool(True),
IsoConeSize = cms.double(0.8),
IsoTracksSrc = cms.InputTag("hltIter0L3MuonTrackSelectionHighPurity"),
L3DiMuonsFilterSrc = cms.InputTag("hltDiMuonForTau3MuDzFiltered0p3"),
L3MuonsSrc = cms.InputTag("hltIterL3MuonCandidates"),
MatchingConeSize = cms.double(0.03),
MaxDZ = cms.double(0.3),
MaxTriMuonMass = cms.double(2.1),
MaxTriMuonRadius = cms.double(0.3),
MinTriMuonMass = cms.double(1.3),
Muon1PtCut = cms.double(7.0),
Muon2PtCut = cms.double(1.0),
Muon3PtCut = cms.double(1.0),
TriMuonAbsCharge = cms.int32(1),
TriMuonEtaCut = cms.double(2.5),
TriMuonPtCut = cms.double(15.0)
)
process.hltTowerMakerEcal = cms.EDProducer("CaloTowersCreator",
AllowMissingInputs = cms.bool(True),
EBGrid = cms.vdouble(),
EBSumThreshold = cms.double(0.2),
EBThreshold = cms.double(0.07),
EBWeight = cms.double(1.0),
EBWeights = cms.vdouble(),
EEGrid = cms.vdouble(),
EESumThreshold = cms.double(0.45),
EEThreshold = cms.double(0.3),
EEWeight = cms.double(1.0),
EEWeights = cms.vdouble(),
EcalRecHitSeveritiesToBeExcluded = cms.vstring(
'kTime',
'kWeird',
'kBad'
),
EcalSeveritiesToBeUsedInBadTowers = cms.vstring(),
EcutTower = cms.double(-1000.0),
HBGrid = cms.vdouble(),
HBThreshold = cms.double(0.7),
HBThreshold1 = cms.double(0.7),
HBThreshold2 = cms.double(0.7),
HBWeight = cms.double(1.0),
HBWeights = cms.vdouble(),
HEDGrid = cms.vdouble(),
HEDThreshold = cms.double(0.2),
HEDThreshold1 = cms.double(0.1),
HEDWeight = cms.double(1.0),
HEDWeights = cms.vdouble(),
HESGrid = cms.vdouble(),
HESThreshold = cms.double(0.2),
HESThreshold1 = cms.double(0.1),
HESWeight = cms.double(1.0),
HESWeights = cms.vdouble(),
HF1Grid = cms.vdouble(),
HF1Threshold = cms.double(0.5),
HF1Weight = cms.double(1.0),
HF1Weights = cms.vdouble(),
HF2Grid = cms.vdouble(),
HF2Threshold = cms.double(0.85),
HF2Weight = cms.double(1.0),
HF2Weights = cms.vdouble(),
HOGrid = cms.vdouble(),
HOThreshold0 = cms.double(3.5),
HOThresholdMinus1 = cms.double(3.5),
HOThresholdMinus2 = cms.double(3.5),
HOThresholdPlus1 = cms.double(3.5),
HOThresholdPlus2 = cms.double(3.5),
HOWeight = cms.double(1e-99),
HOWeights = cms.vdouble(),
HcalAcceptSeverityLevel = cms.uint32(9),
HcalAcceptSeverityLevelForRejectedHit = cms.uint32(9999),
HcalPhase = cms.int32(1),
HcalThreshold = cms.double(-1000.0),
MomConstrMethod = cms.int32(1),
MomEBDepth = cms.double(0.3),
MomEEDepth = cms.double(0.0),
MomHBDepth = cms.double(0.2),
MomHEDepth = cms.double(0.4),
UseEcalRecoveredHits = cms.bool(False),
UseEtEBTreshold = cms.bool(False),
UseEtEETreshold = cms.bool(False),
UseHO = cms.bool(False),
UseHcalRecoveredHits = cms.bool(False),
UseRejectedHitsOnly = cms.bool(False),
UseRejectedRecoveredEcalHits = cms.bool(False),
UseRejectedRecoveredHcalHits = cms.bool(False),
UseSymEBTreshold = cms.bool(False),
UseSymEETreshold = cms.bool(False),
ecalInputs = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE"),
hbheInput = cms.InputTag(""),
hfInput = cms.InputTag(""),
hoInput = cms.InputTag(""),
missingHcalRescaleFactorForEcal = cms.double(0.0)
)
process.hltTowerMakerForAll = cms.EDProducer("CaloTowersCreator",
AllowMissingInputs = cms.bool(False),
EBGrid = cms.vdouble(),
EBSumThreshold = cms.double(0.2),
EBThreshold = cms.double(0.07),
EBWeight = cms.double(1.0),
EBWeights = cms.vdouble(),
EEGrid = cms.vdouble(),
EESumThreshold = cms.double(0.45),
EEThreshold = cms.double(0.3),
EEWeight = cms.double(1.0),
EEWeights = cms.vdouble(),
EcalRecHitSeveritiesToBeExcluded = cms.vstring(
'kTime',
'kWeird',
'kBad'
),
EcalSeveritiesToBeUsedInBadTowers = cms.vstring(),
EcutTower = cms.double(-1000.0),
HBGrid = cms.vdouble(),
HBThreshold = cms.double(0.7),
HBThreshold1 = cms.double(0.7),
HBThreshold2 = cms.double(0.7),
HBWeight = cms.double(1.0),
HBWeights = cms.vdouble(),
HEDGrid = cms.vdouble(),
HEDThreshold = cms.double(0.2),
HEDThreshold1 = cms.double(0.1),
HEDWeight = cms.double(1.0),
HEDWeights = cms.vdouble(),
HESGrid = cms.vdouble(),
HESThreshold = cms.double(0.2),
HESThreshold1 = cms.double(0.1),
HESWeight = cms.double(1.0),
HESWeights = cms.vdouble(),
HF1Grid = cms.vdouble(),
HF1Threshold = cms.double(0.5),
HF1Weight = cms.double(1.0),
HF1Weights = cms.vdouble(),
HF2Grid = cms.vdouble(),
HF2Threshold = cms.double(0.85),
HF2Weight = cms.double(1.0),
HF2Weights = cms.vdouble(),
HOGrid = cms.vdouble(),
HOThreshold0 = cms.double(3.5),
HOThresholdMinus1 = cms.double(3.5),
HOThresholdMinus2 = cms.double(3.5),
HOThresholdPlus1 = cms.double(3.5),
HOThresholdPlus2 = cms.double(3.5),
HOWeight = cms.double(1e-99),
HOWeights = cms.vdouble(),
HcalAcceptSeverityLevel = cms.uint32(9),
HcalAcceptSeverityLevelForRejectedHit = cms.uint32(9999),
HcalPhase = cms.int32(1),
HcalThreshold = cms.double(-1000.0),
MomConstrMethod = cms.int32(1),
MomEBDepth = cms.double(0.3),
MomEEDepth = cms.double(0.0),
MomHBDepth = cms.double(0.2),
MomHEDepth = cms.double(0.4),
UseEcalRecoveredHits = cms.bool(False),
UseEtEBTreshold = cms.bool(False),
UseEtEETreshold = cms.bool(False),
UseHO = cms.bool(False),
UseHcalRecoveredHits = cms.bool(False),
UseRejectedHitsOnly = cms.bool(False),
UseRejectedRecoveredEcalHits = cms.bool(False),
UseRejectedRecoveredHcalHits = cms.bool(False),
UseSymEBTreshold = cms.bool(False),
UseSymEETreshold = cms.bool(False),
ecalInputs = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE"),
hbheInput = cms.InputTag("hltHbhereco"),
hfInput = cms.InputTag("hltHfreco"),
hoInput = cms.InputTag("hltHoreco"),
missingHcalRescaleFactorForEcal = cms.double(0.0)
)
process.hltTowerMakerForAllBeamHaloCleaned = cms.EDProducer("CaloTowersCreator",
AllowMissingInputs = cms.bool(False),
EBGrid = cms.vdouble(),
EBSumThreshold = cms.double(0.2),
EBThreshold = cms.double(0.07),
EBWeight = cms.double(1.0),
EBWeights = cms.vdouble(),
EEGrid = cms.vdouble(),
EESumThreshold = cms.double(0.45),
EEThreshold = cms.double(0.3),
EEWeight = cms.double(1.0),
EEWeights = cms.vdouble(),
EcalRecHitSeveritiesToBeExcluded = cms.vstring(
'kTime',
'kWeird',
'kBad'
),
EcalSeveritiesToBeUsedInBadTowers = cms.vstring(),
EcutTower = cms.double(-1000.0),
HBGrid = cms.vdouble(),
HBThreshold = cms.double(0.7),
HBThreshold1 = cms.double(0.7),
HBThreshold2 = cms.double(0.7),
HBWeight = cms.double(1.0),
HBWeights = cms.vdouble(),
HEDGrid = cms.vdouble(),
HEDThreshold = cms.double(0.2),
HEDThreshold1 = cms.double(0.1),
HEDWeight = cms.double(1.0),
HEDWeights = cms.vdouble(),
HESGrid = cms.vdouble(),
HESThreshold = cms.double(0.2),
HESThreshold1 = cms.double(0.1),
HESWeight = cms.double(1.0),
HESWeights = cms.vdouble(),
HF1Grid = cms.vdouble(),
HF1Threshold = cms.double(0.5),
HF1Weight = cms.double(1.0),
HF1Weights = cms.vdouble(),
HF2Grid = cms.vdouble(),
HF2Threshold = cms.double(0.85),
HF2Weight = cms.double(1.0),
HF2Weights = cms.vdouble(),
HOGrid = cms.vdouble(),
HOThreshold0 = cms.double(3.5),
HOThresholdMinus1 = cms.double(3.5),
HOThresholdMinus2 = cms.double(3.5),
HOThresholdPlus1 = cms.double(3.5),
HOThresholdPlus2 = cms.double(3.5),
HOWeight = cms.double(1e-99),
HOWeights = cms.vdouble(),
HcalAcceptSeverityLevel = cms.uint32(9),
HcalAcceptSeverityLevelForRejectedHit = cms.uint32(9999),
HcalPhase = cms.int32(1),
HcalThreshold = cms.double(-1000.0),
MomConstrMethod = cms.int32(1),
MomEBDepth = cms.double(0.3),
MomEEDepth = cms.double(0.0),
MomHBDepth = cms.double(0.2),
MomHEDepth = cms.double(0.4),
UseEcalRecoveredHits = cms.bool(False),
UseEtEBTreshold = cms.bool(False),
UseEtEETreshold = cms.bool(False),
UseHO = cms.bool(False),
UseHcalRecoveredHits = cms.bool(False),
UseRejectedHitsOnly = cms.bool(False),
UseRejectedRecoveredEcalHits = cms.bool(False),
UseRejectedRecoveredHcalHits = cms.bool(False),
UseSymEBTreshold = cms.bool(False),
UseSymEETreshold = cms.bool(False),
ecalInputs = cms.VInputTag("hltCaloRecHitsBeamHaloCleaned:EcalRecHitsEB", "hltCaloRecHitsBeamHaloCleaned:EcalRecHitsEE"),
hbheInput = cms.InputTag("hltCaloRecHitsBeamHaloCleaned"),
hfInput = cms.InputTag("hltHfreco"),
hoInput = cms.InputTag("hltHoreco"),
missingHcalRescaleFactorForEcal = cms.double(0.0)
)
process.hltTowerMakerForECALMF = cms.EDProducer("CaloTowersCreator",
AllowMissingInputs = cms.bool(False),
EBGrid = cms.vdouble(),
EBSumThreshold = cms.double(0.2),
EBThreshold = cms.double(0.07),
EBWeight = cms.double(1.0),
EBWeights = cms.vdouble(),
EEGrid = cms.vdouble(),
EESumThreshold = cms.double(0.45),
EEThreshold = cms.double(0.3),
EEWeight = cms.double(1.0),
EEWeights = cms.vdouble(),
EcalRecHitSeveritiesToBeExcluded = cms.vstring(
'kTime',
'kWeird',
'kBad'
),
EcalSeveritiesToBeUsedInBadTowers = cms.vstring(),
EcutTower = cms.double(-1000.0),
HBGrid = cms.vdouble(),
HBThreshold = cms.double(0.7),
HBThreshold1 = cms.double(0.7),
HBThreshold2 = cms.double(0.7),
HBWeight = cms.double(1e-99),
HBWeights = cms.vdouble(1e-99),
HEDGrid = cms.vdouble(),
HEDThreshold = cms.double(0.2),
HEDThreshold1 = cms.double(0.1),
HEDWeight = cms.double(1e-99),
HEDWeights = cms.vdouble(1e-99),
HESGrid = cms.vdouble(),
HESThreshold = cms.double(0.2),
HESThreshold1 = cms.double(0.1),
HESWeight = cms.double(1e-99),
HESWeights = cms.vdouble(1e-99),
HF1Grid = cms.vdouble(),
HF1Threshold = cms.double(0.5),
HF1Weight = cms.double(1e-99),
HF1Weights = cms.vdouble(1e-99),
HF2Grid = cms.vdouble(),
HF2Threshold = cms.double(0.85),
HF2Weight = cms.double(1e-99),
HF2Weights = cms.vdouble(1e-99),
HOGrid = cms.vdouble(),
HOThreshold0 = cms.double(3.5),
HOThresholdMinus1 = cms.double(3.5),
HOThresholdMinus2 = cms.double(3.5),
HOThresholdPlus1 = cms.double(3.5),
HOThresholdPlus2 = cms.double(3.5),
HOWeight = cms.double(1e-99),
HOWeights = cms.vdouble(1e-99),
HcalAcceptSeverityLevel = cms.uint32(9),
HcalAcceptSeverityLevelForRejectedHit = cms.uint32(9999),
HcalPhase = cms.int32(1),
HcalThreshold = cms.double(-1000.0),
MomConstrMethod = cms.int32(1),
MomEBDepth = cms.double(0.3),
MomEEDepth = cms.double(0.0),
MomHBDepth = cms.double(0.2),
MomHEDepth = cms.double(0.4),
UseEcalRecoveredHits = cms.bool(False),
UseEtEBTreshold = cms.bool(False),
UseEtEETreshold = cms.bool(False),
UseHO = cms.bool(False),
UseHcalRecoveredHits = cms.bool(False),
UseRejectedHitsOnly = cms.bool(False),
UseRejectedRecoveredEcalHits = cms.bool(False),
UseRejectedRecoveredHcalHits = cms.bool(False),
UseSymEBTreshold = cms.bool(False),
UseSymEETreshold = cms.bool(False),
ecalInputs = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE"),
hbheInput = cms.InputTag("hltHbhereco"),
hfInput = cms.InputTag("hltHfreco"),
hoInput = cms.InputTag("hltHoreco"),
missingHcalRescaleFactorForEcal = cms.double(0.0)
)
process.hltTowerMakerForHCAL = cms.EDProducer("CaloTowersCreator",
AllowMissingInputs = cms.bool(False),
EBGrid = cms.vdouble(),
EBSumThreshold = cms.double(0.2),
EBThreshold = cms.double(0.07),
EBWeight = cms.double(1e-99),
EBWeights = cms.vdouble(1e-99),
EEGrid = cms.vdouble(),
EESumThreshold = cms.double(0.45),
EEThreshold = cms.double(0.3),
EEWeight = cms.double(1e-99),
EEWeights = cms.vdouble(1e-99),
EcalRecHitSeveritiesToBeExcluded = cms.vstring(
'kTime',
'kWeird',
'kBad'
),
EcalSeveritiesToBeUsedInBadTowers = cms.vstring(),
EcutTower = cms.double(-1000.0),
HBGrid = cms.vdouble(),
HBThreshold = cms.double(0.7),
HBThreshold1 = cms.double(0.7),
HBThreshold2 = cms.double(0.7),
HBWeight = cms.double(1.0),
HBWeights = cms.vdouble(),
HEDGrid = cms.vdouble(),
HEDThreshold = cms.double(0.2),
HEDThreshold1 = cms.double(0.1),
HEDWeight = cms.double(1.0),
HEDWeights = cms.vdouble(),
HESGrid = cms.vdouble(),
HESThreshold = cms.double(0.2),
HESThreshold1 = cms.double(0.1),
HESWeight = cms.double(1.0),
HESWeights = cms.vdouble(),
HF1Grid = cms.vdouble(),
HF1Threshold = cms.double(0.5),
HF1Weight = cms.double(1.0),
HF1Weights = cms.vdouble(),
HF2Grid = cms.vdouble(),
HF2Threshold = cms.double(0.85),
HF2Weight = cms.double(1.0),
HF2Weights = cms.vdouble(),
HOGrid = cms.vdouble(),
HOThreshold0 = cms.double(3.5),
HOThresholdMinus1 = cms.double(3.5),
HOThresholdMinus2 = cms.double(3.5),
HOThresholdPlus1 = cms.double(3.5),
HOThresholdPlus2 = cms.double(3.5),
HOWeight = cms.double(1e-99),
HOWeights = cms.vdouble(),
HcalAcceptSeverityLevel = cms.uint32(9),
HcalAcceptSeverityLevelForRejectedHit = cms.uint32(9999),
HcalPhase = cms.int32(1),
HcalThreshold = cms.double(-1000.0),
MomConstrMethod = cms.int32(1),
MomEBDepth = cms.double(0.3),
MomEEDepth = cms.double(0.0),
MomHBDepth = cms.double(0.2),
MomHEDepth = cms.double(0.4),
UseEcalRecoveredHits = cms.bool(False),
UseEtEBTreshold = cms.bool(False),
UseEtEETreshold = cms.bool(False),
UseHO = cms.bool(False),
UseHcalRecoveredHits = cms.bool(False),
UseRejectedHitsOnly = cms.bool(False),
UseRejectedRecoveredEcalHits = cms.bool(False),
UseRejectedRecoveredHcalHits = cms.bool(False),
UseSymEBTreshold = cms.bool(False),
UseSymEETreshold = cms.bool(False),
ecalInputs = cms.VInputTag("hltEcalRecHit:EcalRecHitsEB", "hltEcalRecHit:EcalRecHitsEE"),
hbheInput = cms.InputTag("hltHbhereco"),
hfInput = cms.InputTag("hltHfreco"),
hoInput = cms.InputTag("hltHoreco"),
missingHcalRescaleFactorForEcal = cms.double(0.0)
)
process.hltTrackIter0RefsForJets4Iter1TauReg = cms.EDProducer("ChargedRefCandidateProducer",
particleType = cms.string('pi+'),
src = cms.InputTag("hltIter0PFlowTrackSelectionHighPurityTauReg")
)
process.hltTrackVertexArbitrator = cms.EDProducer("TrackVertexArbitrator",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
dLenFraction = cms.double(0.333),
dRCut = cms.double(0.4),
distCut = cms.double(0.04),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxTimeSignificance = cms.double(3.5),
primaryVertices = cms.InputTag("hltVerticesL3"),
secondaryVertices = cms.InputTag("hltInclusiveSecondaryVertices"),
sigCut = cms.double(5.0),
trackMinLayers = cms.int32(4),
trackMinPixels = cms.int32(1),
trackMinPt = cms.double(0.4),
tracks = cms.InputTag("hltIter2MergedForBTag")
)
process.hltTrackVertexArbitratorROIForBTag = cms.EDProducer("TrackVertexArbitrator",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
dLenFraction = cms.double(0.333),
dRCut = cms.double(0.4),
distCut = cms.double(0.04),
fitterRatio = cms.double(0.25),
fitterSigmacut = cms.double(3.0),
fitterTini = cms.double(256.0),
maxTimeSignificance = cms.double(3.5),
primaryVertices = cms.InputTag("hltVerticesL3FilterROIForBTag"),
secondaryVertices = cms.InputTag("hltInclusiveSecondaryVerticesROIForBTag"),
sigCut = cms.double(5.0),
trackMinLayers = cms.int32(4),
trackMinPixels = cms.int32(1),
trackMinPt = cms.double(0.4),
tracks = cms.InputTag("hltMergedTracksROIForBTag")
)
process.hltTracksIter = cms.EDProducer("ConcreteChargedCandidateProducer",
particleType = cms.string('mu+'),
src = cms.InputTag("hltIterL3MuonAndMuonFromL1Merged")
)
process.hltTriggerSummaryAOD = cms.EDProducer("TriggerSummaryProducerAOD",
moduleLabelPatternsToMatch = cms.vstring('hlt*'),
moduleLabelPatternsToSkip = cms.vstring(),
processName = cms.string('@'),
throw = cms.bool(False)
)
process.hltTriggerSummaryRAW = cms.EDProducer("TriggerSummaryProducerRAW",
processName = cms.string('@')
)
process.hltTrimmedPixelVertices = cms.EDProducer("PixelVertexCollectionTrimmer",
PVcomparer = cms.PSet(
refToPSet_ = cms.string('HLTPSetPvClusterComparerForIT')
),
fractionSumPt2 = cms.double(0.3),
maxVtx = cms.uint32(100),
minSumPt2 = cms.double(0.0),
src = cms.InputTag("hltPixelVertices")
)
process.hltTripletRecoveryCkfTrackCandidatesDisplacedJpsiReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltTripletRecoveryPixelSeedsDisplacedJpsiReg"),
useHitsSplitting = cms.bool(False)
)
process.hltTripletRecoveryCkfTrackCandidatesDisplacedJpsiRegDoubleTrk = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltTripletRecoveryPixelSeedsDisplacedJpsiRegDoubleTrk"),
useHitsSplitting = cms.bool(False)
)
process.hltTripletRecoveryCkfTrackCandidatesDisplacedNRReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltTripletRecoveryPixelSeedsDisplacedNRReg"),
useHitsSplitting = cms.bool(False)
)
process.hltTripletRecoveryCkfTrackCandidatesDisplacedPsiPrimeReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltTripletRecoveryPixelSeedsDisplacedPsiPrimeReg"),
useHitsSplitting = cms.bool(False)
)
process.hltTripletRecoveryCkfTrackCandidatesDisplacedTau3muNoL1MassReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltTripletRecoveryPixelSeedsDisplacedTau3muNoL1MassReg"),
useHitsSplitting = cms.bool(False)
)
process.hltTripletRecoveryCkfTrackCandidatesDisplacedTau3muReg = cms.EDProducer("CkfTrackCandidateMaker",
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg"),
NavigationSchool = cms.string('SimpleNavigationSchool'),
RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'),
SimpleMagneticField = cms.string('ParabolicMf'),
TrajectoryBuilder = cms.string(''),
TrajectoryBuilderPSet = cms.PSet(
refToPSet_ = cms.string('HLTIter2GroupedCkfTrajectoryBuilderIT')
),
TrajectoryCleaner = cms.string('hltESPTrajectoryCleanerBySharedHits'),
TransientInitialStateEstimatorParameters = cms.PSet(
numberMeasurementsForFit = cms.int32(4),
propagatorAlongTISE = cms.string('PropagatorWithMaterialParabolicMf'),
propagatorOppositeTISE = cms.string('PropagatorWithMaterialParabolicMfOpposite')
),
cleanTrajectoryAfterInOut = cms.bool(False),
doSeedingRegionRebuilding = cms.bool(False),
maxNSeeds = cms.uint32(100000),
maxSeedsBeforeCleaning = cms.uint32(1000),
reverseTrajectories = cms.bool(False),
src = cms.InputTag("hltTripletRecoveryPixelSeedsDisplacedTau3muReg"),
useHitsSplitting = cms.bool(False)
)
process.hltTripletRecoveryClustersRefRemovalDisplacedJpsiReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2DisplacedJpsiTrackSelectionHighPurity")
)
process.hltTripletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2DisplacedJpsiClustersRefRemovalDoubleTrk"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2DisplacedJpsiTrackSelectionHighPurityDoubleTrk")
)
process.hltTripletRecoveryClustersRefRemovalDisplacedNRReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2DisplacedNRClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2DisplacedNRTrackSelectionHighPurity")
)
process.hltTripletRecoveryClustersRefRemovalDisplacedPsiPrimeReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2DisplacedPsiPrimeClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2DisplacedPsiPrimeTrackSelectionHighPurity")
)
process.hltTripletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2DisplacedTau3muNoL1MassClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2DisplacedTau3muNoL1MassTrackSelectionHighPurity")
)
process.hltTripletRecoveryClustersRefRemovalDisplacedTau3muReg = cms.EDProducer("TrackClusterRemover",
TrackQuality = cms.string('highPurity'),
maxChi2 = cms.double(16.0),
minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0),
oldClusterRemovalInfo = cms.InputTag("hltIter2DisplacedTau3muClustersRefRemoval"),
overrideTrkQuals = cms.InputTag(""),
pixelClusters = cms.InputTag("hltSiPixelClusters"),
stripClusters = cms.InputTag("hltSiStripRawToClustersFacility"),
trackClassifier = cms.InputTag("","QualityMasks"),
trajectories = cms.InputTag("hltIter2DisplacedTau3muTrackSelectionHighPurity")
)
process.hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltTripletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltTripletRecoveryCkfTrackCandidatesDisplacedJpsiReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltTripletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltTripletRecoveryCkfTrackCandidatesDisplacedJpsiRegDoubleTrk"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltTripletRecoveryCtfWithMaterialTracksDisplacedNRReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltTripletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltTripletRecoveryCkfTrackCandidatesDisplacedNRReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltTripletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltTripletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltTripletRecoveryCkfTrackCandidatesDisplacedPsiPrimeReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltTripletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltTripletRecoveryCkfTrackCandidatesDisplacedTau3muNoL1MassReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muReg = cms.EDProducer("TrackProducer",
AlgorithmName = cms.string('hltTripletRecovery'),
Fitter = cms.string('hltESPFittingSmootherIT'),
GeometricInnerState = cms.bool(True),
MeasurementTracker = cms.string(''),
MeasurementTrackerEvent = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg"),
NavigationSchool = cms.string(''),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
SimpleMagneticField = cms.string('ParabolicMf'),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
TrajectoryInEvent = cms.bool(False),
alias = cms.untracked.string('ctfWithMaterialTracks'),
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
clusterRemovalInfo = cms.InputTag(""),
src = cms.InputTag("hltTripletRecoveryCkfTrackCandidatesDisplacedTau3muReg"),
useHitsSplitting = cms.bool(False),
useSimpleMF = cms.bool(True)
)
process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedNRReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg = cms.EDProducer("MaskedMeasurementTrackerEventProducer",
OnDemand = cms.bool(False),
clustersToSkip = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muReg"),
src = cms.InputTag("hltSiStripClusters")
)
process.hltTripletRecoveryMergedDisplacedJpsiReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2DisplacedJpsiMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2DisplacedJpsiMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltTripletRecoveryMergedDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2DisplacedJpsiMergedDoubleTrk", "hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2DisplacedJpsiMergedDoubleTrk", "hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltTripletRecoveryMergedDisplacedNRMuMuReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter1DisplacedNRMuMuMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedNRReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2DisplacedNRMuMuMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedNRReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltTripletRecoveryMergedDisplacedPsiPrimeReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2DisplacedPsiPrimeMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2DisplacedPsiPrimeMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltTripletRecoveryMergedDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2DisplacedTau3muNoL1MassMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2DisplacedTau3muNoL1MassMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltTripletRecoveryMergedDisplacedTau3muReg = cms.EDProducer("TrackListMerger",
Epsilon = cms.double(-0.001),
FoundHitBonus = cms.double(5.0),
LostHitPenalty = cms.double(20.0),
MaxNormalizedChisq = cms.double(1000.0),
MinFound = cms.int32(3),
MinPT = cms.double(0.05),
ShareFrac = cms.double(0.19),
TrackProducers = cms.VInputTag("hltIter2DisplacedTau3muMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muReg"),
allowFirstHitShare = cms.bool(True),
copyExtras = cms.untracked.bool(True),
copyMVA = cms.bool(False),
hasSelector = cms.vint32(0, 0),
indivShareFrac = cms.vdouble(1.0, 1.0),
newQuality = cms.string('confirmed'),
selectedTrackQuals = cms.VInputTag("hltIter2DisplacedTau3muMerged", "hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muReg"),
setsToMerge = cms.VPSet(cms.PSet(
pQual = cms.bool(False),
tLists = cms.vint32(0, 1)
)),
trackAlgoPriorityOrder = cms.string('hltESPTrackAlgoPriorityOrder'),
writeOnlyTrkQuals = cms.bool(False)
)
process.hltTripletRecoveryPixelClusterCheckDisplacedJpsiReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltTripletRecoveryPixelClusterCheckDisplacedJpsiRegDoubleTrk = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltTripletRecoveryPixelClusterCheckDisplacedNRReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltTripletRecoveryPixelClusterCheckDisplacedPsiPrimeReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltTripletRecoveryPixelClusterCheckDisplacedTau3muNoL1MassReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltTripletRecoveryPixelClusterCheckDisplacedTau3muReg = cms.EDProducer("ClusterCheckerEDProducer",
ClusterCollectionLabel = cms.InputTag("hltSiStripClusters"),
MaxNumberOfCosmicClusters = cms.uint32(50000),
MaxNumberOfPixelClusters = cms.uint32(10000),
PixelClusterCollectionLabel = cms.InputTag("hltSiPixelClusters"),
cut = cms.string(''),
doClusterCheck = cms.bool(False),
silentClusterCheck = cms.untracked.bool(False)
)
process.hltTripletRecoveryPixelHitDoubletsDisplacedJpsiReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltTripletRecoveryPixelClusterCheckDisplacedJpsiReg"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltTripletRecoveryPixelLayerTripletsDisplacedJpsiReg"),
trackingRegions = cms.InputTag("hltTripletRecoveryPixelTrackingRegionsDisplacedJpsiReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltTripletRecoveryPixelHitDoubletsDisplacedJpsiRegDoubleTrk = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltTripletRecoveryPixelClusterCheckDisplacedJpsiRegDoubleTrk"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltTripletRecoveryPixelLayerTripletsDisplacedJpsiRegDoubleTrk"),
trackingRegions = cms.InputTag("hltTripletRecoveryPixelTrackingRegionsDisplacedJpsiRegDoubleTrk"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltTripletRecoveryPixelHitDoubletsDisplacedNRReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltTripletRecoveryPixelClusterCheckDisplacedNRReg"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltTripletRecoveryPixelLayerTripletsDisplacedNRReg"),
trackingRegions = cms.InputTag("hltTripletRecoveryPixelTrackingRegionsDisplacedNRReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltTripletRecoveryPixelHitDoubletsDisplacedPsiPrimeReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltTripletRecoveryPixelClusterCheckDisplacedPsiPrimeReg"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltTripletRecoveryPixelLayerTripletsDisplacedPsiPrimeReg"),
trackingRegions = cms.InputTag("hltTripletRecoveryPixelTrackingRegionsDisplacedPsiPrimeReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltTripletRecoveryPixelHitDoubletsDisplacedTau3muNoL1MassReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltTripletRecoveryPixelClusterCheckDisplacedTau3muNoL1MassReg"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltTripletRecoveryPixelLayerTripletsDisplacedTau3muNoL1MassReg"),
trackingRegions = cms.InputTag("hltTripletRecoveryPixelTrackingRegionsDisplacedTau3muNoL1MassReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltTripletRecoveryPixelHitDoubletsDisplacedTau3muReg = cms.EDProducer("HitPairEDProducer",
clusterCheck = cms.InputTag("hltTripletRecoveryPixelClusterCheckDisplacedTau3muReg"),
layerPairs = cms.vuint32(0, 1),
maxElement = cms.uint32(0),
maxElementTotal = cms.uint32(50000000),
produceIntermediateHitDoublets = cms.bool(True),
produceSeedingHitSets = cms.bool(False),
seedingLayers = cms.InputTag("hltTripletRecoveryPixelLayerTripletsDisplacedTau3muReg"),
trackingRegions = cms.InputTag("hltTripletRecoveryPixelTrackingRegionsDisplacedTau3muReg"),
trackingRegionsSeedingLayers = cms.InputTag("")
)
process.hltTripletRecoveryPixelHitTripletsDisplacedJpsiReg = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltTripletRecoveryPixelHitDoubletsDisplacedJpsiReg"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltTripletRecoveryPixelHitTripletsDisplacedJpsiRegDoubleTrk = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltTripletRecoveryPixelHitDoubletsDisplacedJpsiRegDoubleTrk"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltTripletRecoveryPixelHitTripletsDisplacedNRReg = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltTripletRecoveryPixelHitDoubletsDisplacedNRReg"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltTripletRecoveryPixelHitTripletsDisplacedPsiPrimeReg = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltTripletRecoveryPixelHitDoubletsDisplacedPsiPrimeReg"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltTripletRecoveryPixelHitTripletsDisplacedTau3muNoL1MassReg = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltTripletRecoveryPixelHitDoubletsDisplacedTau3muNoL1MassReg"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltTripletRecoveryPixelHitTripletsDisplacedTau3muReg = cms.EDProducer("CAHitTripletEDProducer",
CAHardPtCut = cms.double(0.3),
CAPhiCut = cms.double(0.1),
CAPhiCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
CAThetaCut = cms.double(0.004),
CAThetaCut_byTriplets = cms.VPSet(cms.PSet(
cut = cms.double(-1.0),
seedingLayers = cms.string('')
)),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
doublets = cms.InputTag("hltTripletRecoveryPixelHitDoubletsDisplacedTau3muReg"),
extraHitRPhitolerance = cms.double(0.032),
maxChi2 = cms.PSet(
enabled = cms.bool(True),
pt1 = cms.double(0.8),
pt2 = cms.double(8.0),
value1 = cms.double(100.0),
value2 = cms.double(50.0)
),
useBendingCorrection = cms.bool(True)
)
process.hltTripletRecoveryPixelLayerTripletsDisplacedJpsiReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltTripletRecoveryPixelLayerTripletsDisplacedJpsiRegDoubleTrk = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltTripletRecoveryPixelLayerTripletsDisplacedNRReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedNRReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedNRReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltTripletRecoveryPixelLayerTripletsDisplacedPsiPrimeReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedPsiPrimeReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltTripletRecoveryPixelLayerTripletsDisplacedTau3muNoL1MassReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltTripletRecoveryPixelLayerTripletsDisplacedTau3muReg = cms.EDProducer("SeedingLayersEDProducer",
BPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0027),
hitErrorRZ = cms.double(0.006),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muReg"),
useErrorsFromParam = cms.bool(True)
),
FPix = cms.PSet(
HitProducer = cms.string('hltSiPixelRecHits'),
TTRHBuilder = cms.string('hltESPTTRHBuilderPixelOnly'),
hitErrorRPhi = cms.double(0.0051),
hitErrorRZ = cms.double(0.0036),
skipClusters = cms.InputTag("hltTripletRecoveryClustersRefRemovalDisplacedTau3muReg"),
useErrorsFromParam = cms.bool(True)
),
MTEC = cms.PSet(
),
MTIB = cms.PSet(
),
MTID = cms.PSet(
),
MTOB = cms.PSet(
),
TEC = cms.PSet(
),
TIB = cms.PSet(
),
TID = cms.PSet(
),
TOB = cms.PSet(
),
layerList = cms.vstring(
'BPix1+BPix2+BPix3',
'BPix2+BPix3+BPix4',
'BPix1+BPix3+BPix4',
'BPix1+BPix2+BPix4',
'BPix2+BPix3+FPix1_pos',
'BPix2+BPix3+FPix1_neg',
'BPix1+BPix2+FPix1_pos',
'BPix1+BPix2+FPix1_neg',
'BPix2+FPix1_pos+FPix2_pos',
'BPix2+FPix1_neg+FPix2_neg',
'BPix1+FPix1_pos+FPix2_pos',
'BPix1+FPix1_neg+FPix2_neg',
'FPix1_pos+FPix2_pos+FPix3_pos',
'FPix1_neg+FPix2_neg+FPix3_neg',
'BPix1+BPix3+FPix1_pos',
'BPix1+BPix2+FPix2_pos',
'BPix1+BPix3+FPix1_neg',
'BPix1+BPix2+FPix2_neg',
'BPix1+FPix2_neg+FPix3_neg',
'BPix1+FPix1_neg+FPix3_neg',
'BPix1+FPix2_pos+FPix3_pos',
'BPix1+FPix1_pos+FPix3_pos'
)
)
process.hltTripletRecoveryPixelSeedsDisplacedJpsiReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltTripletRecoveryPixelHitTripletsDisplacedJpsiReg")
)
process.hltTripletRecoveryPixelSeedsDisplacedJpsiRegDoubleTrk = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltTripletRecoveryPixelHitTripletsDisplacedJpsiRegDoubleTrk")
)
process.hltTripletRecoveryPixelSeedsDisplacedNRReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltTripletRecoveryPixelHitTripletsDisplacedNRReg")
)
process.hltTripletRecoveryPixelSeedsDisplacedPsiPrimeReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltTripletRecoveryPixelHitTripletsDisplacedPsiPrimeReg")
)
process.hltTripletRecoveryPixelSeedsDisplacedTau3muNoL1MassReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltTripletRecoveryPixelHitTripletsDisplacedTau3muNoL1MassReg")
)
process.hltTripletRecoveryPixelSeedsDisplacedTau3muReg = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer",
MinOneOverPtError = cms.double(1.0),
OriginTransverseErrorMultiplier = cms.double(1.0),
SeedComparitorPSet = cms.PSet(
ComponentName = cms.string('none')
),
SeedMomentumForBOFF = cms.double(5.0),
TTRHBuilder = cms.string('hltESPTTRHBWithTrackAngle'),
forceKinematicWithRegionDirection = cms.bool(False),
magneticField = cms.string('ParabolicMf'),
propagator = cms.string('PropagatorWithMaterialParabolicMf'),
seedingHitSets = cms.InputTag("hltTripletRecoveryPixelHitTripletsDisplacedTau3muReg")
)
process.hltTripletRecoveryPixelTrackingRegionsDisplacedJpsiReg = cms.EDProducer("PointSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.4),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
points = cms.PSet(
eta = cms.vdouble(1.8, -0.8),
phi = cms.vdouble(2.1, -3.0)
),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltTripletRecoveryPixelTrackingRegionsDisplacedJpsiRegDoubleTrk = cms.EDProducer("PointSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.4),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
points = cms.PSet(
eta = cms.vdouble(1.8, -0.8),
phi = cms.vdouble(2.1, -3.0)
),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltTripletRecoveryPixelTrackingRegionsDisplacedNRReg = cms.EDProducer("PointSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.4),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
points = cms.PSet(
eta = cms.vdouble(1.8, -0.8),
phi = cms.vdouble(2.1, -3.0)
),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltTripletRecoveryPixelTrackingRegionsDisplacedPsiPrimeReg = cms.EDProducer("PointSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.4),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
points = cms.PSet(
eta = cms.vdouble(1.8, -0.8),
phi = cms.vdouble(2.1, -3.0)
),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltTripletRecoveryPixelTrackingRegionsDisplacedTau3muNoL1MassReg = cms.EDProducer("PointSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.4),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
points = cms.PSet(
eta = cms.vdouble(1.8, -0.8),
phi = cms.vdouble(2.1, -3.0)
),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltTripletRecoveryPixelTrackingRegionsDisplacedTau3muReg = cms.EDProducer("PointSeededTrackingRegionsEDProducer",
RegionPSet = cms.PSet(
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
deltaEta = cms.double(0.8),
deltaPhi = cms.double(0.4),
maxNRegions = cms.int32(100),
maxNVertices = cms.int32(10),
measurementTrackerName = cms.InputTag("hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg"),
mode = cms.string('VerticesFixed'),
nSigmaZBeamSpot = cms.double(3.0),
nSigmaZVertex = cms.double(3.0),
originRadius = cms.double(0.05),
points = cms.PSet(
eta = cms.vdouble(1.8, -0.8),
phi = cms.vdouble(2.1, -3.0)
),
precise = cms.bool(True),
ptMin = cms.double(0.8),
searchOpt = cms.bool(False),
vertexCollection = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
whereToUseMeasurementTracker = cms.string('ForSiStrips'),
zErrorBeamSpot = cms.double(15.0),
zErrorVetex = cms.double(0.1)
)
)
process.hltTripletRecoveryTrackCutClassifierDisplacedJpsiReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi")
)
process.hltTripletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk"),
vertices = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi")
)
process.hltTripletRecoveryTrackCutClassifierDisplacedNRReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedNRReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant")
)
process.hltTripletRecoveryTrackCutClassifierDisplacedPsiPrimeReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime")
)
process.hltTripletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass")
)
process.hltTripletRecoveryTrackCutClassifierDisplacedTau3muReg = cms.EDProducer("TrackCutClassifier",
beamspot = cms.InputTag("hltOnlineBeamSpot"),
ignoreVertices = cms.bool(False),
mva = cms.PSet(
dr_par = cms.PSet(
d0err = cms.vdouble(0.003, 0.003, 0.003),
d0err_par = cms.vdouble(0.001, 0.001, 0.001),
dr_exp = cms.vint32(4, 4, 4),
dr_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dr_par2 = cms.vdouble(3.40282346639e+38, 0.3, 0.3)
),
dz_par = cms.PSet(
dz_exp = cms.vint32(4, 4, 4),
dz_par1 = cms.vdouble(3.40282346639e+38, 0.4, 0.4),
dz_par2 = cms.vdouble(3.40282346639e+38, 0.35, 0.35)
),
maxChi2 = cms.vdouble(9999.0, 25.0, 16.0),
maxChi2n = cms.vdouble(1.2, 1.0, 0.7),
maxDr = cms.vdouble(0.5, 0.03, 3.40282346639e+38),
maxDz = cms.vdouble(0.5, 0.2, 3.40282346639e+38),
maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24.0, 15.0),
maxLostLayers = cms.vint32(1, 1, 1),
min3DLayers = cms.vint32(0, 0, 0),
minLayers = cms.vint32(3, 3, 3),
minNVtxTrk = cms.int32(2),
minNdof = cms.vdouble(1e-05, 1e-05, 1e-05),
minPixelHits = cms.vint32(0, 0, 0)
),
qualityCuts = cms.vdouble(-0.7, 0.1, 0.7),
src = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muReg"),
vertices = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu")
)
process.hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedJpsiReg","MVAValues"),
originalQualVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedJpsiReg","QualityMasks"),
originalSource = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiReg")
)
process.hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk","MVAValues"),
originalQualVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk","QualityMasks"),
originalSource = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk")
)
process.hltTripletRecoveryTrackSelectionHighPurityDisplacedNRReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedNRReg","MVAValues"),
originalQualVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedNRReg","QualityMasks"),
originalSource = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedNRReg")
)
process.hltTripletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedPsiPrimeReg","MVAValues"),
originalQualVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedPsiPrimeReg","QualityMasks"),
originalSource = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg")
)
process.hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg","MVAValues"),
originalQualVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg","QualityMasks"),
originalSource = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg")
)
process.hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muReg = cms.EDProducer("TrackCollectionFilterCloner",
copyExtras = cms.untracked.bool(True),
copyTrajectories = cms.untracked.bool(False),
minQuality = cms.string('highPurity'),
originalMVAVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedTau3muReg","MVAValues"),
originalQualVals = cms.InputTag("hltTripletRecoveryTrackCutClassifierDisplacedTau3muReg","QualityMasks"),
originalSource = cms.InputTag("hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muReg")
)
process.hltVBFL1TLooseIDPFJetsMatching = cms.EDProducer("L1TPFJetsMatching",
JetSrc = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
L1JetTrigger = cms.InputTag("hltL1VBFDiJetOR"),
matchingR = cms.double(0.5),
mjjMin = cms.double(650.0),
pt1Min = cms.double(115.0),
pt2Min = cms.double(40.0),
pt3Min = cms.double(110.0)
)
process.hltVerticesL3 = cms.EDProducer("PrimaryVertexProducer",
TkClusParameters = cms.PSet(
TkDAClusParameters = cms.PSet(
Tmin = cms.double(2.4),
Tpurge = cms.double(2.0),
Tstop = cms.double(0.5),
coolingFactor = cms.double(0.6),
d0CutOff = cms.double(999.0),
dzCutOff = cms.double(4.0),
uniquetrkweight = cms.double(0.9),
vertexSize = cms.double(0.15),
zmerge = cms.double(0.01)
),
algorithm = cms.string('DA_vect')
),
TkFilterParameters = cms.PSet(
algorithm = cms.string('filter'),
maxD0Significance = cms.double(999.0),
maxEta = cms.double(100.0),
maxNormalizedChi2 = cms.double(20.0),
minPixelLayersWithHits = cms.int32(2),
minPt = cms.double(0.0),
minSiliconLayersWithHits = cms.int32(5),
trackQuality = cms.string('any')
),
TrackLabel = cms.InputTag("hltMergedTracksForBTag"),
TrackTimeResosLabel = cms.InputTag("dummy_default"),
TrackTimesLabel = cms.InputTag("dummy_default"),
beamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
isRecoveryIteration = cms.bool(False),
recoveryVtxCollection = cms.InputTag(""),
verbose = cms.untracked.bool(False),
vertexCollections = cms.VPSet(
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string(''),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(False)
),
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string('WithBS'),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(True)
)
)
)
process.hltVerticesL3ROIForBTag = cms.EDProducer("PrimaryVertexProducer",
TkClusParameters = cms.PSet(
TkDAClusParameters = cms.PSet(
Tmin = cms.double(2.4),
Tpurge = cms.double(2.0),
Tstop = cms.double(0.5),
coolingFactor = cms.double(0.6),
d0CutOff = cms.double(999.0),
dzCutOff = cms.double(4.0),
uniquetrkweight = cms.double(0.9),
vertexSize = cms.double(0.15),
zmerge = cms.double(0.01)
),
algorithm = cms.string('DA_vect')
),
TkFilterParameters = cms.PSet(
algorithm = cms.string('filter'),
maxD0Significance = cms.double(999.0),
maxEta = cms.double(100.0),
maxNormalizedChi2 = cms.double(20.0),
minPixelLayersWithHits = cms.int32(2),
minPt = cms.double(0.0),
minSiliconLayersWithHits = cms.int32(5),
trackQuality = cms.string('any')
),
TrackLabel = cms.InputTag("hltMergedTracksROIForBTag"),
TrackTimeResosLabel = cms.InputTag("dummy_default"),
TrackTimesLabel = cms.InputTag("dummy_default"),
beamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
isRecoveryIteration = cms.bool(False),
recoveryVtxCollection = cms.InputTag(""),
verbose = cms.untracked.bool(False),
vertexCollections = cms.VPSet(
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string(''),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(False)
),
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string('WithBS'),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(True)
)
)
)
process.hltVerticesPF = cms.EDProducer("PrimaryVertexProducer",
TkClusParameters = cms.PSet(
TkDAClusParameters = cms.PSet(
Tmin = cms.double(2.4),
Tpurge = cms.double(2.0),
Tstop = cms.double(0.5),
coolingFactor = cms.double(0.6),
d0CutOff = cms.double(999.0),
dzCutOff = cms.double(4.0),
uniquetrkweight = cms.double(0.9),
vertexSize = cms.double(0.15),
zmerge = cms.double(0.01)
),
algorithm = cms.string('DA_vect')
),
TkFilterParameters = cms.PSet(
algorithm = cms.string('filter'),
maxD0Significance = cms.double(999.0),
maxEta = cms.double(100.0),
maxNormalizedChi2 = cms.double(20.0),
minPixelLayersWithHits = cms.int32(2),
minPt = cms.double(0.0),
minSiliconLayersWithHits = cms.int32(5),
trackQuality = cms.string('any')
),
TrackLabel = cms.InputTag("hltPFMuonMerging"),
TrackTimeResosLabel = cms.InputTag("dummy_default"),
TrackTimesLabel = cms.InputTag("dummy_default"),
beamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
isRecoveryIteration = cms.bool(False),
recoveryVtxCollection = cms.InputTag(""),
verbose = cms.untracked.bool(False),
vertexCollections = cms.VPSet(
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string(''),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(False)
),
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string('WithBS'),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(True)
)
)
)
process.hltVerticesPFROIForBTag = cms.EDProducer("PrimaryVertexProducer",
TkClusParameters = cms.PSet(
TkDAClusParameters = cms.PSet(
Tmin = cms.double(2.4),
Tpurge = cms.double(2.0),
Tstop = cms.double(0.5),
coolingFactor = cms.double(0.6),
d0CutOff = cms.double(999.0),
dzCutOff = cms.double(4.0),
uniquetrkweight = cms.double(0.9),
vertexSize = cms.double(0.15),
zmerge = cms.double(0.01)
),
algorithm = cms.string('DA_vect')
),
TkFilterParameters = cms.PSet(
algorithm = cms.string('filter'),
maxD0Significance = cms.double(999.0),
maxEta = cms.double(100.0),
maxNormalizedChi2 = cms.double(20.0),
minPixelLayersWithHits = cms.int32(2),
minPt = cms.double(0.0),
minSiliconLayersWithHits = cms.int32(5),
trackQuality = cms.string('any')
),
TrackLabel = cms.InputTag("hltPFMuonMergingROIForBTag"),
TrackTimeResosLabel = cms.InputTag("dummy_default"),
TrackTimesLabel = cms.InputTag("dummy_default"),
beamSpotLabel = cms.InputTag("hltOnlineBeamSpot"),
isRecoveryIteration = cms.bool(False),
recoveryVtxCollection = cms.InputTag(""),
verbose = cms.untracked.bool(False),
vertexCollections = cms.VPSet(
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string(''),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(False)
),
cms.PSet(
algorithm = cms.string('AdaptiveVertexFitter'),
chi2cutoff = cms.double(3.0),
label = cms.string('WithBS'),
maxDistanceToBeam = cms.double(1.0),
minNdof = cms.double(0.0),
useBeamConstraint = cms.bool(True)
)
)
)
process.hltcorrPFMETTypeOne = cms.EDProducer("PFJetMETcorrInputProducer",
jetCorrEtaMax = cms.double(9.9),
jetCorrLabel = cms.InputTag("hltAK4PFCorrector"),
jetCorrLabelRes = cms.InputTag("hltAK4PFCorrector"),
offsetCorrLabel = cms.InputTag("hltAK4PFFastJetCorrector"),
skipEM = cms.bool(True),
skipEMfractionThreshold = cms.double(0.9),
skipMuonSelection = cms.string('isGlobalMuon | isStandAloneMuon'),
skipMuons = cms.bool(True),
src = cms.InputTag("hltAK4PFJets"),
type1JetPtThreshold = cms.double(35.0)
)
process.hltdstau3muDisplaced3muVtxProducer = cms.EDProducer("HLTDisplacedmumumuVtxProducer",
ChargeOpt = cms.int32(-1),
MaxEta = cms.double(2.5),
MaxInvMass = cms.double(2.1),
MinInvMass = cms.double(1.6),
MinPt = cms.double(1.2),
MinPtTriplet = cms.double(8.0),
PreviousCandTag = cms.InputTag("hltdstau3mumuontrkFltr"),
Src = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands")
)
process.patJetPuppiCharge = cms.EDProducer("JetChargeProducer",
exp = cms.double(1.0),
src = cms.InputTag("hltAk4JetTracksAssociatorAtVertexPFPuppi"),
var = cms.string('Pt')
)
process.hltEcalDigis = SwitchProducerCUDA(
cpu = cms.EDAlias(
hltEcalDigisLegacy = cms.VPSet(
cms.PSet(
type = cms.string('EBDigiCollection')
),
cms.PSet(
type = cms.string('EEDigiCollection')
),
cms.PSet(
type = cms.string('EBDetIdedmEDCollection')
),
cms.PSet(
type = cms.string('EEDetIdedmEDCollection')
),
cms.PSet(
type = cms.string('EBSrFlagsSorted')
),
cms.PSet(
type = cms.string('EESrFlagsSorted')
),
cms.PSet(
fromProductInstance = cms.string('EcalIntegrityBlockSizeErrors'),
type = cms.string('EcalElectronicsIdedmEDCollection')
),
cms.PSet(
fromProductInstance = cms.string('EcalIntegrityTTIdErrors'),
type = cms.string('EcalElectronicsIdedmEDCollection')
),
cms.PSet(
fromProductInstance = cms.string('EcalIntegrityZSXtalIdErrors'),
type = cms.string('EcalElectronicsIdedmEDCollection')
),
cms.PSet(
type = cms.string('EcalPnDiodeDigisSorted')
),
cms.PSet(
fromProductInstance = cms.string('EcalPseudoStripInputs'),
type = cms.string('EcalPseudoStripInputDigisSorted')
),
cms.PSet(
fromProductInstance = cms.string('EcalTriggerPrimitives'),
type = cms.string('EcalTriggerPrimitiveDigisSorted')
)
)
),
cuda = cms.EDProducer("EcalCPUDigisProducer",
digisInLabelEB = cms.InputTag("hltEcalDigisGPU","ebDigis"),
digisInLabelEE = cms.InputTag("hltEcalDigisGPU","eeDigis"),
digisOutLabelEB = cms.string('ebDigis'),
digisOutLabelEE = cms.string('eeDigis'),
mightGet = cms.optional.untracked.vstring,
produceDummyIntegrityCollections = cms.bool(True)
)
)
process.hltEcalRecHit = SwitchProducerCUDA(
cpu = cms.EDProducer("EcalRecHitProducer",
ChannelStatusToBeExcluded = cms.vstring(),
EBLaserMAX = cms.double(3.0),
EBLaserMIN = cms.double(0.5),
EBrechitCollection = cms.string('EcalRecHitsEB'),
EBuncalibRecHitCollection = cms.InputTag("hltEcalUncalibRecHit","EcalUncalibRecHitsEB"),
EELaserMAX = cms.double(8.0),
EELaserMIN = cms.double(0.5),
EErechitCollection = cms.string('EcalRecHitsEE'),
EEuncalibRecHitCollection = cms.InputTag("hltEcalUncalibRecHit","EcalUncalibRecHitsEE"),
algo = cms.string('EcalRecHitWorkerSimple'),
algoRecover = cms.string('EcalRecHitWorkerRecover'),
bdtWeightFileCracks = cms.FileInPath('RecoLocalCalo/EcalDeadChannelRecoveryAlgos/data/BDTWeights/bdtgAllRH_8GT700MeV_onlyCracks_ZskimData2017_v1.xml'),
bdtWeightFileNoCracks = cms.FileInPath('RecoLocalCalo/EcalDeadChannelRecoveryAlgos/data/BDTWeights/bdtgAllRH_8GT700MeV_noCracks_ZskimData2017_v1.xml'),
cleaningConfig = cms.PSet(
cThreshold_barrel = cms.double(4.0),
cThreshold_double = cms.double(10.0),
cThreshold_endcap = cms.double(15.0),
e4e1Threshold_barrel = cms.double(0.08),
e4e1Threshold_endcap = cms.double(0.3),
e4e1_a_barrel = cms.double(0.04),
e4e1_a_endcap = cms.double(0.02),
e4e1_b_barrel = cms.double(-0.024),
e4e1_b_endcap = cms.double(-0.0125),
e6e2thresh = cms.double(0.04),
ignoreOutOfTimeThresh = cms.double(1000000000.0),
tightenCrack_e1_double = cms.double(2.0),
tightenCrack_e1_single = cms.double(2.0),
tightenCrack_e4e1_single = cms.double(3.0),
tightenCrack_e6e2_double = cms.double(3.0)
),
dbStatusToBeExcludedEB = cms.vint32(14, 78, 142),
dbStatusToBeExcludedEE = cms.vint32(14, 78, 142),
ebDetIdToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","ebDetId"),
ebFEToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","ebFE"),
eeDetIdToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","eeDetId"),
eeFEToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","eeFE"),
flagsMapDBReco = cms.PSet(
kDead = cms.vstring('kNoDataNoTP'),
kGood = cms.vstring(
'kOk',
'kDAC',
'kNoLaser',
'kNoisy'
),
kNeighboursRecovered = cms.vstring(
'kFixedG0',
'kNonRespondingIsolated',
'kDeadVFE'
),
kNoisy = cms.vstring(
'kNNoisy',
'kFixedG6',
'kFixedG1'
),
kTowerRecovered = cms.vstring('kDeadFE')
),
killDeadChannels = cms.bool(True),
laserCorrection = cms.bool(True),
logWarningEtThreshold_EB_FE = cms.double(50.0),
logWarningEtThreshold_EE_FE = cms.double(50.0),
recoverEBFE = cms.bool(True),
recoverEBIsolatedChannels = cms.bool(False),
recoverEBVFE = cms.bool(False),
recoverEEFE = cms.bool(True),
recoverEEIsolatedChannels = cms.bool(False),
recoverEEVFE = cms.bool(False),
singleChannelRecoveryMethod = cms.string('NeuralNetworks'),
singleChannelRecoveryThreshold = cms.double(8.0),
skipTimeCalib = cms.bool(True),
sum8ChannelRecoveryThreshold = cms.double(0.0),
triggerPrimitiveDigiCollection = cms.InputTag("hltEcalDigisLegacy","EcalTriggerPrimitives")
),
cuda = cms.EDProducer("EcalRecHitProducer",
ChannelStatusToBeExcluded = cms.vstring(),
EBLaserMAX = cms.double(3.0),
EBLaserMIN = cms.double(0.5),
EBrechitCollection = cms.string('EcalRecHitsEB'),
EBuncalibRecHitCollection = cms.InputTag("hltEcalUncalibRecHit","EcalUncalibRecHitsEB"),
EELaserMAX = cms.double(8.0),
EELaserMIN = cms.double(0.5),
EErechitCollection = cms.string('EcalRecHitsEE'),
EEuncalibRecHitCollection = cms.InputTag("hltEcalUncalibRecHit","EcalUncalibRecHitsEE"),
algo = cms.string('EcalRecHitWorkerSimple'),
algoRecover = cms.string('EcalRecHitWorkerRecover'),
bdtWeightFileCracks = cms.FileInPath('RecoLocalCalo/EcalDeadChannelRecoveryAlgos/data/BDTWeights/bdtgAllRH_8GT700MeV_onlyCracks_ZskimData2017_v1.xml'),
bdtWeightFileNoCracks = cms.FileInPath('RecoLocalCalo/EcalDeadChannelRecoveryAlgos/data/BDTWeights/bdtgAllRH_8GT700MeV_noCracks_ZskimData2017_v1.xml'),
cleaningConfig = cms.PSet(
cThreshold_barrel = cms.double(4.0),
cThreshold_double = cms.double(10.0),
cThreshold_endcap = cms.double(15.0),
e4e1Threshold_barrel = cms.double(0.08),
e4e1Threshold_endcap = cms.double(0.3),
e4e1_a_barrel = cms.double(0.04),
e4e1_a_endcap = cms.double(0.02),
e4e1_b_barrel = cms.double(-0.024),
e4e1_b_endcap = cms.double(-0.0125),
e6e2thresh = cms.double(0.04),
ignoreOutOfTimeThresh = cms.double(1000000000.0),
tightenCrack_e1_double = cms.double(2.0),
tightenCrack_e1_single = cms.double(2.0),
tightenCrack_e4e1_single = cms.double(3.0),
tightenCrack_e6e2_double = cms.double(3.0)
),
dbStatusToBeExcludedEB = cms.vint32(14, 78, 142),
dbStatusToBeExcludedEE = cms.vint32(14, 78, 142),
ebDetIdToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","ebDetId"),
ebFEToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","ebFE"),
eeDetIdToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","eeDetId"),
eeFEToBeRecovered = cms.InputTag("hltEcalDetIdToBeRecovered","eeFE"),
flagsMapDBReco = cms.PSet(
kDead = cms.vstring('kNoDataNoTP'),
kGood = cms.vstring(
'kOk',
'kDAC',
'kNoLaser',
'kNoisy'
),
kNeighboursRecovered = cms.vstring(
'kFixedG0',
'kNonRespondingIsolated',
'kDeadVFE'
),
kNoisy = cms.vstring(
'kNNoisy',
'kFixedG6',
'kFixedG1'
),
kTowerRecovered = cms.vstring('kDeadFE')
),
killDeadChannels = cms.bool(True),
laserCorrection = cms.bool(True),
logWarningEtThreshold_EB_FE = cms.double(50.0),
logWarningEtThreshold_EE_FE = cms.double(50.0),
recoverEBFE = cms.bool(True),
recoverEBIsolatedChannels = cms.bool(False),
recoverEBVFE = cms.bool(False),
recoverEEFE = cms.bool(True),
recoverEEIsolatedChannels = cms.bool(False),
recoverEEVFE = cms.bool(False),
singleChannelRecoveryMethod = cms.string('NeuralNetworks'),
singleChannelRecoveryThreshold = cms.double(8.0),
skipTimeCalib = cms.bool(True),
sum8ChannelRecoveryThreshold = cms.double(0.0),
triggerPrimitiveDigiCollection = cms.InputTag("unused")
)
)
process.hltEcalUncalibRecHit = SwitchProducerCUDA(
cpu = cms.EDProducer("EcalUncalibRecHitProducer",
EBdigiCollection = cms.InputTag("hltEcalDigis","ebDigis"),
EBhitCollection = cms.string('EcalUncalibRecHitsEB'),
EEdigiCollection = cms.InputTag("hltEcalDigis","eeDigis"),
EEhitCollection = cms.string('EcalUncalibRecHitsEE'),
algo = cms.string('EcalUncalibRecHitWorkerMultiFit'),
algoPSet = cms.PSet(
EBamplitudeFitParameters = cms.vdouble(1.138, 1.652),
EBtimeConstantTerm = cms.double(0.6),
EBtimeFitLimits_Lower = cms.double(0.2),
EBtimeFitLimits_Upper = cms.double(1.4),
EBtimeFitParameters = cms.vdouble(
-2.015452, 3.130702, -12.3473, 41.88921, -82.83944,
91.01147, -50.35761, 11.05621
),
EBtimeNconst = cms.double(28.5),
EEamplitudeFitParameters = cms.vdouble(1.89, 1.4),
EEtimeConstantTerm = cms.double(1.0),
EEtimeFitLimits_Lower = cms.double(0.2),
EEtimeFitLimits_Upper = cms.double(1.4),
EEtimeFitParameters = cms.vdouble(
-2.390548, 3.553628, -17.62341, 67.67538, -133.213,
140.7432, -75.41106, 16.20277
),
EEtimeNconst = cms.double(31.8),
EcalPulseShapeParameters = cms.PSet(
EBCorrNoiseMatrixG01 = cms.vdouble(
1.0, 0.73354, 0.64442, 0.58851, 0.55425,
0.53082, 0.51916, 0.51097, 0.50732, 0.50409
),
EBCorrNoiseMatrixG06 = cms.vdouble(
1.0, 0.70946, 0.58021, 0.49846, 0.45006,
0.41366, 0.39699, 0.38478, 0.37847, 0.37055
),
EBCorrNoiseMatrixG12 = cms.vdouble(
1.0, 0.71073, 0.55721, 0.46089, 0.40449,
0.35931, 0.33924, 0.32439, 0.31581, 0.30481
),
EBPulseShapeCovariance = cms.vdouble(
3.001e-06, 1.233e-05, 0.0, -4.416e-06, -4.571e-06,
-3.614e-06, -2.636e-06, -1.286e-06, -8.41e-07, -5.296e-07,
0.0, 0.0, 1.233e-05, 6.154e-05, 0.0,
-2.2e-05, -2.309e-05, -1.838e-05, -1.373e-05, -7.334e-06,
-5.088e-06, -3.745e-06, -2.428e-06, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, -4.416e-06, -2.2e-05, 0.0, 8.319e-06,
8.545e-06, 6.792e-06, 5.059e-06, 2.678e-06, 1.816e-06,
1.223e-06, 8.245e-07, 5.589e-07, -4.571e-06, -2.309e-05,
0.0, 8.545e-06, 9.182e-06, 7.219e-06, 5.388e-06,
2.853e-06, 1.944e-06, 1.324e-06, 9.083e-07, 6.335e-07,
-3.614e-06, -1.838e-05, 0.0, 6.792e-06, 7.219e-06,
6.016e-06, 4.437e-06, 2.385e-06, 1.636e-06, 1.118e-06,
7.754e-07, 5.556e-07, -2.636e-06, -1.373e-05, 0.0,
5.059e-06, 5.388e-06, 4.437e-06, 3.602e-06, 1.917e-06,
1.322e-06, 9.079e-07, 6.529e-07, 4.752e-07, -1.286e-06,
-7.334e-06, 0.0, 2.678e-06, 2.853e-06, 2.385e-06,
1.917e-06, 1.375e-06, 9.1e-07, 6.455e-07, 4.693e-07,
3.657e-07, -8.41e-07, -5.088e-06, 0.0, 1.816e-06,
1.944e-06, 1.636e-06, 1.322e-06, 9.1e-07, 9.115e-07,
6.062e-07, 4.436e-07, 3.422e-07, -5.296e-07, -3.745e-06,
0.0, 1.223e-06, 1.324e-06, 1.118e-06, 9.079e-07,
6.455e-07, 6.062e-07, 7.217e-07, 4.862e-07, 3.768e-07,
0.0, -2.428e-06, 0.0, 8.245e-07, 9.083e-07,
7.754e-07, 6.529e-07, 4.693e-07, 4.436e-07, 4.862e-07,
6.509e-07, 4.418e-07, 0.0, 0.0, 0.0,
5.589e-07, 6.335e-07, 5.556e-07, 4.752e-07, 3.657e-07,
3.422e-07, 3.768e-07, 4.418e-07, 6.142e-07
),
EBPulseShapeTemplate = cms.vdouble(
0.0113979, 0.758151, 1.0, 0.887744, 0.673548,
0.474332, 0.319561, 0.215144, 0.147464, 0.101087,
0.0693181, 0.0475044
),
EBdigiCollection = cms.string(''),
EECorrNoiseMatrixG01 = cms.vdouble(
1.0, 0.72698, 0.62048, 0.55691, 0.51848,
0.49147, 0.47813, 0.47007, 0.46621, 0.46265
),
EECorrNoiseMatrixG06 = cms.vdouble(
1.0, 0.71217, 0.47464, 0.34056, 0.26282,
0.20287, 0.17734, 0.16256, 0.15618, 0.14443
),
EECorrNoiseMatrixG12 = cms.vdouble(
1.0, 0.71373, 0.44825, 0.30152, 0.21609,
0.14786, 0.11772, 0.10165, 0.09465, 0.08098
),
EEPulseShapeCovariance = cms.vdouble(
3.941e-05, 3.333e-05, 0.0, -1.449e-05, -1.661e-05,
-1.424e-05, -1.183e-05, -6.842e-06, -4.915e-06, -3.411e-06,
0.0, 0.0, 3.333e-05, 2.862e-05, 0.0,
-1.244e-05, -1.431e-05, -1.233e-05, -1.032e-05, -5.883e-06,
-4.154e-06, -2.902e-06, -2.128e-06, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, 0.0, 0.0, 0.0, 0.0,
0.0, -1.449e-05, -1.244e-05, 0.0, 5.84e-06,
6.649e-06, 5.72e-06, 4.812e-06, 2.708e-06, 1.869e-06,
1.33e-06, 9.186e-07, 6.446e-07, -1.661e-05, -1.431e-05,
0.0, 6.649e-06, 7.966e-06, 6.898e-06, 5.794e-06,
3.157e-06, 2.184e-06, 1.567e-06, 1.084e-06, 7.575e-07,
-1.424e-05, -1.233e-05, 0.0, 5.72e-06, 6.898e-06,
6.341e-06, 5.347e-06, 2.859e-06, 1.991e-06, 1.431e-06,
9.839e-07, 6.886e-07, -1.183e-05, -1.032e-05, 0.0,
4.812e-06, 5.794e-06, 5.347e-06, 4.854e-06, 2.628e-06,
1.809e-06, 1.289e-06, 9.02e-07, 6.146e-07, -6.842e-06,
-5.883e-06, 0.0, 2.708e-06, 3.157e-06, 2.859e-06,
2.628e-06, 1.863e-06, 1.296e-06, 8.882e-07, 6.108e-07,
4.283e-07, -4.915e-06, -4.154e-06, 0.0, 1.869e-06,
2.184e-06, 1.991e-06, 1.809e-06, 1.296e-06, 1.217e-06,
8.669e-07, 5.751e-07, 3.882e-07, -3.411e-06, -2.902e-06,
0.0, 1.33e-06, 1.567e-06, 1.431e-06, 1.289e-06,
8.882e-07, 8.669e-07, 9.522e-07, 6.717e-07, 4.293e-07,
0.0, -2.128e-06, 0.0, 9.186e-07, 1.084e-06,
9.839e-07, 9.02e-07, 6.108e-07, 5.751e-07, 6.717e-07,
7.911e-07, 5.493e-07, 0.0, 0.0, 0.0,
6.446e-07, 7.575e-07, 6.886e-07, 6.146e-07, 4.283e-07,
3.882e-07, 4.293e-07, 5.493e-07, 7.027e-07
),
EEPulseShapeTemplate = cms.vdouble(
0.116442, 0.756246, 1.0, 0.897182, 0.686831,
0.491506, 0.344111, 0.245731, 0.174115, 0.123361,
0.0874288, 0.061957
),
EEdigiCollection = cms.string(''),
ESdigiCollection = cms.string(''),
EcalPreMixStage1 = cms.bool(False),
EcalPreMixStage2 = cms.bool(False),
UseLCcorrection = cms.untracked.bool(True)
),
activeBXs = cms.vint32(
-5, -4, -3, -2, -1,
0, 1, 2, 3, 4
),
addPedestalUncertaintyEB = cms.double(0.0),
addPedestalUncertaintyEE = cms.double(0.0),
ampErrorCalculation = cms.bool(False),
amplitudeThresholdEB = cms.double(10.0),
amplitudeThresholdEE = cms.double(10.0),
chi2ThreshEB_ = cms.double(65.0),
chi2ThreshEE_ = cms.double(50.0),
doPrefitEB = cms.bool(False),
doPrefitEE = cms.bool(False),
dynamicPedestalsEB = cms.bool(False),
dynamicPedestalsEE = cms.bool(False),
ebPulseShape = cms.vdouble(
5.2e-05, -5.26e-05, 6.66e-05, 0.1168, 0.7575,
1.0, 0.8876, 0.6732, 0.4741, 0.3194
),
ebSpikeThreshold = cms.double(1.042),
eePulseShape = cms.vdouble(
5.2e-05, -5.26e-05, 6.66e-05, 0.1168, 0.7575,
1.0, 0.8876, 0.6732, 0.4741, 0.3194
),
gainSwitchUseMaxSampleEB = cms.bool(True),
gainSwitchUseMaxSampleEE = cms.bool(False),
kPoorRecoFlagEB = cms.bool(True),
kPoorRecoFlagEE = cms.bool(False),
mitigateBadSamplesEB = cms.bool(False),
mitigateBadSamplesEE = cms.bool(False),
outOfTimeThresholdGain12mEB = cms.double(5.0),
outOfTimeThresholdGain12mEE = cms.double(1000.0),
outOfTimeThresholdGain12pEB = cms.double(5.0),
outOfTimeThresholdGain12pEE = cms.double(1000.0),
outOfTimeThresholdGain61mEB = cms.double(5.0),
outOfTimeThresholdGain61mEE = cms.double(1000.0),
outOfTimeThresholdGain61pEB = cms.double(5.0),
outOfTimeThresholdGain61pEE = cms.double(1000.0),
prefitMaxChiSqEB = cms.double(25.0),
prefitMaxChiSqEE = cms.double(10.0),
selectiveBadSampleCriteriaEB = cms.bool(False),
selectiveBadSampleCriteriaEE = cms.bool(False),
simplifiedNoiseModelForGainSwitch = cms.bool(True),
timealgo = cms.string('None'),
useLumiInfoRunHeader = cms.bool(False)
)
),
cuda = cms.EDProducer("EcalUncalibRecHitConvertGPU2CPUFormat",
mightGet = cms.optional.untracked.vstring,
recHitsLabelCPUEB = cms.string('EcalUncalibRecHitsEB'),
recHitsLabelCPUEE = cms.string('EcalUncalibRecHitsEE'),
recHitsLabelGPUEB = cms.InputTag("hltEcalUncalibRecHitSoA","EcalUncalibRecHitsEB"),
recHitsLabelGPUEE = cms.InputTag("hltEcalUncalibRecHitSoA","EcalUncalibRecHitsEE")
)
)
process.hltHbhereco = SwitchProducerCUDA(
cpu = cms.EDProducer("HBHEPhase1Reconstructor",
algoConfigClass = cms.string(''),
algorithm = cms.PSet(
Class = cms.string('SimpleHBHEPhase1Algo'),
activeBXs = cms.vint32(
-3, -2, -1, 0, 1,
2, 3, 4
),
applyLegacyHBMCorrection = cms.bool(False),
applyPedConstraint = cms.bool(False),
applyPulseJitter = cms.bool(False),
applyTimeConstraint = cms.bool(False),
applyTimeSlew = cms.bool(True),
applyTimeSlewM3 = cms.bool(True),
calculateArrivalTime = cms.bool(False),
chiSqSwitch = cms.double(-1.0),
correctForPhaseContainment = cms.bool(True),
correctionPhaseNS = cms.double(6.0),
deltaChiSqThresh = cms.double(0.001),
dynamicPed = cms.bool(False),
firstSampleShift = cms.int32(0),
fitTimes = cms.int32(1),
meanPed = cms.double(0.0),
meanTime = cms.double(0.0),
nMaxItersMin = cms.int32(50),
nMaxItersNNLS = cms.int32(500),
nnlsThresh = cms.double(1e-11),
pulseJitter = cms.double(1.0),
respCorrM3 = cms.double(1.0),
samplesToAdd = cms.int32(2),
tdcTimeShift = cms.double(0.0),
timeMax = cms.double(12.5),
timeMin = cms.double(-12.5),
timeSigmaHPD = cms.double(5.0),
timeSigmaSiPM = cms.double(2.5),
timeSlewParsType = cms.int32(3),
ts4Max = cms.vdouble(100.0, 20000.0, 30000.0),
ts4Min = cms.double(0.0),
ts4Thresh = cms.double(0.0),
ts4chi2 = cms.vdouble(15.0, 15.0),
useM2 = cms.bool(False),
useM3 = cms.bool(False),
useMahi = cms.bool(True)
),
digiLabelQIE11 = cms.InputTag("hltHcalDigis"),
digiLabelQIE8 = cms.InputTag("hltHcalDigis"),
dropZSmarkedPassed = cms.bool(True),
flagParametersQIE11 = cms.PSet(
),
flagParametersQIE8 = cms.PSet(
hitEnergyMinimum = cms.double(1.0),
hitMultiplicityThreshold = cms.int32(17),
nominalPedestal = cms.double(3.0),
pulseShapeParameterSets = cms.VPSet(
cms.PSet(
pulseShapeParameters = cms.vdouble(
0.0, 100.0, -50.0, 0.0, -15.0,
0.15
)
),
cms.PSet(
pulseShapeParameters = cms.vdouble(
100.0, 2000.0, -50.0, 0.0, -5.0,
0.05
)
),
cms.PSet(
pulseShapeParameters = cms.vdouble(
2000.0, 1000000.0, -50.0, 0.0, 95.0,
0.0
)
),
cms.PSet(
pulseShapeParameters = cms.vdouble(
-1000000.0, 1000000.0, 45.0, 0.1, 1000000.0,
0.0
)
)
)
),
makeRecHits = cms.bool(True),
processQIE11 = cms.bool(True),
processQIE8 = cms.bool(True),
pulseShapeParametersQIE11 = cms.PSet(
),
pulseShapeParametersQIE8 = cms.PSet(
LeftSlopeCut = cms.vdouble(5.0, 2.55, 2.55),
LeftSlopeThreshold = cms.vdouble(250.0, 500.0, 100000.0),
LinearCut = cms.vdouble(-3.0, -0.054, -0.054),
LinearThreshold = cms.vdouble(20.0, 100.0, 100000.0),
MinimumChargeThreshold = cms.double(20.0),
MinimumTS4TS5Threshold = cms.double(100.0),
R45MinusOneRange = cms.double(0.2),
R45PlusOneRange = cms.double(0.2),
RMS8MaxCut = cms.vdouble(-13.5, -11.5, -11.5),
RMS8MaxThreshold = cms.vdouble(20.0, 100.0, 100000.0),
RightSlopeCut = cms.vdouble(5.0, 4.15, 4.15),
RightSlopeSmallCut = cms.vdouble(1.08, 1.16, 1.16),
RightSlopeSmallThreshold = cms.vdouble(150.0, 200.0, 100000.0),
RightSlopeThreshold = cms.vdouble(250.0, 400.0, 100000.0),
TS3TS4ChargeThreshold = cms.double(70.0),
TS3TS4UpperChargeThreshold = cms.double(20.0),
TS4TS5ChargeThreshold = cms.double(70.0),
TS4TS5LowerCut = cms.vdouble(
-1.0, -0.7, -0.5, -0.4, -0.3,
0.1
),
TS4TS5LowerThreshold = cms.vdouble(
100.0, 120.0, 160.0, 200.0, 300.0,
500.0
),
TS4TS5UpperCut = cms.vdouble(1.0, 0.8, 0.75, 0.72),
TS4TS5UpperThreshold = cms.vdouble(70.0, 90.0, 100.0, 400.0),
TS5TS6ChargeThreshold = cms.double(70.0),
TS5TS6UpperChargeThreshold = cms.double(20.0),
TriangleIgnoreSlow = cms.bool(False),
TrianglePeakTS = cms.uint32(10000),
UseDualFit = cms.bool(True)
),
recoParamsFromDB = cms.bool(True),
saveDroppedInfos = cms.bool(False),
saveEffectivePedestal = cms.bool(True),
saveInfos = cms.bool(False),
setLegacyFlagsQIE11 = cms.bool(False),
setLegacyFlagsQIE8 = cms.bool(False),
setNegativeFlagsQIE11 = cms.bool(False),
setNegativeFlagsQIE8 = cms.bool(False),
setNoiseFlagsQIE11 = cms.bool(False),
setNoiseFlagsQIE8 = cms.bool(False),
setPulseShapeFlagsQIE11 = cms.bool(False),
setPulseShapeFlagsQIE8 = cms.bool(False),
sipmQNTStoSum = cms.int32(3),
sipmQTSShift = cms.int32(0),
tsFromDB = cms.bool(False),
use8ts = cms.bool(True)
),
cuda = cms.EDAlias(
hltHbherecoFromGPU = cms.VPSet(cms.PSet(
type = cms.string('HBHERecHitsSorted')
))
)
)
process.hltPixelTracksSoA = SwitchProducerCUDA(
cpu = cms.EDProducer("CAHitNtupletCUDA",
CAThetaCutBarrel = cms.double(0.0020000000949949026),
CAThetaCutForward = cms.double(0.003000000026077032),
dcaCutInnerTriplet = cms.double(0.15000000596046448),
dcaCutOuterTriplet = cms.double(0.25),
doClusterCut = cms.bool(True),
doPtCut = cms.bool(True),
doSharedHitCut = cms.bool(True),
doZ0Cut = cms.bool(True),
dupPassThrough = cms.bool(False),
earlyFishbone = cms.bool(True),
fillStatistics = cms.bool(True),
fit5as4 = cms.bool(True),
hardCurvCut = cms.double(0.03284072249589491),
idealConditions = cms.bool(False),
includeJumpingForwardDoublets = cms.bool(True),
lateFishbone = cms.bool(False),
maxNumberOfDoublets = cms.uint32(524288),
mightGet = cms.optional.untracked.vstring,
minHitsForSharingCut = cms.uint32(5),
minHitsPerNtuplet = cms.uint32(3),
onGPU = cms.bool(False),
pixelRecHitSrc = cms.InputTag("hltSiPixelRecHitSoA"),
ptmin = cms.double(0.8999999761581421),
trackQualityCuts = cms.PSet(
chi2Coeff = cms.vdouble(0.9, 1.8),
chi2MaxPt = cms.double(10),
chi2Scale = cms.double(8),
quadrupletMaxTip = cms.double(0.5),
quadrupletMaxZip = cms.double(12),
quadrupletMinPt = cms.double(0.3),
tripletMaxTip = cms.double(0.3),
tripletMaxZip = cms.double(12),
tripletMinPt = cms.double(0.5)
),
useRiemannFit = cms.bool(False),
useSimpleTripletCleaner = cms.bool(False)
),
cuda = cms.EDProducer("PixelTrackSoAFromCUDA",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltPixelTracksCUDA")
)
)
process.hltPixelVerticesSoA = SwitchProducerCUDA(
cpu = cms.EDProducer("PixelVertexProducerCUDA",
PtMin = cms.double(0.5),
chi2max = cms.double(9),
eps = cms.double(0.07),
errmax = cms.double(0.01),
mightGet = cms.optional.untracked.vstring,
minT = cms.int32(2),
onGPU = cms.bool(False),
oneKernel = cms.bool(True),
pixelTrackSrc = cms.InputTag("hltPixelTracksSoA"),
useDBSCAN = cms.bool(False),
useDensity = cms.bool(True),
useIterative = cms.bool(False)
),
cuda = cms.EDProducer("PixelVertexSoAFromCUDA",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltPixelVerticesCUDA")
)
)
process.hltSiPixelClusters = SwitchProducerCUDA(
cpu = cms.EDAlias(
hltSiPixelClustersLegacy = cms.VPSet(cms.PSet(
type = cms.string('SiPixelClusteredmNewDetSetVector')
))
),
cuda = cms.EDProducer("SiPixelDigisClustersFromSoA",
clusterThreshold_layer1 = cms.int32(2000),
clusterThreshold_otherLayers = cms.int32(4000),
mightGet = cms.optional.untracked.vstring,
produceDigis = cms.bool(False),
src = cms.InputTag("hltSiPixelDigisSoA"),
storeDigis = cms.bool(False)
)
)
process.hltSiPixelDigis = SwitchProducerCUDA(
cpu = cms.EDAlias(
hltSiPixelDigisLegacy = cms.VPSet(
cms.PSet(
type = cms.string('DetIdedmEDCollection')
),
cms.PSet(
type = cms.string('SiPixelRawDataErroredmDetSetVector')
),
cms.PSet(
type = cms.string('PixelFEDChanneledmNewDetSetVector')
)
)
),
cuda = cms.EDProducer("SiPixelDigiErrorsFromSoA",
CablingMapLabel = cms.string(''),
ErrorList = cms.vint32(29),
UsePhase1 = cms.bool(True),
UserErrorList = cms.vint32(40),
digiErrorSoASrc = cms.InputTag("hltSiPixelDigiErrorsSoA"),
mightGet = cms.optional.untracked.vstring
)
)
process.hltSiPixelRecHits = SwitchProducerCUDA(
cpu = cms.EDAlias(
hltSiPixelRecHitSoA = cms.VPSet(
cms.PSet(
type = cms.string('SiPixelRecHitedmNewDetSetVector')
),
cms.PSet(
type = cms.string('uintAsHostProduct')
)
)
),
cuda = cms.EDProducer("SiPixelRecHitFromCUDA",
mightGet = cms.optional.untracked.vstring,
pixelRecHitSrc = cms.InputTag("hltSiPixelRecHitsCUDA"),
src = cms.InputTag("hltSiPixelClusters")
)
)
process.statusOnGPU = SwitchProducerCUDA(
cpu = cms.EDProducer("BooleanProducer",
value = cms.bool(False)
),
cuda = cms.EDProducer("BooleanProducer",
value = cms.bool(True)
)
)
process.hlt1AK8PFJetsTrimMass50Pt200 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(50.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltAK8TrimModJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hlt1CaloJet70 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(70.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt1PFCentralJetLooseID75 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(75.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt1PFCentralJetLooseID75ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(75.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt1PFJetCategories3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltL1TPFJetsMatching","ThreeJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt2CaloJet40 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt2CaloJet60 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt2PFCentralJetLooseID60 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt2PFCentralJetLooseID60ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt2PFJet50 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt2PFJet80 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt3PFCentralJetLooseID45 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(45.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt3PFCentralJetLooseID45ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(45.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt4CaloJet30 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt4PFCentralJetLooseID40 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt4PFCentralJetLooseID40ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hlt4PFJet40 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltAK4CaloJetsPFEt5 = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(5.0),
filter = cms.bool(False),
src = cms.InputTag("hltAK4CaloJetsPF")
)
process.hltAK4PFJetCollection20Filter = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8CaloHTOpenFilter = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8HtMhtForMC"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8HtMhtForMC"),
minHt = cms.vdouble(-1.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8CaloJetsPFEt5 = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(5.0),
filter = cms.bool(False),
src = cms.InputTag("hltAK8CaloJetsPF")
)
process.hltAK8Ht650 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8HtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8HtMht"),
minHt = cms.vdouble(650.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8Ht700 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8HtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8HtMht"),
minHt = cms.vdouble(700.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8Ht750 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8HtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8HtMht"),
minHt = cms.vdouble(750.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8Ht800 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8HtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8HtMht"),
minHt = cms.vdouble(800.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8PFHT750 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
minHt = cms.vdouble(750.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8PFHT800 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
minHt = cms.vdouble(800.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8PFHT850 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
minHt = cms.vdouble(850.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8PFHT900 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8PFHTwJetPt200"),
minHt = cms.vdouble(900.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8PFHTOpenFilter = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltAK8PFHTForMC"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltAK8PFHTForMC"),
minHt = cms.vdouble(-1.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltAK8PFJetCollection20Filter = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SingleCaloJet260 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(260.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SingleCaloJet280 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(280.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SingleCaloJet300 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(300.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SingleCaloJet320 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(320.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SinglePFJet360 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(360.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SinglePFJet380 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(380.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SinglePFJet400 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SinglePFJet420 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(420.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8SinglePFJetTrimModMass30 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(30.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltAK8TrimModJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAK8TrimPFJetCollection20Filter = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltAK8TrimModJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltAlCaEtaRecHitsFilterEBonlyRegional = cms.EDFilter("HLTRegionalEcalResonanceFilter",
barrelClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersBarrel"),
barrelHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
barrelSelection = cms.PSet(
barrelHitCollection = cms.string('etaEcalRecHitsEB'),
massHighPi0Cand = cms.double(0.156),
massLowPi0Cand = cms.double(0.084),
ptMinForIsolation = cms.double(1.0),
region1_Barrel = cms.double(1.0),
removePi0CandidatesForEta = cms.bool(True),
seleBeltDR = cms.double(0.3),
seleBeltDeta = cms.double(0.1),
seleIsoBarrel_region1 = cms.double(0.5),
seleIsoBarrel_region2 = cms.double(0.5),
seleMinvMaxBarrel = cms.double(0.8),
seleMinvMinBarrel = cms.double(0.2),
seleNxtalBarrel_region1 = cms.uint32(6),
seleNxtalBarrel_region2 = cms.uint32(6),
selePtGammaBarrel_region1 = cms.double(0.65),
selePtGammaBarrel_region2 = cms.double(1.4),
selePtPairBarrel_region1 = cms.double(3.0),
selePtPairBarrel_region2 = cms.double(3.0),
seleS4S9GammaBarrel_region1 = cms.double(0.9),
seleS4S9GammaBarrel_region2 = cms.double(0.9),
seleS9S25Gamma = cms.double(0.8),
store5x5RecHitEB = cms.bool(True)
),
debugLevel = cms.int32(0),
doSelBarrel = cms.bool(True),
doSelEndcap = cms.bool(False),
endcapClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersEndcap"),
endcapHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
endcapSelection = cms.PSet(
endcapHitCollection = cms.string('etaEcalRecHitsEE'),
ptMinForIsolationEndCap = cms.double(0.5),
region1_EndCap = cms.double(1.8),
region2_EndCap = cms.double(2.0),
seleBeltDREndCap = cms.double(0.2),
seleBeltDetaEndCap = cms.double(0.05),
seleIsoEndCap_region1 = cms.double(0.5),
seleIsoEndCap_region2 = cms.double(0.5),
seleIsoEndCap_region3 = cms.double(0.5),
seleMinvMaxEndCap = cms.double(0.3),
seleMinvMinEndCap = cms.double(0.05),
seleNxtalEndCap_region1 = cms.uint32(6),
seleNxtalEndCap_region2 = cms.uint32(6),
seleNxtalEndCap_region3 = cms.uint32(6),
selePtGammaEndCap_region1 = cms.double(0.5),
selePtGammaEndCap_region2 = cms.double(0.5),
selePtGammaEndCap_region3 = cms.double(0.5),
selePtPairEndCap_region1 = cms.double(1.5),
selePtPairEndCap_region2 = cms.double(1.5),
selePtPairEndCap_region3 = cms.double(99.0),
selePtPairMaxEndCap_region3 = cms.double(2.5),
seleS4S9GammaEndCap_region1 = cms.double(0.65),
seleS4S9GammaEndCap_region2 = cms.double(0.65),
seleS4S9GammaEndCap_region3 = cms.double(0.65),
seleS9S25GammaEndCap = cms.double(0.0),
store5x5RecHitEE = cms.bool(False)
),
flagLevelRecHitsToUse = cms.int32(1),
preshRecHitProducer = cms.InputTag("hltEcalPreshowerRecHit","EcalRecHitsES"),
preshowerSelection = cms.PSet(
ESCollection = cms.string('etaEcalRecHitsES'),
debugLevelES = cms.string(''),
preshCalibGamma = cms.double(0.024),
preshCalibMIP = cms.double(9e-05),
preshCalibPlaneX = cms.double(1.0),
preshCalibPlaneY = cms.double(0.7),
preshClusterEnergyCut = cms.double(0.0),
preshNclust = cms.int32(4),
preshSeededNstrip = cms.int32(15),
preshStripEnergyCut = cms.double(0.0)
),
statusLevelRecHitsToUse = cms.int32(1),
storeRecHitES = cms.bool(False),
useDBStatus = cms.bool(True),
useRecoFlag = cms.bool(False)
)
process.hltAlCaEtaRecHitsFilterEEonlyRegional = cms.EDFilter("HLTRegionalEcalResonanceFilter",
barrelClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersBarrel"),
barrelHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
barrelSelection = cms.PSet(
barrelHitCollection = cms.string('etaEcalRecHitsEB'),
massHighPi0Cand = cms.double(0.163),
massLowPi0Cand = cms.double(0.104),
ptMinForIsolation = cms.double(1.0),
region1_Barrel = cms.double(1.0),
removePi0CandidatesForEta = cms.bool(False),
seleBeltDR = cms.double(0.2),
seleBeltDeta = cms.double(0.05),
seleIsoBarrel_region1 = cms.double(0.5),
seleIsoBarrel_region2 = cms.double(0.5),
seleMinvMaxBarrel = cms.double(0.8),
seleMinvMinBarrel = cms.double(0.3),
seleNxtalBarrel_region1 = cms.uint32(6),
seleNxtalBarrel_region2 = cms.uint32(6),
selePtGammaBarrel_region1 = cms.double(1.0),
selePtGammaBarrel_region2 = cms.double(0.5),
selePtPairBarrel_region1 = cms.double(1.5),
selePtPairBarrel_region2 = cms.double(1.5),
seleS4S9GammaBarrel_region1 = cms.double(0.65),
seleS4S9GammaBarrel_region2 = cms.double(0.65),
seleS9S25Gamma = cms.double(0.0),
store5x5RecHitEB = cms.bool(False)
),
debugLevel = cms.int32(0),
doSelBarrel = cms.bool(False),
doSelEndcap = cms.bool(True),
endcapClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersEndcap"),
endcapHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
endcapSelection = cms.PSet(
endcapHitCollection = cms.string('etaEcalRecHitsEE'),
ptMinForIsolationEndCap = cms.double(0.5),
region1_EndCap = cms.double(1.8),
region2_EndCap = cms.double(2.0),
seleBeltDREndCap = cms.double(0.3),
seleBeltDetaEndCap = cms.double(0.1),
seleIsoEndCap_region1 = cms.double(0.5),
seleIsoEndCap_region2 = cms.double(0.5),
seleIsoEndCap_region3 = cms.double(0.5),
seleMinvMaxEndCap = cms.double(0.8),
seleMinvMinEndCap = cms.double(0.2),
seleNxtalEndCap_region1 = cms.uint32(6),
seleNxtalEndCap_region2 = cms.uint32(6),
seleNxtalEndCap_region3 = cms.uint32(6),
selePtGammaEndCap_region1 = cms.double(1.0),
selePtGammaEndCap_region2 = cms.double(1.0),
selePtGammaEndCap_region3 = cms.double(1.0),
selePtPairEndCap_region1 = cms.double(3.0),
selePtPairEndCap_region2 = cms.double(3.0),
selePtPairEndCap_region3 = cms.double(3.0),
selePtPairMaxEndCap_region3 = cms.double(999.0),
seleS4S9GammaEndCap_region1 = cms.double(0.9),
seleS4S9GammaEndCap_region2 = cms.double(0.9),
seleS4S9GammaEndCap_region3 = cms.double(0.9),
seleS9S25GammaEndCap = cms.double(0.85),
store5x5RecHitEE = cms.bool(True)
),
flagLevelRecHitsToUse = cms.int32(1),
preshRecHitProducer = cms.InputTag("hltEcalPreshowerRecHit","EcalRecHitsES"),
preshowerSelection = cms.PSet(
ESCollection = cms.string('etaEcalRecHitsES'),
debugLevelES = cms.string(''),
preshCalibGamma = cms.double(0.024),
preshCalibMIP = cms.double(9e-05),
preshCalibPlaneX = cms.double(1.0),
preshCalibPlaneY = cms.double(0.7),
preshClusterEnergyCut = cms.double(0.0),
preshNclust = cms.int32(4),
preshSeededNstrip = cms.int32(15),
preshStripEnergyCut = cms.double(0.0)
),
statusLevelRecHitsToUse = cms.int32(1),
storeRecHitES = cms.bool(True),
useDBStatus = cms.bool(True),
useRecoFlag = cms.bool(False)
)
process.hltAlCaPi0RecHitsFilterEBonlyRegional = cms.EDFilter("HLTRegionalEcalResonanceFilter",
barrelClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersBarrel"),
barrelHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
barrelSelection = cms.PSet(
barrelHitCollection = cms.string('pi0EcalRecHitsEB'),
massHighPi0Cand = cms.double(0.163),
massLowPi0Cand = cms.double(0.104),
ptMinForIsolation = cms.double(1.0),
region1_Barrel = cms.double(1.0),
removePi0CandidatesForEta = cms.bool(False),
seleBeltDR = cms.double(0.2),
seleBeltDeta = cms.double(0.05),
seleIsoBarrel_region1 = cms.double(0.5),
seleIsoBarrel_region2 = cms.double(0.5),
seleMinvMaxBarrel = cms.double(0.22),
seleMinvMinBarrel = cms.double(0.06),
seleNxtalBarrel_region1 = cms.uint32(6),
seleNxtalBarrel_region2 = cms.uint32(6),
selePtGammaBarrel_region1 = cms.double(0.65),
selePtGammaBarrel_region2 = cms.double(0.65),
selePtPairBarrel_region1 = cms.double(2.0),
selePtPairBarrel_region2 = cms.double(1.75),
seleS4S9GammaBarrel_region1 = cms.double(0.88),
seleS4S9GammaBarrel_region2 = cms.double(0.9),
seleS9S25Gamma = cms.double(0.0),
store5x5RecHitEB = cms.bool(False)
),
debugLevel = cms.int32(0),
doSelBarrel = cms.bool(True),
doSelEndcap = cms.bool(False),
endcapClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersEndcap"),
endcapHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
endcapSelection = cms.PSet(
endcapHitCollection = cms.string('pi0EcalRecHitsEE'),
ptMinForIsolationEndCap = cms.double(0.5),
region1_EndCap = cms.double(1.8),
region2_EndCap = cms.double(2.0),
seleBeltDREndCap = cms.double(0.2),
seleBeltDetaEndCap = cms.double(0.05),
seleIsoEndCap_region1 = cms.double(0.5),
seleIsoEndCap_region2 = cms.double(0.5),
seleIsoEndCap_region3 = cms.double(0.5),
seleMinvMaxEndCap = cms.double(0.3),
seleMinvMinEndCap = cms.double(0.05),
seleNxtalEndCap_region1 = cms.uint32(6),
seleNxtalEndCap_region2 = cms.uint32(6),
seleNxtalEndCap_region3 = cms.uint32(6),
selePtGammaEndCap_region1 = cms.double(0.5),
selePtGammaEndCap_region2 = cms.double(0.5),
selePtGammaEndCap_region3 = cms.double(0.5),
selePtPairEndCap_region1 = cms.double(1.5),
selePtPairEndCap_region2 = cms.double(1.5),
selePtPairEndCap_region3 = cms.double(99.0),
selePtPairMaxEndCap_region3 = cms.double(2.5),
seleS4S9GammaEndCap_region1 = cms.double(0.65),
seleS4S9GammaEndCap_region2 = cms.double(0.65),
seleS4S9GammaEndCap_region3 = cms.double(0.65),
seleS9S25GammaEndCap = cms.double(0.0),
store5x5RecHitEE = cms.bool(False)
),
flagLevelRecHitsToUse = cms.int32(1),
preshRecHitProducer = cms.InputTag("hltEcalPreshowerRecHit","EcalRecHitsES"),
preshowerSelection = cms.PSet(
ESCollection = cms.string('pi0EcalRecHitsES'),
debugLevelES = cms.string(''),
preshCalibGamma = cms.double(0.024),
preshCalibMIP = cms.double(9e-05),
preshCalibPlaneX = cms.double(1.0),
preshCalibPlaneY = cms.double(0.7),
preshClusterEnergyCut = cms.double(0.0),
preshNclust = cms.int32(4),
preshSeededNstrip = cms.int32(15),
preshStripEnergyCut = cms.double(0.0)
),
statusLevelRecHitsToUse = cms.int32(1),
storeRecHitES = cms.bool(False),
useDBStatus = cms.bool(True),
useRecoFlag = cms.bool(False)
)
process.hltAlCaPi0RecHitsFilterEEonlyRegional = cms.EDFilter("HLTRegionalEcalResonanceFilter",
barrelClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersBarrel"),
barrelHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
barrelSelection = cms.PSet(
barrelHitCollection = cms.string('pi0EcalRecHitsEB'),
massHighPi0Cand = cms.double(0.163),
massLowPi0Cand = cms.double(0.104),
ptMinForIsolation = cms.double(1.0),
region1_Barrel = cms.double(1.0),
removePi0CandidatesForEta = cms.bool(False),
seleBeltDR = cms.double(0.2),
seleBeltDeta = cms.double(0.05),
seleIsoBarrel_region1 = cms.double(0.5),
seleIsoBarrel_region2 = cms.double(0.5),
seleMinvMaxBarrel = cms.double(0.22),
seleMinvMinBarrel = cms.double(0.06),
seleNxtalBarrel_region1 = cms.uint32(6),
seleNxtalBarrel_region2 = cms.uint32(6),
selePtGammaBarrel_region1 = cms.double(0.5),
selePtGammaBarrel_region2 = cms.double(0.5),
selePtPairBarrel_region1 = cms.double(1.5),
selePtPairBarrel_region2 = cms.double(1.5),
seleS4S9GammaBarrel_region1 = cms.double(0.65),
seleS4S9GammaBarrel_region2 = cms.double(0.65),
seleS9S25Gamma = cms.double(0.0),
store5x5RecHitEB = cms.bool(False)
),
debugLevel = cms.int32(0),
doSelBarrel = cms.bool(False),
doSelEndcap = cms.bool(True),
endcapClusters = cms.InputTag("hltSimple3x3Clusters","Simple3x3ClustersEndcap"),
endcapHits = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
endcapSelection = cms.PSet(
endcapHitCollection = cms.string('pi0EcalRecHitsEE'),
ptMinForIsolationEndCap = cms.double(0.5),
region1_EndCap = cms.double(1.8),
region2_EndCap = cms.double(2.0),
seleBeltDREndCap = cms.double(0.2),
seleBeltDetaEndCap = cms.double(0.05),
seleIsoEndCap_region1 = cms.double(0.5),
seleIsoEndCap_region2 = cms.double(0.5),
seleIsoEndCap_region3 = cms.double(0.5),
seleMinvMaxEndCap = cms.double(0.3),
seleMinvMinEndCap = cms.double(0.05),
seleNxtalEndCap_region1 = cms.uint32(6),
seleNxtalEndCap_region2 = cms.uint32(6),
seleNxtalEndCap_region3 = cms.uint32(6),
selePtGammaEndCap_region1 = cms.double(1.1),
selePtGammaEndCap_region2 = cms.double(0.95),
selePtGammaEndCap_region3 = cms.double(0.95),
selePtPairEndCap_region1 = cms.double(3.75),
selePtPairEndCap_region2 = cms.double(2.0),
selePtPairEndCap_region3 = cms.double(2.0),
selePtPairMaxEndCap_region3 = cms.double(999.0),
seleS4S9GammaEndCap_region1 = cms.double(0.85),
seleS4S9GammaEndCap_region2 = cms.double(0.92),
seleS4S9GammaEndCap_region3 = cms.double(0.92),
seleS9S25GammaEndCap = cms.double(0.0),
store5x5RecHitEE = cms.bool(False)
),
flagLevelRecHitsToUse = cms.int32(1),
preshRecHitProducer = cms.InputTag("hltEcalPreshowerRecHit","EcalRecHitsES"),
preshowerSelection = cms.PSet(
ESCollection = cms.string('pi0EcalRecHitsES'),
debugLevelES = cms.string(''),
preshCalibGamma = cms.double(0.024),
preshCalibMIP = cms.double(9e-05),
preshCalibPlaneX = cms.double(1.0),
preshCalibPlaneY = cms.double(0.7),
preshClusterEnergyCut = cms.double(0.0),
preshNclust = cms.int32(4),
preshSeededNstrip = cms.int32(15),
preshStripEnergyCut = cms.double(0.0)
),
statusLevelRecHitsToUse = cms.int32(1),
storeRecHitES = cms.bool(True),
useDBStatus = cms.bool(True),
useRecoFlag = cms.bool(False)
)
process.hltBAK8DiJet170L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltBAK8Jet170L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltBDiJet110L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltBDiJet200L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltBDiJet20L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltBDiJet40L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltBDiJet70L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(70.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltBJet300L1AK8FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(300.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltBJet300L1FastJetCentral = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(300.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltBSoftMuonAK8DiJet170L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonAK8DiJet170L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(110.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsAK8DiJet170L1FastJet")
)
process.hltBSoftMuonAK8DiJet170L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonAK8DiJet170L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonAK8DiJet170L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonAK8Jet170L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonAK8Jet170L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonAK8Jet170L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(170.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsAK8Jet170L1FastJet")
)
process.hltBSoftMuonDiJet100Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet100PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet100PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet100Mu12L3FilterByDRROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet100PFMu12L3BJetTagsByDRROIForBTag"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet100PFROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet100PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(100.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet100PF")
)
process.hltBSoftMuonDiJet100PFMu12L3JetsROIForBTag = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(100.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet100PFROIForBTag")
)
process.hltBSoftMuonDiJet110L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet110L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(110.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet110L1FastJet")
)
process.hltBSoftMuonDiJet110L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet110L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet110L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet110L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonDiJet110L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet200L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet200L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(110.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet200L1FastJet")
)
process.hltBSoftMuonDiJet200L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet200L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet200L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet200L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonDiJet200L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet200Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet200PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet200PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet200Mu12L3FilterByDRROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet200PFMu12L3BJetTagsByDRROIForBTag"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet200PFROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet200PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(200.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet200PF")
)
process.hltBSoftMuonDiJet200PFMu12L3JetsROIForBTag = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(200.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet200PFROIForBTag")
)
process.hltBSoftMuonDiJet20L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet20L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(20.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet20L1FastJet")
)
process.hltBSoftMuonDiJet20L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet20L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet20L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet20L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonDiJet20L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet350Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet350PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet350PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet350Mu12L3FilterByDRROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet350PFMu12L3BJetTagsByDRROIForBTag"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet350PFROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet350PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(350.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet350PF")
)
process.hltBSoftMuonDiJet350PFMu12L3JetsROIForBTag = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(350.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet350PFROIForBTag")
)
process.hltBSoftMuonDiJet40L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet40L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(40.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet40L1FastJet")
)
process.hltBSoftMuonDiJet40L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet40L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet40L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet40L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonDiJet40L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet40Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet40PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet40PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet40Mu12L3FilterByDRROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet40PFMu12L3BJetTagsByDRROIForBTag"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet40PFROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet40PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(40.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet40PF")
)
process.hltBSoftMuonDiJet40PFMu12L3JetsROIForBTag = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(40.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet40PFROIForBTag")
)
process.hltBSoftMuonDiJet54Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet54PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet54PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet54Mu12L3FilterByDRROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet54PFMu12L3BJetTagsByDRROIForBTag"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet54PFROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet54PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(54.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet54PF")
)
process.hltBSoftMuonDiJet54PFMu12L3JetsROIForBTag = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(54.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet54PFROIForBTag")
)
process.hltBSoftMuonDiJet62Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet62PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet62PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet62Mu12L3FilterByDRROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet62PFMu12L3BJetTagsByDRROIForBTag"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromDiJet62PFROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet62PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(62.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet62PF")
)
process.hltBSoftMuonDiJet62PFMu12L3JetsROIForBTag = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(62.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet62PFROIForBTag")
)
process.hltBSoftMuonDiJet70L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet70L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(70.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsDiJet70L1FastJet")
)
process.hltBSoftMuonDiJet70L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet70L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonDiJet70L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonDiJet70L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonDiJet70L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet300L1AK8FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(300.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsJet300L1AK8FastJet")
)
process.hltBSoftMuonJet300L1FastJetAK8L25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet300L1FastJetAK8Mu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet300L1FastJetAK8Mu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonJet300L1AK8FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet300L1FastJetL25FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet300L1FastJetL25BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonJet300L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet300L1FastJetL25Jets = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(300.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsJet300L1FastJet")
)
process.hltBSoftMuonJet300L1FastJetMu5L3FilterByDR = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet300L1FastJetMu5SelL3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonJet300L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet300L1FastJetMu5L3FilterByDRnoalgo = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet300L1FastJetMu5SelL3BJetTagsByDRnoalgo"),
Jets = cms.InputTag("hltBSoftMuonJet300L1FastJetL25Jets"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet40Mu12L3FilterByDR = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBSoftMuonJet40PFMu12L3BJetTagsByDR"),
Jets = cms.InputTag("hltBSoftMuonGetJetsFromJet40PF"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.5),
TriggerType = cms.int32(0),
saveTags = cms.bool(True)
)
process.hltBSoftMuonJet40PFMu12L3Jets = cms.EDFilter("EtMinPFJetSelector",
etMin = cms.double(40.0),
filter = cms.bool(False),
src = cms.InputTag("hltSelector4JetsJet40PF")
)
process.hltBTagAK8PFDeepCSV10p3Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFAK8","probb"),
Jets = cms.InputTag("hltPFJetForBtagAK8"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagAK8PFDeepCSV16p1Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFAK8","probb"),
Jets = cms.InputTag("hltPFJetForBtagAK8"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.3),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Double6Jets80 = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector6CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Double6Jets80ROIForBTag = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector6CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Double8Jets30 = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Double8Jets30ROIForBTag = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Single6Jets80 = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector6CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Single6Jets80ROIForBTag = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector6CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Single8Jets30 = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV0p71Single8Jets30ROIForBTag = cms.EDFilter("HLTCaloJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.52),
TriggerType = cms.int32(86),
deltaR = cms.double(10.0),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV10p01Single = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.14),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV10p01SingleROIForBTag = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.14),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV1p56Single = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV1p56SingleROIForBTag = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV1p5Single = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.6),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV3p07Single = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.29),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV3p07SingleROIForBTag = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.29),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV4p50Single = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSV4p50SingleROIForBTag = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(99999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSVp17Double = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCalo","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.17),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagCaloDeepCSVp17DoubleROIForBTag = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag","probb"),
Jets = cms.InputTag("hltSelector8CentralJetsL1FastJet"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.17),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFBoostedDoubleSecondaryVertexnp02Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBoostedDBJetTagsPFAK8"),
Jets = cms.InputTag("hltPFJetForDBtagAK8"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(-0.2),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFBoostedDoubleSecondaryVertexnp4Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBoostedDBJetTagsPFAK8"),
Jets = cms.InputTag("hltPFJetForDBtagAK8"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(-0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFBoostedDoubleSecondaryVertexpZSingle = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltBoostedDBJetTagsPFAK8"),
Jets = cms.InputTag("hltPFJetForDBtagAK8"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.2),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV1p28Single6Jets = cms.EDFilter("HLTPFJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltSelector6PFJets"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.43),
TriggerType = cms.int32(86),
deltaR = cms.double(0.1),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag = cms.EDFilter("HLTPFJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltSelector6PFJetsROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.43),
TriggerType = cms.int32(86),
deltaR = cms.double(0.1),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV1p59Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltPFJetForBtag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV1p59SingleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV1p5Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltPFJetForBtag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.59),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV1p5SingleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.59),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV2p94Double = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltPFJetForBtag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.3),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV2p94DoubleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.3),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV4p06Single = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltPFJetForBtag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.25),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV4p06SingleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.25),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV4p5Double = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltPFJetForBtag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV4p5DoubleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV4p5Triple = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltPFJetForBtag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(3),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV4p5TripleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(3),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV7p68Double6Jets = cms.EDFilter("HLTPFJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
Jets = cms.InputTag("hltSelector6PFJets"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.16),
TriggerType = cms.int32(86),
deltaR = cms.double(0.1),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepCSV7p68Double6JetsROIForBTag = cms.EDFilter("HLTPFJetTagWithMatching",
JetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
Jets = cms.InputTag("hltSelector6PFJetsROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.16),
TriggerType = cms.int32(86),
deltaR = cms.double(0.1),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet1p28Single6JetsROIForBTag = cms.EDFilter("HLTPFJetTagWithMatching",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltSelector6PFJetsROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.43),
TriggerType = cms.int32(86),
deltaR = cms.double(0.1),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet1p59SingleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.4),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet1p5SingleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.59),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet2p94DoubleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.3),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet4p06SingleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.25),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet4p5DoubleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet4p5TripleROIForBTag = cms.EDFilter("HLTPFJetTag",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltPFJetForBtagROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(3),
MinTag = cms.double(0.24),
TriggerType = cms.int32(86),
saveTags = cms.bool(True)
)
process.hltBTagPFDeepJet7p68Double6JetsROIForBTag = cms.EDFilter("HLTPFJetTagWithMatching",
JetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
Jets = cms.InputTag("hltSelector6PFJetsROIForBTag"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(0.16),
TriggerType = cms.int32(86),
deltaR = cms.double(0.1),
saveTags = cms.bool(True)
)
process.hltBoolEnd = cms.EDFilter("HLTBool",
result = cms.bool(True)
)
process.hltBoolFalse = cms.EDFilter("HLTBool",
result = cms.bool(False)
)
process.hltCalibrationEventsFilter = cms.EDFilter("HLTTriggerTypeFilter",
SelectedTriggerType = cms.int32(2)
)
process.hltCaloFiveJet25HT300 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtCaloJetsFiveC25"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtCaloJetsFiveC25"),
minHt = cms.vdouble(300.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltCaloHTOpenFilter = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtForMC"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtForMC"),
minHt = cms.vdouble(-1.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltCaloJetCollection20Filter = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltCaloJetFilterFiveC25 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(3.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(5),
MinPt = cms.double(25.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltCaloJetFilterSixC25 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(25.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltCaloJetFilterSixC30 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltCaloJetFilterTwoC30 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.4),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltCaloQuadJet30HT320 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtCaloJetsQuadC30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtCaloJetsQuadC30"),
minHt = cms.vdouble(320.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltCaloSixJet25HT300 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtCaloJetsSixC25"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtCaloJetsSixC25"),
minHt = cms.vdouble(300.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltCaloSixJet30HT350 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtCaloJetsSixC30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtCaloJetsSixC30"),
minHt = cms.vdouble(350.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltCentralCaloJet65 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(65.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltCentralPFJet80 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltDiCaloJet20MJJ400DEta3p5 = cms.EDFilter("HLTCaloJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.5),
minInvMass = cms.double(400.0),
minPtHigh = cms.double(20.0),
minPtLow = cms.double(20.0),
saveTags = cms.bool(True),
triggerType = cms.int32(10)
)
process.hltDiCaloJet30MJJ300AllJetsDEta3Filter = cms.EDFilter("HLTCaloJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.0),
minInvMass = cms.double(300.0),
minPtHigh = cms.double(30.0),
minPtLow = cms.double(30.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJet30MJJ400AllJetsDEta3Filter = cms.EDFilter("HLTCaloJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.0),
minInvMass = cms.double(400.0),
minPtHigh = cms.double(30.0),
minPtLow = cms.double(30.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJet30MJJ600AllJetsDEta3Filter = cms.EDFilter("HLTCaloJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.0),
minInvMass = cms.double(600.0),
minPtHigh = cms.double(30.0),
minPtLow = cms.double(30.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJet7020MJJ500DEta3p5 = cms.EDFilter("HLTCaloJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.5),
minInvMass = cms.double(500.0),
minPtHigh = cms.double(70.0),
minPtLow = cms.double(20.0),
saveTags = cms.bool(True),
triggerType = cms.int32(10)
)
process.hltDiCaloJetAve110 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(110.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve170 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(170.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve210 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(210.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve270 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(270.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve30 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(30.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve350 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(350.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve45 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(45.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve450 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(450.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiCaloJetAve60 = cms.EDFilter("HLTDiCaloJetAveFilter",
inputJetTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(60.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiEG10CaloId15b35eHE10R9Id50b80eClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG10HE10R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiEG10EtEta2p55UnseededFilter = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(2.55),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltEgammaCandidatesUnseeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(92)
)
process.hltDiEG10HE10R9Id50b80eHEUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG10R9Id50b80eR9IdUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG10Iso60LCaloId15b35eHE10R9Id50b80eEcalIsoUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG10CaloId15b35eHE10R9Id50b80eClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltDiEG10Iso60LCaloId15b35eHE10R9Id50b80eTrackIsoUnseededLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG10Iso60LCaloId15b35eHE10R9Id50b80eEcalIsoUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIsoUnseeded")
)
process.hltDiEG10R9Id50b80eR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG10EtEta2p55UnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltDiEG10R9Id85b90eHE10R9Id50b80eR9UnseededLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG10HE10R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltDiEG10R9Id85b90eORIso60CaloId15b35eANDHE10R9Id50b80eMass10CombMassLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltDiEG10R9Id85b90eHE10R9Id50b80eR9UnseededLastFilter"),
minMass = cms.double(10.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltDiEG10Iso60LCaloId15b35eHE10R9Id50b80eTrackIsoUnseededLastFilter")
)
process.hltDiEG18EIso15ANDHE30Mass70CombMassLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltEG18EIso15HE30EcalIsoUnseededFilter"),
minMass = cms.double(70.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG18EIso15HE30EcalIsoUnseededFilter")
)
process.hltDiEG18EtEta2p55UnseededFilter = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(2.55),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(18.0),
inputTag = cms.InputTag("hltEgammaCandidatesUnseeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(92)
)
process.hltDiEG18EtUnseededFilter = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(18.0),
inputTag = cms.InputTag("hltEgammaCandidatesUnseeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(92)
)
process.hltDiEG18HE12b10eR9Id50b80eHEUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18R9Id50b80eR9IdUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG18HE30eHEUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18EtEta2p55UnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG18PVHE10R9Id50b80eHEUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18PVR9Id50b80eR9IdUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG18PVNewPixelMatchPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18PVHE10R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltDiEG18PVR9Id50b80eR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltDiEG18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55CombMassNewPixelMatchLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltEG18PVR9Idb85e90HE10R9Id50b80eR9NewPixelMatchUnseededLastFilter"),
minMass = cms.double(55.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG18PVIso60CaloId15b35eHE10R9Id50b80eTrackIsoUnseededNewPixelMatchLastFilter")
)
process.hltDiEG18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55CombMassNoPixelVetoLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltEG18PVR9Idb85e90HE10R9Id50b80eR9NoPixelVetoUnseededLastFilter"),
minMass = cms.double(55.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG18PVIso60CaloId15b35eHE10R9Id50b80eTrackIsoUnseededNoPixelVetoLastFilter")
)
process.hltDiEG18R9Id50b80eR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltDiEG20EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG22EtEta2p55UnseededFilter = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(2.55),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(22.0),
inputTag = cms.InputTag("hltEgammaCandidatesUnseeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(92)
)
process.hltDiEG22HE12R9Id50b80eHEUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG22R9Id50b80eR9IdUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG22R9Id50b80eR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG22EtEta2p55UnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltDiEG22R9Id85b90eORIso60CaloId15b35eANDHE12R9Id50b80eMass90CombMassLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltEG22R9Id85b90eHE12R9Id50b80eR9UnseededLastFilter"),
minMass = cms.double(90.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG22Iso60CaloId15b35eHE12R9Id50b80eTrackIsoUnseededLastFilter")
)
process.hltDiEG22R9Id85b95eORIso60CaloId15b35eANDHE12R9Id50b80eMass95CombMassLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltEG22R9Id85b90eHE12R9Id50b80eR9UnseededLastFilter"),
minMass = cms.double(95.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG22Iso60CaloId15b35eHE12R9Id50b80eTrackIsoUnseededLastFilter")
)
process.hltDiEG25CaloIdLClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG25HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiEG25EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(25.0),
etcutEE = cms.double(25.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG25HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG25EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG27CaloIdLClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG27HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiEG27EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(27.0),
etcutEE = cms.double(27.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG27HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG27EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG27L1SingleAndDoubleEGEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(27.0),
etcutEE = cms.double(27.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG30CaloIdLV2EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEG10CaloIdLV2ClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG30CaloIdLV2R9IdVLEtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEG10CaloIdLV2R9IdVLR9IdUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG30TriEG10CaloIdLV2EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(10.0),
etcutEE = cms.double(10.0),
inputTag = cms.InputTag("hltEG10CaloIdLV2ClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(3),
saveTags = cms.bool(True)
)
process.hltDiEG30TriEG10CaloIdLV2R9IdVLEtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(10.0),
etcutEE = cms.double(10.0),
inputTag = cms.InputTag("hltEG10CaloIdLV2R9IdVLR9IdUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(3),
saveTags = cms.bool(True)
)
process.hltDiEG33CaloIdLClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG33HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiEG33EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(33.0),
etcutEE = cms.double(33.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG33HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG33EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG35CaloIdLV2R9IdVLEtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(35.0),
etcutEE = cms.double(35.0),
inputTag = cms.InputTag("hltEG5CaloIdLV2R9IdVLR9IdUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG35TriEG5CaloIdLV2R9IdVLEtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(5.0),
etcutEE = cms.double(5.0),
inputTag = cms.InputTag("hltEG5CaloIdLV2R9IdVLR9IdUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(3),
saveTags = cms.bool(True)
)
process.hltDiEG5CaloIdLClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG5HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiEG5EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(5.0),
etcutEE = cms.double(5.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG5HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG5EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG70EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(70.0),
etcutEE = cms.double(70.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG70HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG70EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEG85EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(85.0),
etcutEE = cms.double(85.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiEG85HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG85EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltDiEle25CaloIdLMWPMS2UnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEle25CaloIdLPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltDiEle25CaloIdLPixelMatchUnseededFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiEG25CaloIdLClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiEle27CaloIdLMWPMS2UnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEle27CaloIdLPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltDiEle27CaloIdLPixelMatchUnseededFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiEG27CaloIdLClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiEle27L1DoubleEGWPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG27L1SingleAndDoubleEGEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiEle27L1DoubleEGWPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltDiEle27L1DoubleEGWPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltDiEle27L1DoubleEGWPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltDiEle27L1DoubleEGWPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltDiEle27L1DoubleEGWPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltDiEle27L1DoubleEGWPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltDiEle33CaloIdLMWPMS2UnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEle33CaloIdLPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltDiEle33CaloIdLPixelMatchUnseededFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiEG33CaloIdLClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiEle5CaloIdLMWPMS2UnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEle5CaloIdLPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltDiEle5CaloIdLPixelMatchUnseededFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiEG5CaloIdLClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(7.0),
etcutEE = cms.double(7.0),
inputTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sDoubleMu3DoubleEG7p5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(2),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu3DoubleEG7p5"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(9.0),
etcutEE = cms.double(9.0),
inputTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sDoubleMu4EG9"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4EG9"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltDiMu4Ele9CaloIdLTrackIdLMuonlegL2Filtered4 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(2.0),
etcutEE = cms.double(2.0),
inputTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sDoubleMu5DoubleEG3"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(2),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLElectronlegHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu5DoubleEG3"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltDiMu5Ele3CaloIdLTrackIdLMuonlegL2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(9.0),
etcutEE = cms.double(9.0),
inputTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sDoubleMu7EG7"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu7EG7"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltDiMu9Ele9CaloIdLTrackIdLMuonlegL2Filtered5 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon178Mass3p8Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(9999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(9999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(8.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon178Mass8Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(9999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(9999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(8.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(8.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon178RelTrkIsoFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(2),
PreviousCandTag = cms.InputTag("hltL3fL1DoubleMu155fPreFiltered8"),
saveTags = cms.bool(True)
)
process.hltDiMuon178RelTrkIsoFiltered0p4DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuon178RelTrkIsoFiltered0p4"),
inputTag2 = cms.InputTag("hltDiMuon178RelTrkIsoFiltered0p4"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon189DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu157fFiltered9"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu157fFiltered18"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon189SameSignDzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu157fFiltered9"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu157fFiltered18"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon189SameSignFiltered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(True),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(3.15),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(99999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(999999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(0.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(18.0),
MinPtMin = cms.vdouble(9.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu157L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon199Mass3p8Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(9999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(9999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(19.0),
MinPtMin = cms.vdouble(9.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon199Mass8Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(9999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(9999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(8.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(19.0),
MinPtMin = cms.vdouble(8.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon199RelTrkIsoFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(2),
PreviousCandTag = cms.InputTag("hltL3fL1DoubleMu155fPreFiltered9"),
saveTags = cms.bool(True)
)
process.hltDiMuon199RelTrkIsoFiltered0p4DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuon199RelTrkIsoFiltered0p4"),
inputTag2 = cms.InputTag("hltDiMuon199RelTrkIsoFiltered0p4"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon2010DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu157fFiltered10"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu157fFiltered20"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon2010SameSignDzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu157fFiltered10"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu157fFiltered20"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon2010SameSignFiltered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(True),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(3.15),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(99999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(999999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(0.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(20.0),
MinPtMin = cms.vdouble(10.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu157L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuon2312DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu157fFiltered12"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu157fFiltered23"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon2312SameSignDzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu157fFiltered12"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu157fFiltered23"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuon2312SameSignFiltered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(True),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(3.15),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(99999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(999999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(0.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(23.0),
MinPtMin = cms.vdouble(12.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu157L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDiMuonForTau3MuDzFiltered0p3 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.3),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltMu1Mu1TrkPairPt2DR0p5MassMax1p9"),
inputTag2 = cms.InputTag("hltMu1Mu1TrkPairPt2DR0p5MassMax1p9"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlb20Trk0DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbFiltered20TrkFiltered0"),
inputTag2 = cms.InputTag("hltDiMuonGlbFiltered20TrkFiltered0"),
originTag1 = cms.VInputTag("hltGlbTrkMuonCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlb25PhiTrk0DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbFiltered25PhiTrkFiltered0"),
inputTag2 = cms.InputTag("hltDiMuonGlbFiltered25PhiTrkFiltered0"),
originTag1 = cms.VInputTag("hltGlbTrkMuonCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlb25Trk0DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbFiltered25TrkFiltered0"),
inputTag2 = cms.InputTag("hltDiMuonGlbFiltered25TrkFiltered0"),
originTag1 = cms.VInputTag("hltGlbTrkMuonCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlb30Trk0DzPsiFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbFiltered30TrkPsiFiltered0"),
inputTag2 = cms.InputTag("hltDiMuonGlbFiltered30TrkPsiFiltered0"),
originTag1 = cms.VInputTag("hltGlbTrkMuonCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlb30TrkUpsilon0DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbFiltered30TrkUpsilonFiltered0"),
inputTag2 = cms.InputTag("hltDiMuonGlbFiltered30TrkUpsilonFiltered0"),
originTag1 = cms.VInputTag("hltGlbTrkMuonCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlb37Trk27DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbFiltered37TrkFiltered27"),
inputTag2 = cms.InputTag("hltDiMuonGlbFiltered37TrkFiltered27"),
originTag1 = cms.VInputTag("hltGlbTrkMuonCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlbFiltered20TrkFiltered0 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(-1),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuons"),
maxDCAMuMu = cms.double(0.5),
maxEtaMuon = cms.double(2.5),
maxMass = cms.double(1.2),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(2.5),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(0.85),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(20.0),
minPtMuon2 = cms.double(0.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonGlbFiltered25PhiTrkFiltered0 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(-1),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuons"),
maxDCAMuMu = cms.double(0.5),
maxEtaMuon = cms.double(2.5),
maxMass = cms.double(1.2),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(2.5),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(0.85),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(25.0),
minPtMuon2 = cms.double(0.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonGlbFiltered25TrkFiltered0 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(-1),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuons"),
maxDCAMuMu = cms.double(0.5),
maxEtaMuon = cms.double(2.5),
maxMass = cms.double(12.0),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(2.5),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(2.8),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(25.0),
minPtMuon2 = cms.double(0.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonGlbFiltered30TrkPsiFiltered0 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(-1),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuons"),
maxDCAMuMu = cms.double(0.5),
maxEtaMuon = cms.double(2.5),
maxMass = cms.double(4.05),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(2.5),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(2.9),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(30.0),
minPtMuon2 = cms.double(0.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonGlbFiltered30TrkUpsilonFiltered0 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(-1),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuons"),
maxDCAMuMu = cms.double(0.5),
maxEtaMuon = cms.double(2.5),
maxMass = cms.double(11.5),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(2.5),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(8.5),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(30.0),
minPtMuon2 = cms.double(0.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonGlbFiltered37TrkFiltered27 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(0),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuons"),
maxDCAMuMu = cms.double(1e+99),
maxEtaMuon = cms.double(1e+99),
maxMass = cms.double(1e+99),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(1e+99),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(1.0),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(37.0),
minPtMuon2 = cms.double(27.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonGlbOrTrk0zFiltered0p2v2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonGlbOrTrkFiltered0v2"),
inputTag2 = cms.InputTag("hltDiMuonGlbOrTrkFiltered0v2"),
originTag1 = cms.VInputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
originTag2 = cms.VInputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiMuonGlbOrTrkFiltered0v2 = cms.EDFilter("HLTDiMuonGlbTrkFilter",
ChargeOpt = cms.int32(-1),
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsLowPtIter01Merge"),
maxDCAMuMu = cms.double(0.5),
maxEtaMuon = cms.double(2.5),
maxMass = cms.double(1.15),
maxNormalizedChi2 = cms.double(1e+99),
maxYDimuon = cms.double(2.5),
maxdEtaMuMu = cms.double(1e+99),
minDR = cms.double(0.001),
minMass = cms.double(0.65),
minMuonHits = cms.int32(-1),
minPtMuon1 = cms.double(0.0),
minPtMuon2 = cms.double(0.0),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDiMuonRelTrkIsoFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(2),
PreviousCandTag = cms.InputTag("hltL3pfL1sDoubleMu0L1f0L2pf0L3doubleMu"),
saveTags = cms.bool(True)
)
process.hltDiMuonRelTrkIsoFiltered0p4DzFiltered0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDiMuonRelTrkIsoFiltered0p4"),
inputTag2 = cms.InputTag("hltDiMuonRelTrkIsoFiltered0p4"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDiPFJet30MJJ300AllJetsDEta3Filter = cms.EDFilter("HLTPFJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.0),
minInvMass = cms.double(300.0),
minPtHigh = cms.double(30.0),
minPtLow = cms.double(30.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJet30MJJ400AllJetsDEta3Filter = cms.EDFilter("HLTPFJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.0),
minInvMass = cms.double(400.0),
minPtHigh = cms.double(30.0),
minPtLow = cms.double(30.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJet30MJJ600AllJetsDEta3Filter = cms.EDFilter("HLTPFJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4PFJetsTightIDCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.0),
minInvMass = cms.double(600.0),
minPtHigh = cms.double(30.0),
minPtLow = cms.double(30.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJet40MJJ750DEta3p5 = cms.EDFilter("HLTPFJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.5),
minInvMass = cms.double(750.0),
minPtHigh = cms.double(40.0),
minPtLow = cms.double(40.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJet9040MJJ750DEta3p5 = cms.EDFilter("HLTPFJetVBFFilter",
etaOpposite = cms.bool(True),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
leadingJetOnly = cms.bool(False),
maxEta = cms.double(5.0),
minDeltaEta = cms.double(3.5),
minInvMass = cms.double(750.0),
minPtHigh = cms.double(90.0),
minPtLow = cms.double(40.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve100ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(100.0),
minPtJet = cms.double(50.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve140 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(140.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve15ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(15.0),
minPtJet = cms.double(10.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve160ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(160.0),
minPtJet = cms.double(80.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve200 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(200.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve220ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(220.0),
minPtJet = cms.double(110.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve25ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(25.0),
minPtJet = cms.double(10.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve260 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(260.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve300ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(300.0),
minPtJet = cms.double(150.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve320 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(320.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve35ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(35.0),
minPtJet = cms.double(10.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve40 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(40.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve400 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(400.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve500 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(500.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve60 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(60.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve60ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(60.0),
minPtJet = cms.double(30.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve80 = cms.EDFilter("HLTDiPFJetAveFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
minDphi = cms.double(-1.0),
minPtAve = cms.double(80.0),
minPtJet3 = cms.double(99999.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDiPFJetAve80ForHFJEC = cms.EDFilter("HLTDiPFJetAveEtaFilter",
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(1.4),
minDphi = cms.double(2.5),
minProbeEta = cms.double(2.7),
minPtAve = cms.double(80.0),
minPtJet = cms.double(40.0),
minTagEta = cms.double(-1.0),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDimuon0JpsiL1s4R0er1p5RL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0JpsiL1sNoOSL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0SQL2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0JpsiL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1DoubleMu0SQOSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0SQOSL2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0JpsiNoVtxNoOSL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0SQL2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0LowMassL1s0er1p5L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0LowMassL1s0er1p5RL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5dR1p4L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0LowMassL1s4L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu4SQOSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu4SQOSL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0LowMassL1s4RL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu4dR1p2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu4dR1p2L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0LowMassL1sTM530L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1TripleMuNoMassL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1TripleMuNoMassL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0LowMassL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1DoubleMu0SQOSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0SQOSL2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0UpsilonL1s4p5L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu4p5SQOSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu4p5SQOSL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0UpsilonL1s4p5NoOSL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu4p5SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu4p5SQL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0UpsilonL1s4p5er2p0L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu4p5er2p0SQL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0UpsilonL1s4p5er2p0ML3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu4p5er2p0SQMass7to18L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0UpsilonL1s5L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu5SQOSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu5SQOSL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon0UpsilonL1s5ML3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu5SQMass7to18L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu5SQMass7to18L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon10PsiPrimeBarrelnoCowL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(True),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(4.05),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(1.25),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(3.35),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(9.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon12Upsilony1p4L3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(1.4),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(11.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1f0L2v2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon14PhiBarrelnoCowL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(True),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(1.2),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(1.25),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(13.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon18PsiPrimeL3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(4.05),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(3.35),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(17.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1sDoubleMu4SQOSdRMax1p2L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon18PsiPrimeNoCorrL1L3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(4.05),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(3.35),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(17.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon20JpsiBarrelnoCowL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(True),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(1.25),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(19.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon24PhiNoCorrL1L3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(1.2),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(1.25),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.85),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(23.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon24UpsilonNoCorrL1L3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(13.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon25JpsiL3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(24.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1sDoubleMu4SQOSdRMax1p2L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDimuon25JpsiNoCorrL1L3fL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(24.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0Jpsi = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0Jpsi"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0JpsiL1s4R0er1p5R = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0JpsiL1s4R0er1p5R"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0JpsiL1sNoOS = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0JpsiL1sNoOS"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0LowMass = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0LowMass"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0LowMassL1s0er1p5 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0LowMassL1s0er1p5"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0LowMassL1s0er1p5R = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0LowMassL1s0er1p5R"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0LowMassL1s4 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0LowMassL1s4"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0LowMassL1s4R = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0LowMassL1s4R"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0LowMassL1sTM530 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0LowMassL1sTM530"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5NoOS = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5NoOS"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5er2p0 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5er2p0"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5er2p0M = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5er2p0M"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0UpsilonL1s5 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0UpsilonL1s5"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon0UpsilonL1s5M = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon0UpsilonL1s5M"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon10PsiPrimeBarrelnoCow = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon10PsiPrimeBarrelnoCow"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon12Upsilonsv3 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon12Upsilonsv3"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon14PhiBarrelnoCow = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon14PhiBarrelnoCow"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon18PsiPrimes = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon18PsiPrimes"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon18PsiPrimesNoCorrL1 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon18PsiPrimesNoCorrL1"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon20JpsiBarrelnoCow = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon20JpsiBarrelnoCow"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon24PhiBarrelNoCorrL1 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon24PhiNoCorrL1"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon24UpsilonsNoCorrL1 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon24UpsilonsNoCorrL1"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon25Jpsis = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon25Jpsis"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDimuon25JpsisNoCorrL1 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDimuon25JpsisNoCorrL1"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDoubleMu3Tau3mu = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3mu"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.0),
MinLxySignificance = cms.double(1.0),
MinVtxProbability = cms.double(0.01),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDoubleMu3Tau3muNoL1Mass = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.0),
MinLxySignificance = cms.double(1.0),
MinVtxProbability = cms.double(0.01),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDoubleMu4Bs = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Bs"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDoubleMu4Jpsi = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4Jpsi"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(3.0),
MinVtxProbability = cms.double(0.1),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDoubleMu4LowMassNonResonant = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(3.0),
MinVtxProbability = cms.double(0.1),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDisplacedmumuFilterDoubleMu4PsiPrime = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu4PsiPrime"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(3.0),
MinVtxProbability = cms.double(0.1),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltDoubleCaloBJets100eta2p3 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoubleCaloBJets30eta2p3 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoubleCentralCaloJet10 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoubleCentralCaloJetpt40 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltEmFraction0p01To0p99CaloJetSelector"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoubleCentralCaloJetpt60 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltEmFraction0p01To0p99CaloJetSelector"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoubleEG24L1EGEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(24.0),
etcutEE = cms.double(24.0),
inputTag = cms.InputTag("hltDoubleEGL1EGerFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltDoubleEGL1EGerFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sBigORDoubleLooseIsoEGXXer"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.17),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltDoubleEle24erWPTightClusterShapeFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEG24L1EGEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltDoubleEle24erWPTightEcalIsoFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltDoubleEle24erWPTightHEFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltDoubleEle24erWPTightGsfDetaFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle24erWPTightGsfMissingHitsFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltDoubleEle24erWPTightGsfDphiFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle24erWPTightGsfDetaFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltDoubleEle24erWPTightGsfMissingHitsFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle24erWPTightGsfOneOEMinusOneOPFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltDoubleEle24erWPTightGsfOneOEMinusOneOPFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle24erWPTightPMS2FilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltDoubleEle24erWPTightGsfTrackIsoFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltDoubleEle24erWPTightGsfDphiFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltDoubleEle24erWPTightHEFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltDoubleEle24erWPTightClusterShapeFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltDoubleEle24erWPTightHcalIsoFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltDoubleEle24erWPTightEcalIsoFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltDoubleEle24erWPTightPMS2FilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle24erWPTightPixelMatchFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltDoubleEle24erWPTightPixelMatchFilterForTau = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltDoubleEle24erWPTightHcalIsoFilterForTau"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDoubleEle8CaloIdMGsfTrackIdMDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.006),
thrRegularEE = cms.vdouble(0.0085),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltDoubleEle8CaloIdMGsfTrackIdMDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle8CaloIdMGsfTrackIdMDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.05),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltDoubleEle8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDoubleEle8CaloIdMPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.05),
thrRegularEE = cms.vdouble(0.02),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltDoubleEle8CaloIdMPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG8CaloIdMClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltDoubleEle8DZFilter = cms.EDFilter("HLT2PhotonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(True),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltDoubleEle8CaloIdMGsfTrackIdMDphiFilter"),
inputTag2 = cms.InputTag("hltDoubleEle8CaloIdMGsfTrackIdMDphiFilter"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(81)
)
process.hltDoubleEle8Mass8Filter = cms.EDFilter("HLTEgammaCombMassFilter",
firstLegLastFilter = cms.InputTag("hltDoubleEle8CaloIdMGsfTrackIdMDphiFilter"),
minMass = cms.double(8.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltDoubleEle8CaloIdMGsfTrackIdMDphiFilter")
)
process.hltDoubleJet65 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(65.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoubleL2IsoTau20eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltL2TauJetsIso"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoubleL2IsoTau26eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(26.0),
inputTag = cms.InputTag("hltL2TauJetsIsoL1TauSeeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoubleL2Tau20eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltL2TauJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoubleL2Tau26eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(26.0),
inputTag = cms.InputTag("hltL2TauJetsL1TauSeeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoubleMu207Mass0to30L1DM4L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu4OSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(30.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(20.0),
MinPtMin = cms.vdouble(7.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu4OSL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu207Mass0to30Photon23L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(30.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(20.0),
MinPtMin = cms.vdouble(7.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu2JpsiDoubleTrkL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(2.0),
MinPtPair = cms.vdouble(3.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu2JpsiL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltIterL3MuonsFromL2LinksCombination"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(2.0),
MinPtPair = cms.vdouble(3.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
inputMuonCollection = cms.InputTag(""),
saveTags = cms.bool(True)
)
process.hltDoubleMu3TrkTau3muL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMuorTripleMuL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(0.6),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(1.7),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(2.7),
MinInvMass = cms.vdouble(0.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(6.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMuorTripleMuL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu3TrkTau3muNoL1MassL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1TripleMuNoMassL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(0.6),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(1.7),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(2.7),
MinInvMass = cms.vdouble(0.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(6.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1TripleMuNoMassL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu43JpsiDisplacedL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(4.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(6.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5SQOSdR1p4L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu4BsL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(6.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(4.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(4.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(4.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0er1p5SQOSdR1p4L1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu4DZFilter = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu4EG9f0Filtered4"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu4EG9f0Filtered4"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDoubleMu4JpsiDisplacedL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.3),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.9),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(4.0),
MinPtPair = cms.vdouble(6.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu4LowMassNonResonantDisplacedL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(2.9, 4.8),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125, 1e+125),
MaxPtPair = cms.vdouble(1e+125, 1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(1.0, 4.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0, 0.0),
MinPtMin = cms.vdouble(4.0, 4.0),
MinPtPair = cms.vdouble(6.9, 6.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu4Mass3p8DZFilter = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDoubleMuon4Mass3p8Filtered"),
inputTag2 = cms.InputTag("hltDoubleMuon4Mass3p8Filtered"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDoubleMu4PsiPrimeDisplacedL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(4.05),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(3.3),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(4.0),
MinPtPair = cms.vdouble(6.9),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu5EG3L3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLMuonlegL2Filtered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMu9DZFilter = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu7EG7f0Filtered9"),
inputTag2 = cms.InputTag("hltL3fL1DoubleMu7EG7f0Filtered9"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDoubleMuon0L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(False),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0Jet90er2p5dRMax0p8dRMu1p6"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltDoubleMuon0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMuon0L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMuon3Mass3p8to60DZFilter = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltDoubleMuon3Mass3p8to60Filter"),
inputTag2 = cms.InputTag("hltDoubleMuon3Mass3p8to60Filter"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltDoubleMuon3Mass3p8to60Filter = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(60.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMuon3Mass3p8to60noDrDCAFilter = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(60.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMuon4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu3SQHTT200"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltDoubleMuon4L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMuon4L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltDoubleMuon4Mass3p8Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DoubleMuon4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(9999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(4.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltDoubleMuon4L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltDoublePFBJets100Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets100Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets200Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets200Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets350Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets350Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets40Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets40Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets54Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(54.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets54Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(54.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets62Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(62.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFBJets62Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(62.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltDoublePFJet15 = cms.EDFilter("HLTDiPFJetEtaTopologyFilter",
applyAbsToProbe = cms.bool(False),
applyAbsToTag = cms.bool(False),
atLeastOneJetAbovePT = cms.double(0.0),
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(5.5),
minDphi = cms.double(-1.0),
minProbeEta = cms.double(-5.5),
minPtAve = cms.double(15.0),
minPtProbe = cms.double(15.0),
minPtTag = cms.double(15.0),
minTagEta = cms.double(-5.5),
oppositeEta = cms.bool(False),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJet15FBEta3 = cms.EDFilter("HLTDiPFJetEtaTopologyFilter",
applyAbsToProbe = cms.bool(False),
applyAbsToTag = cms.bool(False),
atLeastOneJetAbovePT = cms.double(0.0),
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(-3.0),
minDphi = cms.double(-1.0),
minProbeEta = cms.double(3.0),
minPtAve = cms.double(15.0),
minPtProbe = cms.double(15.0),
minPtTag = cms.double(15.0),
minTagEta = cms.double(-5.5),
oppositeEta = cms.bool(True),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJet25 = cms.EDFilter("HLTDiPFJetEtaTopologyFilter",
applyAbsToProbe = cms.bool(False),
applyAbsToTag = cms.bool(False),
atLeastOneJetAbovePT = cms.double(0.0),
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(5.5),
minDphi = cms.double(-1.0),
minProbeEta = cms.double(-5.5),
minPtAve = cms.double(25.0),
minPtProbe = cms.double(25.0),
minPtTag = cms.double(25.0),
minTagEta = cms.double(-5.5),
oppositeEta = cms.bool(False),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJet25FBEta3 = cms.EDFilter("HLTDiPFJetEtaTopologyFilter",
applyAbsToProbe = cms.bool(False),
applyAbsToTag = cms.bool(False),
atLeastOneJetAbovePT = cms.double(0.0),
inputJetTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxProbeEta = cms.double(5.5),
maxTagEta = cms.double(-3.0),
minDphi = cms.double(-1.0),
minProbeEta = cms.double(3.0),
minPtAve = cms.double(25.0),
minPtProbe = cms.double(25.0),
minPtTag = cms.double(25.0),
minTagEta = cms.double(-5.5),
oppositeEta = cms.bool(True),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets100Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets100Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets116Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(116.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets116Eta2p3MaxDeta1p6 = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFJets116Eta2p3"),
inputTag2 = cms.InputTag("hltDoublePFJets116Eta2p3"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrected"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(85),
triggerType2 = cms.int32(85)
)
process.hltDoublePFJets116Eta2p3MaxDeta1p6ROIForBTag = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFJets116Eta2p3ROIForBTag"),
inputTag2 = cms.InputTag("hltDoublePFJets116Eta2p3ROIForBTag"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(85),
triggerType2 = cms.int32(85)
)
process.hltDoublePFJets116Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(116.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets128Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(128.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets128Eta2p3MaxDeta1p6 = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFJets128Eta2p3"),
inputTag2 = cms.InputTag("hltDoublePFJets128Eta2p3"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrected"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(85),
triggerType2 = cms.int32(85)
)
process.hltDoublePFJets128Eta2p3MaxDeta1p6ROIForBTag = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFJets128Eta2p3ROIForBTag"),
inputTag2 = cms.InputTag("hltDoublePFJets128Eta2p3ROIForBTag"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(85),
triggerType2 = cms.int32(85)
)
process.hltDoublePFJets128Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(128.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets200Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets200Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets350Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets350Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets40Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets40Eta2p3MaxDeta1p6 = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFBJets40Eta2p3"),
inputTag2 = cms.InputTag("hltDoublePFBJets40Eta2p3"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrected"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(86),
triggerType2 = cms.int32(86)
)
process.hltDoublePFJets40Eta2p3MaxDeta1p6ROIForBTag = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFBJets40Eta2p3ROIForBTag"),
inputTag2 = cms.InputTag("hltDoublePFBJets40Eta2p3ROIForBTag"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(86),
triggerType2 = cms.int32(86)
)
process.hltDoublePFJets40Eta2p3ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltDoublePFJets54Eta2p3MaxDeta1p6 = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFBJets54Eta2p3"),
inputTag2 = cms.InputTag("hltDoublePFBJets54Eta2p3"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrected"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(86),
triggerType2 = cms.int32(86)
)
process.hltDoublePFJets54Eta2p3MaxDeta1p6ROIForBTag = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFBJets54Eta2p3ROIForBTag"),
inputTag2 = cms.InputTag("hltDoublePFBJets54Eta2p3ROIForBTag"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(86),
triggerType2 = cms.int32(86)
)
process.hltDoublePFJets62Eta2p3MaxDeta1p6 = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFBJets62Eta2p3"),
inputTag2 = cms.InputTag("hltDoublePFBJets62Eta2p3"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrected"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(86),
triggerType2 = cms.int32(86)
)
process.hltDoublePFJets62Eta2p3MaxDeta1p6ROIForBTag = cms.EDFilter("HLT2PFJetPFJet",
MaxDelR = cms.double(1000.0),
MaxDeta = cms.double(1.6),
MaxDphi = cms.double(10000000.0),
MaxMinv = cms.double(10000000.0),
MaxPt = cms.double(10000000.0),
MinDelR = cms.double(0.0),
MinDeta = cms.double(-1000.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag1 = cms.InputTag("hltDoublePFBJets62Eta2p3ROIForBTag"),
inputTag2 = cms.InputTag("hltDoublePFBJets62Eta2p3ROIForBTag"),
originTag1 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
originTag2 = cms.VInputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(86),
triggerType2 = cms.int32(86)
)
process.hltDoublePFTau20 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltPFTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau20Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau20TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau20TrackLooseChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltPFTausReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1MediumChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltDoublePFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1MediumChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1TightChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltDoublePFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoublePFTau35TrackPt1TightChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt1TightChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltDoubleTrkMuFiltered6NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(2),
minPt = cms.double(6.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltDoubleTrkmumuFilterDoubleMu2Jpsi = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(-1.0),
MinVtxProbability = cms.double(0.1),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltEG100EBHE10EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(100.0),
etcutEE = cms.double(9999999.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG100EBHE10HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBHE10EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG100EBTightIDTightIsoClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBTightIDTightIsoEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.028),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG100EBTightIDTightIsoEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(100.0),
etcutEE = cms.double(9999999.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG100EBTightIDTightIsoHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBTightIDTightIsoClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.05),
thrOverEEE = cms.vdouble(0.05),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG100EBTightIDTightIsoHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBTightIDTightIsotEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(4.5),
thrRegularEE = cms.vdouble(4.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG100EBTightIDTightIsoR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBTightIDTightIsoHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG100EBTightIDTightIsoTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBTightIDTightIsoHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.01),
thrOverEEE = cms.vdouble(0.01),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG100EBTightIDTightIsotEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EBTightIDTightIsoR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(2.5),
thrRegularEE = cms.vdouble(2.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG100EEHE10EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(9999999.0),
etcutEE = cms.double(100.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG100EEHE10HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EEHE10EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG100EETightIDTightIsoClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EETightIDTightIsoEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.028),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG100EETightIDTightIsoEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(99999.0),
etcutEE = cms.double(100.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG100EETightIDTightIsoHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EETightIDTightIsoClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.05),
thrOverEEE = cms.vdouble(0.05),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG100EETightIDTightIsoHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EETightIDTightIsotEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(4.5),
thrRegularEE = cms.vdouble(4.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG100EETightIDTightIsoR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EETightIDTightIsoHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG100EETightIDTightIsoTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EETightIDTightIsoHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.01),
thrOverEEE = cms.vdouble(0.01),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG100EETightIDTightIsotEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG100EETightIDTightIsoR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(2.5),
thrRegularEE = cms.vdouble(2.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG10CaloId15b35eHE10R9Id50b80eClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10HE10R9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG10CaloIdLV2ClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG10CaloIdLV2R9IdVLR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10CaloIdLV2ClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltEG10EtL1SingleEG5EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(10.0),
etcutEE = cms.double(10.0),
inputTag = cms.InputTag("hltEGL1SingleEG5Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG10EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(10.0),
etcutEE = cms.double(10.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG10HE10R9Id50b80eHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10R9Id50b80eR9IdFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHToverET")
)
process.hltEG10HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltEG10Iso60CaloId15b35eHE10R9Id50b80eEcalIsoLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10CaloId15b35eHE10R9Id50b80eClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG10R9Id50b80eR9IdFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10EtL1SingleEG5EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG10R9Id85b90eHE10R9Id50b80eR9IdLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG10HE10R9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG10RId85b90eORIso60CaloId15b35eANDHE10R9Id50b80eLegCombLastFilter = cms.EDFilter("HLTEgammaDoubleLegCombFilter",
firstLegLastFilter = cms.InputTag("hltEG10R9Id85b90eHE10R9Id50b80eR9IdLastFilter"),
maxMatchDR = cms.double(0.01),
nrRequiredFirstLeg = cms.int32(0),
nrRequiredSecondLeg = cms.int32(0),
nrRequiredUniqueLeg = cms.int32(1),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG10Iso60CaloId15b35eHE10R9Id50b80eEcalIsoLastFilter")
)
process.hltEG110EBTightIDTightIsoClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG110EBTightIDTightIsoEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.028),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG110EBTightIDTightIsoEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(110.0),
etcutEE = cms.double(9999999.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG110EBTightIDTightIsoHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG110EBTightIDTightIsoClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.05),
thrOverEEE = cms.vdouble(0.05),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG110EBTightIDTightIsoHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG110EBTightIDTightIsotEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(4.5),
thrRegularEE = cms.vdouble(4.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG110EBTightIDTightIsoR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG110EBTightIDTightIsoHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG110EBTightIDTightIsoTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG110EBTightIDTightIsoHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.01),
thrOverEEE = cms.vdouble(0.01),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG110EBTightIDTightIsotEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG110EBTightIDTightIsoR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(2.5),
thrRegularEE = cms.vdouble(2.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG115CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG115EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG115CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG115CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.075),
thrOverEEE = cms.vdouble(0.075),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG115EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(115.0),
etcutEE = cms.double(115.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG120EBTightIDTightIsoClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EBTightIDTightIsoEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.028),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG120EBTightIDTightIsoEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(120.0),
etcutEE = cms.double(9999999.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG120EBTightIDTightIsoHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EBTightIDTightIsoClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.05),
thrOverEEE = cms.vdouble(0.05),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG120EBTightIDTightIsoHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EBTightIDTightIsotEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(4.5),
thrRegularEE = cms.vdouble(4.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG120EBTightIDTightIsoR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EBTightIDTightIsoHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG120EBTightIDTightIsoTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EBTightIDTightIsoHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.01),
thrOverEEE = cms.vdouble(0.01),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG120EBTightIDTightIsotEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EBTightIDTightIsoR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(2.5),
thrRegularEE = cms.vdouble(2.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG120EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(120.0),
etcutEE = cms.double(120.0),
inputTag = cms.InputTag("hltEGL1SingleEG34ORL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG120HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG120R9Id90HE10IsoMEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120R9Id90HE10IsoMR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG120R9Id90HE10IsoMEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(120.0),
etcutEE = cms.double(120.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG120R9Id90HE10IsoMHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120R9Id90HE10IsoMEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG120R9Id90HE10IsoMHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120R9Id90HE10IsoMEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG120R9Id90HE10IsoMR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120R9Id90HE10IsoMHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG120R9Id90HE10IsoMTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG120R9Id90HE10IsoMHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG135CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG135EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG135CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG135CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.075),
thrOverEEE = cms.vdouble(0.075),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG135EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(135.0),
etcutEE = cms.double(135.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG145CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG145EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG145CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG145CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.075),
thrOverEEE = cms.vdouble(0.075),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG145EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(145.0),
etcutEE = cms.double(145.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG150EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(150.0),
etcutEE = cms.double(150.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG150HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG150EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG15EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(15.0),
etcutEE = cms.double(15.0),
inputTag = cms.InputTag("hltEGL1SingleEG5OpenFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG15L1SingleEGLowETOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(15.0),
etcutEE = cms.double(15.0),
inputTag = cms.InputTag("hltEGL1SingleEGLowETOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG165R9Id90HE10IsoMEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG165R9Id90HE10IsoMR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG165R9Id90HE10IsoMEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(165.0),
etcutEE = cms.double(165.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG165R9Id90HE10IsoMHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG165R9Id90HE10IsoMEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG165R9Id90HE10IsoMHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG165R9Id90HE10IsoMEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG165R9Id90HE10IsoMR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG165R9Id90HE10IsoMHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG165R9Id90HE10IsoMTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG165R9Id90HE10IsoMHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG175EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(175.0),
etcutEE = cms.double(175.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG175HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG175EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG17L1SingleEGLowETOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(17.0),
etcutEE = cms.double(17.0),
inputTag = cms.InputTag("hltEGL1SingleEGLowETOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG18CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18R9Id50b90eHE12b10eR9Id50b80eR9IdUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG18EIso15HE30EcalIsoUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18HE30eHEUnseededFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(15.0),
thrRegularEE = cms.vdouble(15.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltEG18Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltEG18PVCaloId15b35eHE10R9Id50b80eClusterShapeNewPixelMatchUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18PVNewPixelMatchPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG18PVCaloId15b35eHE10R9Id50b80eClusterShapeNoPixelVetoUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18PVHE10R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoNewPixelMatchUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18PVCaloId15b35eHE10R9Id50b80eClusterShapeNewPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoNoPixelVetoUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18PVCaloId15b35eHE10R9Id50b80eClusterShapeNoPixelVetoUnseededFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eTrackIsoUnseededNewPixelMatchLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoNewPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIsoUnseeded")
)
process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eTrackIsoUnseededNoPixelVetoLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoNoPixelVetoUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIsoUnseeded")
)
process.hltEG18PVR9Idb85e90HE10R9Id50b80eR9NewPixelMatchUnseededLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18PVNewPixelMatchPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltEG18PVR9Idb85e90HE10R9Id50b80eR9NoPixelVetoUnseededLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18PVHE10R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltEG18R9Id50b90eHE12b10eR9Id50b80eR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG18HE12b10eR9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eMass55CombMassLastFilter = cms.EDFilter("HLTEgammaAllCombMassFilter",
firstLegLastFilter = cms.InputTag("hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eTrackIsoUnseededFilter"),
minMass = cms.double(55.0),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eTrackIsoUnseededFilter")
)
process.hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eTrackIsoUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG18Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIsoUnseeded")
)
process.hltEG200CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG200EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG200CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG200CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.075),
thrOverEEE = cms.vdouble(0.075),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG200EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(200.0),
etcutEE = cms.double(200.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG200HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG200EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG20CaloIdLV2ClusterShapeL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20HEL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG20CaloIdLV2ClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG20CaloIdLV2R9IdVLR9IdL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20CaloIdLV2ClusterShapeL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG20EtFilterLooseHoverE = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEGL1SingleEG10Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG20EtL1TripleEGFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEGL1TripleEGOrDoubleEGOrSingleEG"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG20EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG20HEFilterLooseHoverE = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20EtFilterLooseHoverE"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG20HEL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20EtL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG20HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltEG20L1EG10OR15HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20L1EG15EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG20L1EG15EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEGL1SingleEG15Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG20L1SingleEGLowETOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEGL1SingleEGLowETOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG20L1SingleEGLowETOrEtaREtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(20.0),
etcutEE = cms.double(20.0),
inputTag = cms.InputTag("hltEGL1SingleEGLowETOrEtaRFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG22CaloId15b35eHE12R9Id50b80eClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG22HE12R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG22Iso60CaloId15b35eHE12R9Id50b80eEcalIsoUnseededFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG22CaloId15b35eHE12R9Id50b80eClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltEG22Iso60CaloId15b35eHE12R9Id50b80eTrackIsoUnseededLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG22Iso60CaloId15b35eHE12R9Id50b80eEcalIsoUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIsoUnseeded")
)
process.hltEG22R9Id85b90eHE12R9Id50b80eR9UnseededLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG22HE12R9Id50b80eHEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltEG23EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(23.0),
etcutEE = cms.double(23.0),
inputTag = cms.InputTag("hltEGDoubleMu4OSEG12ORDoubleMu5OSEG12Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG23HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG23EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG24L1EGandTauEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(24.0),
etcutEE = cms.double(24.0),
inputTag = cms.InputTag("hltEGL1EGerAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG250CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG250EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG250CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG250CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.075),
thrOverEEE = cms.vdouble(0.075),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG250EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(250.0),
etcutEE = cms.double(250.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG25CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG25HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG25EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(25.0),
etcutEE = cms.double(25.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG25HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG25EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG27CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG27HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG27CaloIdLClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG27HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG27EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(27.0),
etcutEE = cms.double(27.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG27EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(27.0),
etcutEE = cms.double(27.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG27HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG27EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG27HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG27EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltEG27L1SingleAndDoubleEGEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(27.0),
etcutEE = cms.double(27.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG27L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(27.0),
etcutEE = cms.double(27.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG28L1IsoEG28erHTT100EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(28.0),
etcutEE = cms.double(28.0),
inputTag = cms.InputTag("hltEGL1IsoEG28erHTT100Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG28L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(28.0),
etcutEE = cms.double(28.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG300CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG300EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG300CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG300CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.075),
thrOverEEE = cms.vdouble(0.075),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG300EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(300.0),
etcutEE = cms.double(300.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30R9Id50b90eHE12b10eR9Id50b80eR9IdFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG30CaloIdLV2ClusterShapeL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30HEL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG30CaloIdLV2R9IdVLR9IdL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30CaloIdLV2ClusterShapeL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG30EIso15HE30EcalIsoLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30HE30HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(15.0),
thrRegularEE = cms.vdouble(15.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG30EtFilterLooseHoverE = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEGL1SingleEG10Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30EtL1TripleEGFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEGL1TripleEGOrDoubleEGOrSingleEG"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30HE12b10eR9Id50b80eHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30R9Id50b80eR9IdFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG30HE30HEFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30L1SingleAndDoubleEGWithTauWithJetEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHToverET")
)
process.hltEG30HEFilterLooseHoverE = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30EtFilterLooseHoverE"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG30HEL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30EtL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG30Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG30L1IsoEGerJetC34drMin0p3EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEGL1IsoEG30erJetC34drMin0p3Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30L1SingleAndDoubleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30L1SingleAndDoubleEGWithTauWithJetEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG30LCaloId15b35eHE12R9Id50b80eClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30LHE12R9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG30LHE12R9Id50b80eHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30LR9Id50b80eR9IdFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG30LIso60CaloId15b35eHE12R9Id50b80eEcalIsoLastFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30LCaloId15b35eHE12R9Id50b80eClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG30LR9Id50b80eR9IdFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30L1SingleAndDoubleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG30LR9Id85b90eHE12R9Id50b80eR9IdLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30LHE12R9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG30LRId85ORIso60CaloId15b35eANDHE12R9Id50b80eLegCombLastFilter = cms.EDFilter("HLTEgammaDoubleLegCombFilter",
firstLegLastFilter = cms.InputTag("hltEG30LR9Id85b90eHE12R9Id50b80eR9IdLastFilter"),
maxMatchDR = cms.double(0.01),
nrRequiredFirstLeg = cms.int32(0),
nrRequiredSecondLeg = cms.int32(0),
nrRequiredUniqueLeg = cms.int32(1),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG30LIso60CaloId15b35eHE12R9Id50b80eEcalIsoLastFilter")
)
process.hltEG30PVCaloId15b35eHE10R9Id50b80eClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30PVHE10R9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG30PVHE10R9Id50b80eHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30PVR9Id50b80eR9IdFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG30PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30PVCaloId15b35eHE10R9Id50b80eClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG30PVR9Id50b80eR9IdFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30L1SingleAndDoubleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG30PVR9Idb85e90HE10R9Id50b80eR9IdLastFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30PVHE10R9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.85),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG30PVRId85ANDIso60CaloId15b35eANDHE10R9Id50b80eLegCombNewPixelMatchLastFilter = cms.EDFilter("HLTEgammaDoubleLegCombFilter",
firstLegLastFilter = cms.InputTag("hltEG30PVR9Idb85e90HE10R9Id50b80eR9IdLastFilter"),
maxMatchDR = cms.double(0.01),
nrRequiredFirstLeg = cms.int32(0),
nrRequiredSecondLeg = cms.int32(0),
nrRequiredUniqueLeg = cms.int32(1),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG30PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoFilter")
)
process.hltEG30PVRId85ANDIso60CaloId15b35eANDHE10R9Id50b80eLegCombNoPixelVetoLastFilter = cms.EDFilter("HLTEgammaDoubleLegCombFilter",
firstLegLastFilter = cms.InputTag("hltEG30PVR9Idb85e90HE10R9Id50b80eR9IdLastFilter"),
maxMatchDR = cms.double(0.01),
nrRequiredFirstLeg = cms.int32(0),
nrRequiredSecondLeg = cms.int32(0),
nrRequiredUniqueLeg = cms.int32(1),
saveTags = cms.bool(True),
secondLegLastFilter = cms.InputTag("hltEG30PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoFilter")
)
process.hltEG30R9Id50b80eR9IdFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30L1SingleAndDoubleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG30R9Id50b90eHE12b10eR9Id50b80eR9IdFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30HE12b10eR9Id50b80eHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.0),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG32L1SingleAndDoubleEGEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(32.0),
etcutEE = cms.double(32.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG32L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(32.0),
etcutEE = cms.double(32.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG33CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG33HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG33EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(33.0),
etcutEE = cms.double(33.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG33HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG33EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG33L1EG26EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(33.0),
etcutEE = cms.double(33.0),
inputTag = cms.InputTag("hltEGL1SingleEG26Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG33L1EG26HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG33L1EG26EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG35CaloIdLV2ClusterShapeL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35HEL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG35CaloIdLV2R9IdVLR9IdL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35CaloIdLV2ClusterShapeL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID","r95x5")
)
process.hltEG35EtL1TripleEGFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(35.0),
etcutEE = cms.double(35.0),
inputTag = cms.InputTag("hltEGL1TripleEGOrDoubleEGOrSingleEG"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG35HEL1TripleEGFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35EtL1TripleEGFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG35L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(35.0),
etcutEE = cms.double(35.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG35R9Id90HE10IsoMEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35R9Id90HE10IsoMR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG35R9Id90HE10IsoMEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(35.0),
etcutEE = cms.double(35.0),
inputTag = cms.InputTag("hltEGL1EGAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG35R9Id90HE10IsoMHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35R9Id90HE10IsoMEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG35R9Id90HE10IsoMHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35R9Id90HE10IsoMEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG35R9Id90HE10IsoMR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35R9Id90HE10IsoMHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG35R9Id90HE10IsoMTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35R9Id90HE10IsoMHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG37CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG37HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG37CaloIdLClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG37HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG37EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(37.0),
etcutEE = cms.double(37.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG37EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(37.0),
etcutEE = cms.double(37.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG37HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG37EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG37HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG37EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltEG38L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(38.0),
etcutEE = cms.double(38.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG40L1SingleEGOrEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(40.0),
etcutEE = cms.double(40.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG50EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(50.0),
etcutEE = cms.double(50.0),
inputTag = cms.InputTag("hltEGL1SingleEG34to45Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG50HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG50IsoVVVLEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(50.0),
etcutEE = cms.double(50.0),
inputTag = cms.InputTag("hltEGL1SingleEG5OpenFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG50R9Id90HE10IsoMEBOnlyEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEBOnlyR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG50R9Id90HE10IsoMEBOnlyEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(50.0),
etcutEE = cms.double(999999.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG50R9Id90HE10IsoMEBOnlyHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEBOnlyEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG50R9Id90HE10IsoMEBOnlyHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEBOnlyEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG50R9Id90HE10IsoMEBOnlyR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEBOnlyHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG50R9Id90HE10IsoMEBOnlyTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEBOnlyHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG50R9Id90HE10IsoMEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG50R9Id90HE10IsoMEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(50.0),
etcutEE = cms.double(50.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG50R9Id90HE10IsoMHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG50R9Id90HE10IsoMHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG50R9Id90HE10IsoMR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG50R9Id90HE10IsoMTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50R9Id90HE10IsoMHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG5CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG5HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG5CaloIdLV2ClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG5HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG5CaloIdLV2R9IdVLR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG5CaloIdLV2ClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltEG5EtUnseededFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(5.0),
etcutEE = cms.double(5.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapperUnseeded"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG5HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG5L1SingleEG5WithJetAndTauEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG5HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG5EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltEG5L1SingleEG5EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(5.0),
etcutEE = cms.double(5.0),
inputTag = cms.InputTag("hltEGL1SingleEG5Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG5L1SingleEG5WithJetAndTauEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(5.0),
etcutEE = cms.double(5.0),
inputTag = cms.InputTag("hltEGL1SingleEG5WithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG60EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(60.0),
etcutEE = cms.double(60.0),
inputTag = cms.InputTag("hltEGL1SingleEGNonIsoOrWithJetAndTauNoPSFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG60HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG60EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG60R9Id90CaloIdLIsoLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG60R9Id90CaloIdLIsoLR9IdFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG60R9Id90CaloIdLIsoLDisplacedIdFilter = cms.EDFilter("HLTDisplacedEgammaFilter",
EBOnly = cms.bool(False),
RecHitsEB = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
RecHitsEE = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
inputTag = cms.InputTag("hltEG60R9Id90CaloIdLIsoLHollowTrackIsoFilter"),
inputTrack = cms.InputTag("hltMergedTracks"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
maxTrackCut = cms.int32(0),
ncandcut = cms.int32(1),
sMaj_max = cms.double(1.5),
sMaj_min = cms.double(0.0),
sMin_max = cms.double(0.4),
sMin_min = cms.double(0.0),
saveTags = cms.bool(True),
seedTimeMax = cms.double(999.0),
seedTimeMin = cms.double(-999.0),
trackPtCut = cms.double(5.0),
trackdRCut = cms.double(0.2)
)
process.hltEG60R9Id90CaloIdLIsoLEcalPFClusterIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG60R9Id90CaloIdLIsoLClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.01),
thrOverEEE = cms.vdouble(0.007),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(8.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG60R9Id90CaloIdLIsoLHcalPFClusterIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG60R9Id90CaloIdLIsoLEcalPFClusterIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(3e-05),
thrOverE2EE = cms.vdouble(3e-05),
thrOverEEB = cms.vdouble(0.03),
thrOverEEE = cms.vdouble(0.032),
thrRegularEB = cms.vdouble(12.5),
thrRegularEE = cms.vdouble(7.5),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG60R9Id90CaloIdLIsoLHollowTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG60R9Id90CaloIdLIsoLHcalPFClusterIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(6.0),
thrRegularEE = cms.vdouble(6.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG60R9Id90CaloIdLIsoLR9IdFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG60HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG70EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(70.0),
etcutEE = cms.double(70.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG70HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG70EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG75EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(75.0),
etcutEE = cms.double(75.0),
inputTag = cms.InputTag("hltEGL1SingleEG34ORL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG75HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG75R9Id90HE10IsoMEBOnlyEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEBOnlyR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG75R9Id90HE10IsoMEBOnlyEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(75.0),
etcutEE = cms.double(999999.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG75R9Id90HE10IsoMEBOnlyHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEBOnlyEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG75R9Id90HE10IsoMEBOnlyHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEBOnlyEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG75R9Id90HE10IsoMEBOnlyR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEBOnlyHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG75R9Id90HE10IsoMEBOnlyTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEBOnlyHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG75R9Id90HE10IsoMEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG75R9Id90HE10IsoMEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(75.0),
etcutEE = cms.double(75.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG75R9Id90HE10IsoMHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG75R9Id90HE10IsoMHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG75R9Id90HE10IsoMR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG75R9Id90HE10IsoMTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG75R9Id90HE10IsoMHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEG85EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(85.0),
etcutEE = cms.double(85.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGNonIsoOrWithJetAndTauFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG85HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG85EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG8CaloIdMClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG8HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEG8EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(8.0),
etcutEE = cms.double(8.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapper"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltEG8HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG8EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG90EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(90.0),
etcutEE = cms.double(90.0),
inputTag = cms.InputTag("hltEGL1SingleEG34ORL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG90HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG90PFHT700EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(90.0),
etcutEE = cms.double(90.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG90R9Id90HE10IsoMEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90R9Id90HE10IsoMR9Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEG90R9Id90HE10IsoMEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(90.0),
etcutEE = cms.double(90.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEG90R9Id90HE10IsoMHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90R9Id90HE10IsoMEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEG90R9Id90HE10IsoMHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90R9Id90HE10IsoMEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.005),
thrOverEEE = cms.vdouble(0.005),
thrRegularEB = cms.vdouble(10.0),
thrRegularEE = cms.vdouble(10.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEG90R9Id90HE10IsoMR9Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90R9Id90HE10IsoMHEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(False),
ncandcut = cms.int32(0),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.9),
thrRegularEE = cms.vdouble(0.9),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9ID")
)
process.hltEG90R9Id90HE10IsoMTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90R9Id90HE10IsoMHcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltEGDoubleMu4OSEG12ORDoubleMu5OSEG12Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sDoubleMu4OSEG12ORDoubleMu5OSEG12"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1EGAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1EGerAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.17),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1IsoEG28erHTT100Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sIsoEG28erHTT100"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.17),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1IsoEG30erJetC34drMin0p3Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sIsoEG30erJetC34drMin0p3"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.17),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1LowETSingleAndDoubleEGOrPairFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sLowETSingleAndDoubleEG"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(2),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1Mu5EG20Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleAndDoubleEGNonIsoOrWithJetAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleAndDoubleEGNonIsoOrWithJetAndTau"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleAndDoubleEGOrFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleAndDoubleEGor"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleAndDoubleEGOrPairFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleAndDoubleEG"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(2),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleAndDoubleEGWithJetAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleAndDoubleEGWithJetAndTau"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG10Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG10er2p5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG15Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG15er2p5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG26Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG26"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG34ORL1SingleEG40Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG34to50"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG34to45Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG34to45"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG40Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG40to50"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG5Filter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG5OpenFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG5ObjectMap"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEG5WithJetAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG5WithJetAndTau"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEGLowETOrEtaRFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEGLowETer2p5or"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.17),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEGLowETOrFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEGLowETer2p5or"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEGNonIsoOrWithJetAndTau"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEGNonIsoOrWithJetAndTauNoPSFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEGNonIsoOrWithJetAndTauNoPS"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1SingleEGOrFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEGor"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEGL1TripleEGOrDoubleEGOrSingleEG = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sTripleEGOrDoubleEGOrSingleEG"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEcalIsolPixelTrackL2FilterHB = cms.EDFilter("HLTEcalPixelIsolTrackFilter",
DropMultiL2Event = cms.bool(False),
MaxEnergyInEB = cms.double(2.0),
MaxEnergyInEE = cms.double(4.0),
MaxEnergyOutEB = cms.double(1.2),
MaxEnergyOutEE = cms.double(2.0),
NMaxTrackCandidates = cms.int32(10),
candTag = cms.InputTag("hltIsolEcalPixelTrackProdHB"),
saveTags = cms.bool(True)
)
process.hltEcalIsolPixelTrackL2FilterHE = cms.EDFilter("HLTEcalPixelIsolTrackFilter",
DropMultiL2Event = cms.bool(False),
MaxEnergyInEB = cms.double(2.0),
MaxEnergyInEE = cms.double(4.0),
MaxEnergyOutEB = cms.double(1.2),
MaxEnergyOutEE = cms.double(2.0),
NMaxTrackCandidates = cms.int32(10),
candTag = cms.InputTag("hltIsolEcalPixelTrackProdHE"),
saveTags = cms.bool(True)
)
process.hltEcalPhiSymFilter = cms.EDFilter("HLTEcalPhiSymFilter",
ampCut_barrelM = cms.vdouble(
17.6379, 17.6449, 17.64665, 17.64315, 17.63468,
17.62166, 17.60416, 17.58218, 17.55642, 17.52688,
17.49363, 17.45723, 17.41754, 17.37491, 17.32955,
17.28167, 17.23127, 17.1787, 17.12403, 17.06761,
17.00951, 16.94973, 16.88862, 16.82625, 16.76297,
16.69857, 16.63354, 16.56781, 16.50159, 16.43502,
16.36824, 16.30146, 16.23454, 16.16783, 16.10147,
16.03539, 15.97001, 15.90505, 15.84086, 15.77744,
15.715, 15.65347, 15.5932, 15.53384, 15.47602,
15.41932, 15.36409, 15.31026, 15.25783, 15.20708,
15.15787, 15.11041, 15.06442, 15.02025, 14.97783,
14.93695, 14.89796, 14.86058, 14.82502, 14.79121,
14.75894, 14.72849, 14.69951, 14.67221, 14.64645,
14.62216, 14.59934, 14.57778, 14.55755, 14.53844,
14.52052, 14.50358, 14.48748, 14.47222, 14.45759,
14.44359, 14.42994, 14.41657, 14.40334, 14.39011,
14.37667, 14.36281, 14.34853, 14.33355, 14.31759
),
ampCut_barrelP = cms.vdouble(
14.31759, 14.33355, 14.34853, 14.36281, 14.37667,
14.39011, 14.40334, 14.41657, 14.42994, 14.44359,
14.45759, 14.47222, 14.48748, 14.50358, 14.52052,
14.53844, 14.55755, 14.57778, 14.59934, 14.62216,
14.64645, 14.67221, 14.69951, 14.72849, 14.75894,
14.79121, 14.82502, 14.86058, 14.89796, 14.93695,
14.97783, 15.02025, 15.06442, 15.11041, 15.15787,
15.20708, 15.25783, 15.31026, 15.36409, 15.41932,
15.47602, 15.53384, 15.5932, 15.65347, 15.715,
15.77744, 15.84086, 15.90505, 15.97001, 16.03539,
16.10147, 16.16783, 16.23454, 16.30146, 16.36824,
16.43502, 16.50159, 16.56781, 16.63354, 16.69857,
16.76297, 16.82625, 16.88862, 16.94973, 17.00951,
17.06761, 17.12403, 17.1787, 17.23127, 17.28167,
17.32955, 17.37491, 17.41754, 17.45723, 17.49363,
17.52688, 17.55642, 17.58218, 17.60416, 17.62166,
17.63468, 17.64315, 17.64665, 17.6449, 17.6379
),
ampCut_endcapM = cms.vdouble(
11.5, 11.5, 11.5, 11.5, 11.5,
11.5, 11.5, 11.5, 11.5, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0
),
ampCut_endcapP = cms.vdouble(
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
14.0, 14.0, 14.0, 14.0, 14.0,
11.5, 11.5, 11.5, 11.5, 11.5,
11.5, 11.5, 11.5, 11.5
),
barrelDigiCollection = cms.InputTag("hltEcalDigis","ebDigis"),
barrelHitCollection = cms.InputTag("hltEcalRecHit","EcalRecHitsEB"),
barrelUncalibHitCollection = cms.InputTag("hltEcalUncalibRecHit","EcalUncalibRecHitsEB"),
endcapDigiCollection = cms.InputTag("hltEcalDigis","eeDigis"),
endcapHitCollection = cms.InputTag("hltEcalRecHit","EcalRecHitsEE"),
endcapUncalibHitCollection = cms.InputTag("hltEcalUncalibRecHit","EcalUncalibRecHitsEE"),
phiSymBarrelDigiCollection = cms.string('phiSymEcalDigisEB'),
phiSymEndcapDigiCollection = cms.string('phiSymEcalDigisEE'),
statusThreshold = cms.uint32(3),
useRecoFlag = cms.bool(False)
)
process.hltEgammaCandidatesWrapper = cms.EDFilter("HLTEgammaTriggerFilterObjectWrapper",
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag("hltEgammaCandidates"),
doIsolated = cms.bool(False),
saveTags = cms.bool(True)
)
process.hltEgammaCandidatesWrapperUnseeded = cms.EDFilter("HLTEgammaTriggerFilterObjectWrapper",
candIsolatedTag = cms.InputTag("hltEgammaCandidatesUnseeded"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltEle115CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle115CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle115CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle115CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.07),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle115CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG115CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle12CaloIdLTrackIdLIsoVLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle12CaloIdLTrackIdLIsoVLDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle12CaloIdLTrackIdLIsoVLDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle12CaloIdLTrackIdLIsoVLEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle12CaloIdLTrackIdLIsoVLEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(12.0),
etcutEE = cms.double(12.0),
inputTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle12CaloIdLTrackIdLIsoVLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle12CaloIdLTrackIdLIsoVLHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle12CaloIdLTrackIdLIsoVLL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG10IorSingleEG15"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEle12CaloIdLTrackIdLIsoVLOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle12CaloIdLTrackIdLIsoVLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle12CaloIdLTrackIdLIsoVLTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle12CaloIdLTrackIdLIsoVLDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle12Ele12DZFilter = cms.EDFilter("HLT2PhotonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(True),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegDphiFilter"),
inputTag2 = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegDphiFilter"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(81)
)
process.hltEle12PFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltEle12JetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle135CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle135CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle135CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle135CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.07),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle135CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG135CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle145CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle145CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle145CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle145CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.07),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle145CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG145CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30DetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30OneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30DphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30DetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30EcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(15.0),
etcutEE = cms.double(15.0),
inputTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30L1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30ClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30HcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30L1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG10OR15er2p5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30OneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15CaloIdLTrackIdLIsoVLJet30TrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15CaloIdLTrackIdLIsoVLJet30DphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLEtLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLEtLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLDZFilter = cms.EDFilter("HLT2PhotonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(True),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter"),
inputTag2 = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(81)
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLDetaLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLDetaLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLDphiLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLDetaLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLDphiLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLDetaLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLHELeg1Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLHELeg2Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLEtLeg1Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(15.0),
etcutEE = cms.double(15.0),
inputTag = cms.InputTag("hltEGL1SingleEG5Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLEtLeg2Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(10.0),
etcutEE = cms.double(10.0),
inputTag = cms.InputTag("hltEGL1SingleEG5Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLHELeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.4),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLHELeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.4),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.4),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.4),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLDphiLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15Ele10CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele10CaloIdLTrackIdLIsoVLDphiLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLEtLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLEtLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLDetaLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLDetaLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLDphiLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLDetaLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLDphiLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLDetaLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLHELeg1Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLHELeg2Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLEtLeg1Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(15.0),
etcutEE = cms.double(15.0),
inputTag = cms.InputTag("hltEGL1LowETSingleAndDoubleEGOrPairFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLEtLeg2Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(8.0),
etcutEE = cms.double(8.0),
inputTag = cms.InputTag("hltEGL1LowETSingleAndDoubleEGOrPairFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLHELeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLHELeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLDphiLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15Ele8CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15Ele8CaloIdLTrackIdLIsoVLDphiLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15PFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltEle15JetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle15VVVLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG15EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15VVVLEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.12876, 0.09324),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoR02")
)
process.hltEle15VVVLGsfChi2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Chi2")
)
process.hltEle15VVVLGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.0044),
thrRegularEE = cms.vdouble(0.006),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15VVVLGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.025),
thrRegularEE = cms.vdouble(0.025),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15VVVLGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLGsfChi2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle15VVVLGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.01),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15VVVLGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLGsfDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.4),
thrOverEEE = cms.vdouble(0.4),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15VVVLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.079, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.08),
thrOverEEE = cms.vdouble(0.04),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15VVVLHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15VVVLEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.0888, 0.111),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.6),
thrOverEEE = cms.vdouble(0.6),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIsoR02")
)
process.hltEle15VVVLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15VVVLHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle15WPLoose1ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG15L1SingleEGLowETOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle15WPLoose1EcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle15WPLoose1HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.325, 0.296, 0.283, 0.438),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(-0.581),
thrRegularEB2 = cms.vdouble(-0.698),
thrRegularEE1 = cms.vdouble(-0.892),
thrRegularEE2 = cms.vdouble(-0.885),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle15WPLoose1GsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15WPLoose1GsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.0055),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle15WPLoose1GsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15WPLoose1GsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.025),
thrRegularEE = cms.vdouble(0.025),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle15WPLoose1GsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15WPLoose1PMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.016),
thrRegularEE = cms.vdouble(0.013),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle15WPLoose1GsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle15WPLoose1GsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle15WPLoose1HEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle15WPLoose1ClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.098, 0.159, 0.353, 0.423),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.025),
thrOverEEB2 = cms.vdouble(0.025),
thrOverEEE1 = cms.vdouble(0.02),
thrOverEEE2 = cms.vdouble(0.02),
thrRegularEB1 = cms.vdouble(0.887),
thrRegularEB2 = cms.vdouble(1.476),
thrRegularEE1 = cms.vdouble(2.672),
thrRegularEE2 = cms.vdouble(5.095),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle15WPLoose1HcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle15WPLoose1EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.259, 0.328, 0.414, 0.456),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.786),
thrRegularEB2 = cms.vdouble(0.298),
thrRegularEE1 = cms.vdouble(0.402),
thrRegularEE2 = cms.vdouble(-0.061),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle15WPLoose1PMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle15WPLoose1PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle15WPLoose1PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle15WPLoose1HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg3Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg3Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg3Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg3Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLDphiLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLDphiLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLDphiLeg3Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg3Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg1Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(16.0),
etcutEE = cms.double(16.0),
inputTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg2Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(12.0),
etcutEE = cms.double(12.0),
inputTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg3Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(8.0),
etcutEE = cms.double(8.0),
inputTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(3),
saveTags = cms.bool(True)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLHELeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLHELeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLHELeg3Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg3Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sTripleEG14108IorTripleEG18178"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(3),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg3Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg3Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg1Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLHELeg1Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg2Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLHELeg2Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg3Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle16Ele12Ele8CaloIdLTrackIdLHELeg3Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(3),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle17CaloIdMClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle17CaloIdMGsfTrackIdMDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17CaloIdMGsfTrackIdMOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.006),
thrRegularEE = cms.vdouble(0.0085),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle17CaloIdMGsfTrackIdMDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17CaloIdMGsfTrackIdMDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.05),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle17CaloIdMGsfTrackIdMOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17CaloIdMPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.05),
thrRegularEE = cms.vdouble(0.05),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle17CaloIdMPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle17CaloIdMClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle17EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(17.0),
etcutEE = cms.double(17.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapper"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle17HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle17NoIsoPFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltGsfEle17NoIsoJetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle17WPLoose1ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG17L1SingleEGLowETOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle17WPLoose1EcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle17WPLoose1HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.325, 0.296, 0.283, 0.438),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(-0.581),
thrRegularEB2 = cms.vdouble(-0.698),
thrRegularEE1 = cms.vdouble(-0.892),
thrRegularEE2 = cms.vdouble(-0.885),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle17WPLoose1GsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17WPLoose1GsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.0055),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle17WPLoose1GsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17WPLoose1GsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.025),
thrRegularEE = cms.vdouble(0.025),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle17WPLoose1GsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17WPLoose1PMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.016),
thrRegularEE = cms.vdouble(0.013),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle17WPLoose1GsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle17WPLoose1GsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle17WPLoose1HEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle17WPLoose1ClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.098, 0.159, 0.353, 0.423),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.025),
thrOverEEB2 = cms.vdouble(0.025),
thrOverEEE1 = cms.vdouble(0.02),
thrOverEEE2 = cms.vdouble(0.02),
thrRegularEB1 = cms.vdouble(0.887),
thrRegularEB2 = cms.vdouble(1.476),
thrRegularEE1 = cms.vdouble(2.672),
thrRegularEE2 = cms.vdouble(5.095),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle17WPLoose1HcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle17WPLoose1EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.259, 0.328, 0.414, 0.456),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.786),
thrRegularEB2 = cms.vdouble(0.298),
thrRegularEE1 = cms.vdouble(0.402),
thrRegularEE2 = cms.vdouble(-0.061),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle17WPLoose1PMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle17WPLoose1PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle17WPLoose1PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle17WPLoose1HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle200CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle200CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle200CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle200CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.07),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle200CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG200CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle20WPLoose1ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20L1SingleEGLowETOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle20WPLoose1EcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPLoose1HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.325, 0.296, 0.283, 0.438),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(-0.581),
thrRegularEB2 = cms.vdouble(-0.698),
thrRegularEE1 = cms.vdouble(-0.892),
thrRegularEE2 = cms.vdouble(-0.885),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle20WPLoose1GsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPLoose1GsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.0055),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle20WPLoose1GsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPLoose1GsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.025),
thrRegularEE = cms.vdouble(0.025),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle20WPLoose1GsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPLoose1PMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.016),
thrRegularEE = cms.vdouble(0.013),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle20WPLoose1GsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPLoose1GsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle20WPLoose1HEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPLoose1ClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.098, 0.159, 0.353, 0.423),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.025),
thrOverEEB2 = cms.vdouble(0.025),
thrOverEEE1 = cms.vdouble(0.02),
thrOverEEE2 = cms.vdouble(0.02),
thrRegularEB1 = cms.vdouble(0.887),
thrRegularEB2 = cms.vdouble(1.476),
thrRegularEE1 = cms.vdouble(2.672),
thrRegularEE2 = cms.vdouble(5.095),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle20WPLoose1HcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPLoose1EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.259, 0.328, 0.414, 0.456),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.786),
thrRegularEB2 = cms.vdouble(0.298),
thrRegularEE1 = cms.vdouble(0.402),
thrRegularEE2 = cms.vdouble(-0.061),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle20WPLoose1PMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPLoose1PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle20WPLoose1PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle20WPLoose1HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle20WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20L1SingleEGLowETOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle20WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle20WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle20WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle20WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle20WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle20WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle20WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle20WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle20WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle20WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle20WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle20WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle20erWPLoose1ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20L1SingleEGLowETOrEtaREtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle20erWPLoose1EcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20erWPLoose1HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.325, 0.296, 0.283, 0.438),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(-0.581),
thrRegularEB2 = cms.vdouble(-0.698),
thrRegularEE1 = cms.vdouble(-0.892),
thrRegularEE2 = cms.vdouble(-0.885),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle20erWPLoose1GsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20erWPLoose1GsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.0055),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle20erWPLoose1GsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20erWPLoose1GsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.025),
thrRegularEE = cms.vdouble(0.025),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle20erWPLoose1GsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20erWPLoose1PMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.016),
thrRegularEE = cms.vdouble(0.013),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle20erWPLoose1GsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20erWPLoose1GsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle20erWPLoose1HEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20erWPLoose1ClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.098, 0.159, 0.353, 0.423),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.025),
thrOverEEB2 = cms.vdouble(0.025),
thrOverEEE1 = cms.vdouble(0.02),
thrOverEEE2 = cms.vdouble(0.02),
thrRegularEB1 = cms.vdouble(0.887),
thrRegularEB2 = cms.vdouble(1.476),
thrRegularEE1 = cms.vdouble(2.672),
thrRegularEE2 = cms.vdouble(5.095),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle20erWPLoose1HcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle20erWPLoose1EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.259, 0.328, 0.414, 0.456),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.035),
thrOverEEB2 = cms.vdouble(0.035),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.786),
thrRegularEB2 = cms.vdouble(0.298),
thrRegularEE1 = cms.vdouble(0.402),
thrRegularEE2 = cms.vdouble(-0.061),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle20erWPLoose1PMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle20erWPLoose1PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle20erWPLoose1PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle20erWPLoose1HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30DetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30OneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30DphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30DetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30EcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(23.0),
etcutEE = cms.double(23.0),
inputTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30L1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30ClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30HcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30L1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG15er2p5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30OneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle23CaloIdLTrackIdLIsoVLJet30TrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdLTrackIdLIsoVLJet30DphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle23CaloIdMClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle23CaloIdMGsfTrackIdMDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdMGsfTrackIdMOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.006),
thrRegularEE = cms.vdouble(0.0085),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle23CaloIdMGsfTrackIdMDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdMGsfTrackIdMDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.05),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle23CaloIdMGsfTrackIdMOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23CaloIdMPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.05),
thrRegularEE = cms.vdouble(0.02),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle23CaloIdMPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle23CaloIdMClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLEtLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLEtLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLDZFilter = cms.EDFilter("HLT2PhotonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(0),
checkSC = cms.bool(True),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter"),
inputTag2 = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(81)
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLDetaLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLDetaLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLDphiLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLDetaLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLDphiLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLDetaLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLHELeg1Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLHELeg2Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLEtLeg1Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(23.0),
etcutEE = cms.double(23.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGOrPairFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLEtLeg2Filter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(12.0),
etcutEE = cms.double(12.0),
inputTag = cms.InputTag("hltEGL1SingleAndDoubleEGOrPairFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLHELeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLHELeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLDphiLeg1Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle23Ele12CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23Ele12CaloIdLTrackIdLIsoVLDphiLeg2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle23EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(23.0),
etcutEE = cms.double(23.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapper"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle23HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle23EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle23NoIsoPFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltGsfEle23NoIsoJetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle23PFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltEle23JetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle24erWPTightClusterShapeFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG24L1EGandTauEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle24erWPTightEcalIsoFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle24erWPTightHEFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle24erWPTightGsfDetaFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle24erWPTightGsfMissingHitsFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle24erWPTightGsfDphiFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle24erWPTightGsfDetaFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle24erWPTightGsfMissingHitsFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle24erWPTightGsfOneOEMinusOneOPFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle24erWPTightGsfOneOEMinusOneOPFilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle24erWPTightPMS2FilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle24erWPTightGsfTrackIsoFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle24erWPTightGsfDphiFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle24erWPTightHEFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle24erWPTightClusterShapeFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle24erWPTightHcalIsoFilterForTau = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle24erWPTightEcalIsoFilterForTau"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle24erWPTightPMS2FilterForTau = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle24erWPTightPixelMatchFilterForTau"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle24erWPTightPixelMatchFilterForTau = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle24erWPTightHcalIsoFilterForTau"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle250CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle250CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle250CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle250CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.07),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle250CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG250CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle25CaloIdLMWPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle25CaloIdLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle25CaloIdLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG25CaloIdLClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle27CaloIdLMWPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27CaloIdLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle27CaloIdLMWPMS2UnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27CaloIdLPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltEle27CaloIdLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG27CaloIdLClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle27CaloIdLPixelMatchUnseededFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG27CaloIdLClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle27L1DoubleEGWPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG27L1SingleAndDoubleEGEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle27L1DoubleEGWPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle27L1DoubleEGWPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle27L1DoubleEGWPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle27L1DoubleEGWPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle27L1DoubleEGWPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle27L1DoubleEGWPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle27WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG27L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle27WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle27WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle27WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle27WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle27WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle27WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle27WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle27WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle27WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle27WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle27WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle27WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle27WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle27WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle27WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle27WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle28HighEtaSC20ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.0132),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle28HighEtaSC20ClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltDiEG20EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.033),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle28HighEtaSC20DetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.01),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle28HighEtaSC20DphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20DetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle28HighEtaSC20EcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20HEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.145),
thrOverEEE = cms.vdouble(0.11),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle28HighEtaSC20EcalIsoFilterUnseeded = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20ClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.16544, 0.13212),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.17),
thrOverEEE = cms.vdouble(0.17),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoUnseeded")
)
process.hltEle28HighEtaSC20EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(28.0),
etcutEE = cms.double(28.0),
inputTag = cms.InputTag("hltEGL1SingleEGOrFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle28HighEtaSC20HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20ClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.08),
thrOverEEE = cms.vdouble(0.135),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle28HighEtaSC20HEFilterUnseeded = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20EcalIsoFilterUnseeded"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.21),
thrOverEEE = cms.vdouble(0.21),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltEle28HighEtaSC20HcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20EcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle28HighEtaSC20HcalIsoFilterUnseeded = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20HEFilterUnseeded"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.05956, 0.13052),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.7),
thrOverEEE = cms.vdouble(0.7),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIsoUnseeded")
)
process.hltEle28HighEtaSC20Mass55Filter = cms.EDFilter("HLTPMMassFilter",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
candTag = cms.InputTag("hltEle28HighEtaSC20HcalIsoFilterUnseeded"),
isElectron1 = cms.untracked.bool(False),
isElectron2 = cms.untracked.bool(False),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lowerMassCut = cms.double(55.0),
nZcandcut = cms.int32(1),
reqOppCharge = cms.untracked.bool(False),
saveTags = cms.bool(True),
upperMassCut = cms.double(13000.0)
)
process.hltEle28HighEtaSC20OneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20PixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.08),
thrRegularEE = cms.vdouble(0.08),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle28HighEtaSC20PixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle28HighEtaSC20HcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.55),
tanhSO10ForwardThres = cms.double(1.8),
tanhSO10InterThres = cms.double(1.8),
useS = cms.bool(False)
)
process.hltEle28HighEtaSC20TrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28HighEtaSC20DphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle28WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG28L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle28WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle28WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle28WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle28WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle28WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle28WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle28WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle28WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle28WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle28WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle28WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle28WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle28WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle28WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle28WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle28erHTT100WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG28L1IsoEG28erHTT100EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle28erHTT100WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle28erHTT100WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle28erHTT100WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28erHTT100WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle28erHTT100WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28erHTT100WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle28erHTT100WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28erHTT100WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle28erHTT100WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28erHTT100WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle28erHTT100WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle28erHTT100WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle28erHTT100WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle28erHTT100WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle28erHTT100WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle28erHTT100WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle28erHTT100WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle28erHTT100WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle28erHTT100WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle28erHTT100WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle300CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle300CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle300CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle300CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.07),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle300CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG300CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle30PFJet35EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.6),
MinJetPt = cms.double(35.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltEle30JetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle30WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle30WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle30WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle30WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle30WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle30WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle30WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle30WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle30WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle30WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle30WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle30WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle30WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle30WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle30WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle30WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle30erJetC34WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG30L1IsoEGerJetC34drMin0p3EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle30erJetC34WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle30erJetC34WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle30erJetC34WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30erJetC34WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle30erJetC34WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30erJetC34WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle30erJetC34WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30erJetC34WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle30erJetC34WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30erJetC34WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle30erJetC34WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle30erJetC34WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle30erJetC34WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle30erJetC34WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle30erJetC34WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle30erJetC34WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle30erJetC34WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle30erJetC34WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle30erJetC34WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle30erJetC34WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle32L1DoubleEGWPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG32L1SingleAndDoubleEGEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle32L1DoubleEGWPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle32L1DoubleEGWPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle32L1DoubleEGWPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle32L1DoubleEGWPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle32L1DoubleEGWPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle32L1DoubleEGWPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle32L1DoubleEGWPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle32L1DoubleEGWPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle32L1DoubleEGWPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle32L1DoubleEGWPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle32L1DoubleEGWPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle32WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG32L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle32WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle32WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle32WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle32WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle32WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle32WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle32WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle32WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle32WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle32WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle32WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle32WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle32WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle32WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle32WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle32WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle33CaloIdLMWPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle33CaloIdLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle33CaloIdLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG33CaloIdLClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle35noerWPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG35L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle35noerWPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle35noerWPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle35noerWPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle35noerWPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle35noerWPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle35noerWPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle35noerWPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle35noerWPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle35noerWPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle35noerWPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle35noerWPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle35noerWPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle35noerWPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle35noerWPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle35noerWPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle35noerWPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle35noerWPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle35noerWPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle35noerWPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle35noerWPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle37CaloIdLMWPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle37CaloIdLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle37CaloIdLMWPMS2UnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle37CaloIdLPixelMatchUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVarsUnseeded","s2")
)
process.hltEle37CaloIdLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG37CaloIdLClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle37CaloIdLPixelMatchUnseededFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG37CaloIdLClusterShapeUnseededFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeedsUnseeded"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle38noerWPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG38L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle38noerWPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle38noerWPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle38noerWPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle38noerWPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle38noerWPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle38noerWPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle38noerWPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle38noerWPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle38noerWPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle38noerWPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle38noerWPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle38noerWPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle38noerWPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle38noerWPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle38noerWPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle38noerWPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle38noerWPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle38noerWPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle38noerWPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle38noerWPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle40noerWPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG40L1SingleEGOrEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle40noerWPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle40noerWPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle40noerWPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle40noerWPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle40noerWPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle40noerWPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle40noerWPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle40noerWPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle40noerWPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle40noerWPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle40noerWPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle40noerWPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle40noerWPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle40noerWPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle40noerWPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle40noerWPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle40noerWPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle40noerWPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle40noerWPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle40noerWPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle50CaloIdVTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.03),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle50CaloIdVTGsfTrkIdTCentralPFJet165EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.6),
MinJetPt = cms.double(165.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltEle50CaloIdVTGsfTrkIdTCleanAK4PFJet"),
originalTag = cms.InputTag("hltEle50CaloIdVTGsfTrkIdTCleanAK4PFJet"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltEle50CaloIdVTGsfTrkIdTGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50CaloIdVTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.007),
thrRegularEE = cms.vdouble(0.007),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle50CaloIdVTGsfTrkIdTGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50CaloIdVTGsfTrkIdTGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.06),
thrRegularEE = cms.vdouble(0.06),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle50CaloIdVTHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50CaloIdVTClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.1),
thrOverEEE = cms.vdouble(0.05),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle50CaloIdVTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle50CaloIdVTHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle50EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(50.0),
etcutEE = cms.double(50.0),
inputTag = cms.InputTag("hltEGL1SingleEG40Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle50VVVLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG50IsoVVVLEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.031),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle50VVVLEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.12876, 0.09324),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIsoR02")
)
process.hltEle50VVVLGsfChi2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Chi2")
)
process.hltEle50VVVLGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.0044),
thrRegularEE = cms.vdouble(0.006),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle50VVVLGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.025),
thrRegularEE = cms.vdouble(0.025),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle50VVVLGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLGsfChi2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle50VVVLGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.01),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle50VVVLGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLGsfDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.4),
thrOverEEE = cms.vdouble(0.4),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle50VVVLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.079, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.08),
thrOverEEE = cms.vdouble(0.04),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle50VVVLHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle50VVVLEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.0888, 0.111),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.6),
thrOverEEE = cms.vdouble(0.6),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIsoR02")
)
process.hltEle50VVVLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle50VVVLHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle5CaloIdLMWPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle5CaloIdLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(150.0),
thrRegularEE = cms.vdouble(150.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle5CaloIdLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEG5CaloIdLClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle5WPTightClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG5L1SingleEG5EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle5WPTightEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle5WPTightHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle5WPTightGsfDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle5WPTightGsfMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle5WPTightGsfDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle5WPTightGsfDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle5WPTightGsfMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle5WPTightGsfOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltEle5WPTightGsfOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle5WPTightPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.012),
thrRegularEE = cms.vdouble(0.011),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle5WPTightGsfTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle5WPTightGsfDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle5WPTightHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltEle5WPTightClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle5WPTightHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltEle5WPTightEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle5WPTightPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle5WPTightPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltEle5WPTightPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle5WPTightHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle8CaloIdLTrackIdLIsoVLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle8CaloIdLTrackIdLIsoVLDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle8CaloIdLTrackIdLIsoVLDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle8CaloIdLTrackIdLIsoVLEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltEle8CaloIdLTrackIdLIsoVLEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(8.0),
etcutEE = cms.double(8.0),
inputTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle8CaloIdLTrackIdLIsoVLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle8CaloIdLTrackIdLIsoVLHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltEle8CaloIdLTrackIdLIsoVLL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sSingleEG10IorSingleEG5"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltEle8CaloIdLTrackIdLIsoVLOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle8CaloIdLTrackIdLIsoVLPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle8CaloIdLTrackIdLIsoVLTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdLTrackIdLIsoVLDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltEle8CaloIdMClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltEle8CaloIdMGsfTrackIdMDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.006),
thrRegularEE = cms.vdouble(0.0085),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltEle8CaloIdMGsfTrackIdMDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdMGsfTrackIdMDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.05),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltEle8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8CaloIdMPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.05),
thrRegularEE = cms.vdouble(0.02),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltEle8CaloIdMPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltEle8CaloIdMClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltEle8EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(8.0),
etcutEE = cms.double(8.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapper"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltEle8HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEle8EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltEle8NoIsoPFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltGsfEle8NoIsoJetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle8PFJet30EleCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(30.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltEle8JetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltEle9DoubleMu4Mass3p8Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(9999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(4.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLMuonlegL2Filtered4"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltElectronMuonInvMassFilter8 = cms.EDFilter("HLTElectronMuonInvMassFilter",
ElectronL1IsoCand = cms.InputTag("hltEgammaCandidates"),
ElectronL1NonIsoCand = cms.InputTag("hltEgammaCandidates"),
MuonCand = cms.InputTag("hltIterL3MuonCandidates"),
elePrevCandTag = cms.InputTag("hltMu8Ele8CaloIdMGsfTrackIdMDphiFilter"),
electronRelaxed = cms.untracked.bool(True),
lowerMassCut = cms.double(8.0),
muonPrevCandTag = cms.InputTag("hltL3fL1sMu6HTT240Filtered8"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True),
upperMassCut = cms.double(999999.0)
)
process.hltEmFraction0p01To0p99CaloJetSelector = cms.EDFilter("CaloJetSelector",
cut = cms.string('abs(eta)< 2 && n90 >= 3 && emEnergyFraction > 0.01 && emEnergyFraction < 0.99'),
filter = cms.bool(False),
src = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed")
)
process.hltEnableParking = cms.EDFilter("HLTBool",
result = cms.bool(True)
)
process.hltFastPVJetVertexChecker = cms.EDFilter("JetVertexChecker",
beamSpot = cms.InputTag("hltOnlineBeamSpot"),
doFilter = cms.bool(False),
jetTracks = cms.InputTag("hltFastPVJetTracksAssociator"),
maxChi2 = cms.double(20.0),
maxETA = cms.double(2.4),
maxNJetsToCheck = cms.int32(2),
maxNjetsOutput = cms.int32(2),
maxTrackPt = cms.double(20.0),
minPt = cms.double(0.0),
minPtRatio = cms.double(0.1),
newMethod = cms.bool(True),
pvErr_x = cms.double(0.0015),
pvErr_y = cms.double(0.0015),
pvErr_z = cms.double(1.5)
)
process.hltFastPVPixelVertexFilter = cms.EDFilter("VertexSelector",
cut = cms.string('!isFake && ndof > 0 && abs(z) <= 25 && position.Rho <= 2'),
filter = cms.bool(True),
src = cms.InputTag("hltFastPrimaryVertex")
)
process.hltFastPVPixelVerticesFilter = cms.EDFilter("VertexSelector",
cut = cms.string('!isFake && ndof > 0 && abs(z) <= 25 && position.Rho <= 2'),
filter = cms.bool(True),
src = cms.InputTag("hltFastPVPixelVertices")
)
process.hltHIPhoton10Eta3p1 = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(3.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltRecoHIEcalWithCleaningCandidate"),
saveTags = cms.bool(True),
triggerType = cms.int32(81)
)
process.hltHIPhoton20Eta3p1 = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(3.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltRecoHIEcalWithCleaningCandidate"),
saveTags = cms.bool(True),
triggerType = cms.int32(81)
)
process.hltHIPhoton30Eta3p1 = cms.EDFilter("HLT1Photon",
MaxEta = cms.double(3.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltRecoHIEcalWithCleaningCandidate"),
saveTags = cms.bool(True),
triggerType = cms.int32(81)
)
process.hltHT100Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(100.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT130Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(130.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT175Jet10 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet10"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet10"),
minHt = cms.vdouble(175.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT200Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(200.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT300 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(300.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT300Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(300.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT320Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(320.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT380Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(380.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT400 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(400.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT400Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(400.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT425 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(425.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT430 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(430.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT450 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(450.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT460Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(460.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT500 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(500.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT515Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(515.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT550 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(550.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT550Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(550.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT580Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(580.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT650 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMht"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMht"),
minHt = cms.vdouble(650.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT650Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(650.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT680Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(680.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT790Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(790.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHT900Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtJet30"),
minHt = cms.vdouble(900.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltHcalCalibTypeFilter = cms.EDFilter("HLTHcalCalibTypeFilter",
CalibTypes = cms.vint32(
1, 2, 3, 4, 5,
6
),
InputTag = cms.InputTag("rawDataCollector")
)
process.hltHighEtaSC20Selector = cms.EDFilter("CandViewSelector",
cut = cms.string('et>20 && abs(eta) < 3.0 && abs(eta) > 2.5'),
src = cms.InputTag("hltEgammaCandidatesUnseeded")
)
process.hltHighEtaSC20SelectorFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltHighEtaSC20Selector")
)
process.hltHighPtTkMu50TkFilt = cms.EDFilter("HLTTrackWithHits",
MaxN = cms.int32(99999),
MinBPX = cms.int32(0),
MinFPX = cms.int32(0),
MinN = cms.int32(1),
MinPT = cms.double(50.0),
MinPXL = cms.int32(1),
saveTags = cms.bool(True),
src = cms.InputTag("hltIter2HighPtTkMuMerged")
)
process.hltHpsDoublePFTau20 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsPFTauProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20TrackLooseChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20TrackMediumChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20TrackMediumChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20TrackTightChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau20TrackTightChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau30Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsPFTauProducerReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau30TrackPt1MediumChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(30.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTau30TrackPt1MediumChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau30TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTau30TrackPt1MediumChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau30TrackPt1MediumChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau30TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsPFTauProducerReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(35.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsPFTauProducerReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationAndTightOOSCPhotonsDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(40.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(40.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationAndTightOOSCPhotonsDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(40.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationDz02Reg = cms.EDFilter("HLTPFTauPairDzMatchFilter",
JetMaxDZ = cms.double(0.2),
JetMaxEta = cms.double(2.1),
JetMinDR = cms.double(0.5),
JetMinPt = cms.double(40.0),
JetSrc = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg"),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsOverlapFilterIsoEle24WPTightGsfLooseIsoPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30LooseChargedIsolationL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoEle24WPTightGsfLooseIsoTightOOSCPhotonsPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30LooseChargedIsolationTightOOSCPhotonsL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotons"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoEle24WPTightGsfMediumIsoPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30MediumChargedIsolationL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoEle24WPTightGsfMediumIsoTightOOSCPhotonsPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30MediumChargedIsolationTightOOSCPhotonsL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotons"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoEle24WPTightGsfTightIsoPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30TightChargedIsolationL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolation"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoEle24WPTightGsfTightIsoTightOOSCPhotonsPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30TightChargedIsolationTightOOSCPhotonsL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotons"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu20LooseChargedIsoPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau27LooseChargedIsolationAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu20LooseChargedIsoTightOOSCPhotonsPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau27LooseChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotonsAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu20MediumChargedIsoPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau27MediumChargedIsolationAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu20MediumChargedIsoTightOOSCPhotonsPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau27MediumChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotonsAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu20TightChargedIsoPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau27TightChargedIsolationAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu20TightChargedIsoTightOOSCPhotonsPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau27TightChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotonsAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu24MediumChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu24MediumChargedIsoPFTau30MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sMu22erIsoTau28erL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau30TrackPt1MediumChargedIsolationL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu24MediumChargedIsoPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu24TightChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu24TightChargedIsoPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsSelectedPFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu27LooseChargedIsoPFTau20 = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsPFTau20TrackLooseChargedIsoAgainstMuon"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu27MediumChargedIsoPFTau20 = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsPFTau20TrackMediumChargedIsoAgainstMuon"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsOverlapFilterIsoMu27TightChargedIsoPFTau20 = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltHpsPFTau20TrackTightChargedIsoAgainstMuon"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltHpsPFTau20 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsPFTauProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20TrackLooseChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20TrackMediumChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20TrackMediumChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20TrackTightChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau20TrackTightChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsPFTauProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackLooseChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackLooseChargedIsoTightOOSCPhotonsAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotonsAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackMediumChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackMediumChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackMediumChargedIsoTightOOSCPhotonsAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotonsAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackTightChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackTightChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau27TrackTightChargedIsoTightOOSCPhotonsAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotonsAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsPFTauProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30TrackLooseChargedIsoTightOOSCPhotons = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotons"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30TrackMediumChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30TrackMediumChargedIsoTightOOSCPhotons = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotons"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30TrackTightChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTau30TrackTightChargedIsoTightOOSCPhotons = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotons"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTauTrack = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltHpsPFTauProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsPFTauTrackReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltHpsPFTauProducerReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau27LooseChargedIsolationAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau27LooseChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationTightOOSCPhotonsAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau27MediumChargedIsolationAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau27MediumChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationTightOOSCPhotonsAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau27TightChargedIsolationAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackTightChargedIsolationAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau27TightChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackTightChargedIsolationTightOOSCPhotonsAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30LooseChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30LooseChargedIsolationTightOOSCPhotonsL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationTightOOSCPhotonsMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30MediumChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30MediumChargedIsolationTightOOSCPhotonsL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationTightOOSCPhotonsMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30TightChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackTightChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30TightChargedIsolationTightOOSCPhotonsL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackTightChargedIsolationTightOOSCPhotonsMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau30TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchForMu22Tau28Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsL1JetsHLTPFTauTrackPt1TightChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSelectedPFTausTrackFinding = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
)),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolation = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauLooseAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauLooseAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotons = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauLooseAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotonsAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('0.5'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauLooseAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolation = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotons = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotonsAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('0.5'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminatorReg"),
selectionCut = cms.double(0.5)
)),
src = cms.InputTag("hltHpsPFTauProducerReg")
)
process.hltHpsSelectedPFTausTrackFindingTightChargedIsolation = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotons = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotonsAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('0.5'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducer")
)
process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauMediumChargedIsolationAndTightOOSCPhotonsDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducerReg")
)
process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducerReg")
)
process.hltHpsSelectedPFTausTrackPt1Reg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
)),
src = cms.InputTag("hltHpsPFTauProducerReg")
)
process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightChargedIsolationAndTightOOSCPhotonsDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducerReg")
)
process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltHpsPFTauProducerReg")
)
process.hltHpsSinglePFTau30Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsPFTauProducerReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSinglePFTau30TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSinglePFTau35Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsPFTauProducerReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHpsSinglePFTau35TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltHpsSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltHtEcal800 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtEcal"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtEcal"),
minHt = cms.vdouble(800.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltIsolPixelTrackL2FilterHB = cms.EDFilter("HLTPixelIsolTrackL1TFilter",
DropMultiL2Event = cms.bool(False),
L1GTSeedLabel = cms.InputTag("hltL1sV0SingleJet3OR"),
MaxEtaTrack = cms.double(1.15),
MaxPtNearby = cms.double(2.0),
MinDeltaPtL1Jet = cms.double(-40000.0),
MinEnergyTrack = cms.double(12.0),
MinEtaTrack = cms.double(0.0),
MinPtTrack = cms.double(3.5),
NMaxTrackCandidates = cms.int32(10),
candTag = cms.InputTag("hltIsolPixelTrackProdHB"),
filterTrackEnergy = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltIsolPixelTrackL2FilterHE = cms.EDFilter("HLTPixelIsolTrackL1TFilter",
DropMultiL2Event = cms.bool(False),
L1GTSeedLabel = cms.InputTag("hltL1sV0SingleJet3OR"),
MaxEtaTrack = cms.double(2.2),
MaxPtNearby = cms.double(2.0),
MinDeltaPtL1Jet = cms.double(-40000.0),
MinEnergyTrack = cms.double(12.0),
MinEtaTrack = cms.double(1.1),
MinPtTrack = cms.double(3.5),
NMaxTrackCandidates = cms.int32(5),
candTag = cms.InputTag("hltIsolPixelTrackProdHE"),
filterTrackEnergy = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltIsolPixelTrackL3FilterHB = cms.EDFilter("HLTPixelIsolTrackL1TFilter",
DropMultiL2Event = cms.bool(False),
L1GTSeedLabel = cms.InputTag("hltL1sV0SingleJet3OR"),
MaxEtaTrack = cms.double(1.15),
MaxPtNearby = cms.double(2.0),
MinDeltaPtL1Jet = cms.double(4.0),
MinEnergyTrack = cms.double(18.0),
MinEtaTrack = cms.double(0.0),
MinPtTrack = cms.double(20.0),
NMaxTrackCandidates = cms.int32(999),
candTag = cms.InputTag("hltHcalITIPTCorrectorHB"),
filterTrackEnergy = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltIsolPixelTrackL3FilterHE = cms.EDFilter("HLTPixelIsolTrackL1TFilter",
DropMultiL2Event = cms.bool(False),
L1GTSeedLabel = cms.InputTag("hltL1sV0SingleJet3OR"),
MaxEtaTrack = cms.double(2.2),
MaxPtNearby = cms.double(2.0),
MinDeltaPtL1Jet = cms.double(4.0),
MinEnergyTrack = cms.double(18.0),
MinEtaTrack = cms.double(1.1),
MinPtTrack = cms.double(20.0),
NMaxTrackCandidates = cms.int32(999),
candTag = cms.InputTag("hltHcalITIPTCorrectorHE"),
filterTrackEnergy = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltJpsiMuonL3Filtered3p5 = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuonL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(3.25),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(2.95),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.5),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltTripleMuonL2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltJpsiTkTkVertexFilterPhiDoubleTrk1v4 = cms.EDFilter("HLTmumutktkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(10.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinPt = cms.double(0.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltJpsiTrkTrkVertexProducerPhiDoubleTrk1v4"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltJpsiTkAllConeTracksIterDoubleTrk"),
saveTags = cms.bool(True)
)
process.hltJpsiTkTkVertexFilterPhiKstar = cms.EDFilter("HLTmumutktkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(10.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinPt = cms.double(0.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltJpsiTrkTrkVertexProducerPhiKstar"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltJpsiTkAllConeTracksIter"),
saveTags = cms.bool(True)
)
process.hltJpsiTkVertexFilter = cms.EDFilter("HLTmumutkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(10.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinPt = cms.double(0.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltJpsiTkVertexProducer"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltJpsiTkAllConeTracksIter"),
saveTags = cms.bool(True)
)
process.hltL1DiJetVBF = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleJet_90_30_DoubleJet30_Mass_Min620 OR L1_DoubleJet_100_30_DoubleJet30_Mass_Min620 OR L1_DoubleJet_110_35_DoubleJet35_Mass_Min620 OR L1_DoubleJet_115_40_DoubleJet40_Mass_Min620 OR L1_DoubleJet_120_45_DoubleJet45_Mass_Min620 OR L1_DoubleJet_115_40_DoubleJet40_Mass_Min620_Jet60TT28 OR L1_DoubleJet_120_45_DoubleJet45_Mass_Min620_Jet60TT28'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1DoubleJet100er3p0 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleJet100er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1DoubleJet112er2p3dEtaMax1p6 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleJet100er2p3_dEta_Max1p6 OR L1_DoubleJet112er2p3_dEta_Max1p6 OR L1_DoubleJet150er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1DoubleJet120er3p0 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleJet120er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1DoubleJet40er3p0 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleJet40er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1EventNumberL1Fat = cms.EDFilter("HLTL1NumberFilter",
fedId = cms.int32(1024),
invert = cms.bool(False),
period = cms.uint32(107),
rawInput = cms.InputTag("rawDataCollector"),
useTCDSEventNumber = cms.bool(True)
)
process.hltL1EventNumberNZS = cms.EDFilter("HLTL1NumberFilter",
fedId = cms.int32(1024),
invert = cms.bool(False),
period = cms.uint32(4096),
rawInput = cms.InputTag("rawDataCollector"),
useTCDSEventNumber = cms.bool(False)
)
process.hltL1Mu12er2p3Jet40er2p3dRMax0p4DoubleJet40er2p3dEtaMax1p6 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu10er2p3_Jet32er2p3_dR_Max0p4_DoubleJet32er2p3_dEta_Max1p6 OR L1_Mu12er2p3_Jet40er2p3_dR_Max0p4_DoubleJet40er2p3_dEta_Max1p6'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3er1p5_Jet100er2p5_ETMHF40 OR L1_Mu3er1p5_Jet100er2p5_ETMHF50'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1MuCosmicsL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMuCosmics"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1PFJetCategories = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltL1TPFJetsMatching","TwoJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltL1TripleMu553L1TriMuFiltered3 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(3),
MinPt = cms.double(3.0),
PreviousCandTag = cms.InputTag("hltL1sTripleMu0IorTripleMu553"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1TripleMu553L2TriMuFiltered3 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L1TriMuFiltered3"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL1TripleMu5SQ3SQ0OQDoubleMu53SQOSMassMax9 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu_5SQ_3SQ_0OQ_DoubleMu_5_3_SQ_OS_Mass_Max9 OR L1_TripleMu_5SQ_3SQ_0_DoubleMu_5_3_SQ_OS_Mass_Max9'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1TripleMuOpen53p52UpsilonMuonL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(3),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sTripleMuOpen53p52UpsilonMuon"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1VBFDiJetOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleJet_90_30_DoubleJet30_Mass_Min620 OR L1_DoubleJet_100_30_DoubleJet30_Mass_Min620 OR L1_DoubleJet_110_35_DoubleJet35_Mass_Min620 OR L1_DoubleJet_115_40_DoubleJet40_Mass_Min620'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1fDimuonL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3DiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3DiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3DiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3DiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3DoubleMuon4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMuon4L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1TripleMu553L1TriMuFiltered3 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L1TriMuFiltered3"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1TripleMuOpen53p52UpsilonMuonL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltIterL3MuonL1MuonNoL2SelectorOpenMu"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMuOpen53p52UpsilonMuonL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1DoubleMu0SQL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1DoubleMu0SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1DoubleMu0SQOSL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu0HighQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu0HighQL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu157L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu18erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu18erL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sDoubleMu4OSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu4OSL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sEmuMu3L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sEmuMu3L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu4SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4SQOSL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu4dR1p2L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4dR1p2L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu4p5SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5SQL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu4p5SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5SQOSL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5er2p0SQL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu5SQMass7to18L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu5SQMass7to18L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMu5SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu5SQOSL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1DoubleMuorTripleMuL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMuorTripleMuL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1TripleMuNoMassL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1TripleMuNoMassL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1sDoubleMu9SQL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu12Dijet40L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu12Dijet40L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu12Diphoton20L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fMu12Diphoton20L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu15DQlqL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu16orMu18erorMu20erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu16orMu18erorMu20erL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu18L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu18L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22erIsoTau28erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22erIsoTau28erL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22erIsoTau40erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22erIsoTau40erL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22erL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22or25L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22orMu20erorMu25L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22orMu20erorMu25L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22orParkingL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu3Jet120L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet120L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu3Jet16L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet16L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu3Jet60L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet60L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu3L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet30L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sMu5L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3or5or7L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sSingleMuOpenCandidateL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3L1fMu7p5TrackFiltered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fMu7p5TrackFiltered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3Mu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3Mu17Photon30IsoCaloIdMuonlegL1Filtered7 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu17Photon30IsoCaloIdMuonlegL1Filtered7"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3Mu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3Mu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3Mu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3Muon8L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMuon8L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3TripleMuon0L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuon0L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3TripleMuon53p52p5L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuon53p52p5L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3TripleMuonL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonL1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fForIterL3TripleMuonV2L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltL1MuonsPt0"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonV2L1Filtered0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1DoubleMu0SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0SQ"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1DoubleMu0SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuDoubleMu0SQOS"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.1),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sBigORMu18erTauXXer2p1"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.1),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sBigOrMuXXerIsoTauYYer"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sCDCL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(False),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sCDC"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu0HighQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu0SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0SQ"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu155L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157ORTripleMu444"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157ORTripleMu444ORSingleMu22"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu157L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu18erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.1),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu18er"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4OSEG12ORDoubleMu5OSEG12"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sDoubleMu4OSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4OS"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sEmuMu3L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuSingleMu3"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0ETM40IorDoubleMu0ETM55IorDoubleMu0ETM60IorDoubleMu0ETM65IorDoubleMu0ETM70"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu0er1p5L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuDoubleMu0er1p5"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0er1p5SQOSdRMax1p4IorDoubleMu0er1p4SQOSdRMax1p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0er1p5SQOSdRMax1p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0er1p5dR1p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu4SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuDoubleMu4SQOS"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu4dR1p2L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4dR1p2"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu4p5SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4p5SQ"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu4p5SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuDoubleMu4p5SQOS"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu4p5er2p0SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuDoubleMu4p5er2p0SQ"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4p5er2p0SQMass7to18"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu5SQMass7to18L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu5SQMass7to18"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMu5SQOSL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sEmuDoubleMu5SQOS"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1DoubleMuorTripleMuL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0er1p5SQOSdRMax1p4IorTripleMu530DoubleMu53OSMassMax9"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1TripleMuNoMassL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sTripleMu530NoMass"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1WTau3MuSeedsL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu157IorDoubleMu4p5SQOSdR1p2IorSingleMu25IorSingleMu22erIorTripleMuMassMax9"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1s12DoubleMu4p5er2p0SQOSMass7to18"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(False)
)
process.hltL1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu4SQOSdRMax1p2DoubleMu0er1p5SQOSdRMax1p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sL1sDoubleMu9SQL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(2),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu9SQ"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu12Dijet40L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1Mu12er2p3Jet40er2p3dRMax0p4DoubleJet40er2p3dEtaMax1p6"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu15DQlqL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu15DQ"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu16orMu18erorMu20erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu16IorSingleMu18IorSingleMu20IorSingleMu16erlorSingleMu18erlorSingleMu20erlorSingleMu22erlorSingleMu25"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu16orMu25L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu25"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu18L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu18"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu22"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22erIsoTau28erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.1),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu22erIsoTau28er"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22erIsoTau40erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.1),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu22erIsoTau40er"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22erL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.1),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu22"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22or25L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu22or25"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22orMu20erorMu25L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu20or22or25"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22orMu25L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu22or25"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu22orParkingL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu22orParking"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu3Jet120L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu3JetC120dRMax0p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu3Jet16L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu3JetC16dRMax0p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu3Jet30L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu3IorMu3Jet30er2p5"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu3Jet60L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu3JetC60dRMax0p4"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu3or5or7L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu3IorSingleMu5IorSingleMu7"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMu5EG20orMu20EG15L1Filtered5 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(5.0),
PreviousCandTag = cms.InputTag("hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMuORL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMuOR"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMuOpenNotBptxORL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMuOpenNotBptxOR"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMuOpenEr1p4NotBptxOR3BXORL1sSingleMuOpenEr1p1NotBptxOR3BX"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sSingleMu3L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu3"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sSingleMu7L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu7"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fL1sSingleMuOpenCandidateL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMuOpenObjectMap"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fMu12Diphoton20L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu6DoubleEG17OrDoubleEGOrSingleEG"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1fMu7p5TrackFiltered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu5IorSingleMu7"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltL1s12DoubleMu4p5er2p0SQOSMass7to18 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5er2p0_SQ_OS_Mass_Min7 OR L1_DoubleMu4p5er2p0_SQ_OS_Mass7to18'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sAlCaEcalPi0Eta = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_AlwaysTrue OR L1_IsolatedBunch OR L1_SingleEG8er2p5 OR L1_SingleEG10er2p5 OR L1_SingleEG15er2p5 OR L1_SingleEG26er2p5 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_SingleJet35 OR L1_SingleJet60 OR L1_SingleJet90 OR L1_SingleJet120 OR L1_SingleJet140er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_DoubleJet40er2p5 OR L1_DoubleJet100er2p5 OR L1_DoubleJet120er2p5 OR L1_QuadJet60er2p5 OR L1_HTT120er OR L1_HTT160er OR L1_HTT200er OR L1_HTT255er OR L1_HTT280er OR L1_HTT320er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sAlCaSingleEle = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleLooseIsoEG26er2p5 OR L1_SingleLooseIsoEG26er1p5 OR L1_SingleLooseIsoEG28er2p5 OR L1_SingleLooseIsoEG28er2p1 OR L1_SingleLooseIsoEG28er1p5 OR L1_SingleLooseIsoEG30er2p5 OR L1_SingleLooseIsoEG30er1p5 OR L1_SingleEG26er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5 OR L1_IsoEG32er2p5_Mt40'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sAllETMHFHTT60Seeds = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_ETMHF90_HTT60er OR L1_ETMHF100_HTT60er OR L1_ETMHF110_HTT60er OR L1_ETMHF120_HTT60er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sAllETMHFSeeds = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_ETMHF100 OR L1_ETMHF110 OR L1_ETM150 OR L1_ETMHF120 OR L1_ETMHF150'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sAllHTTSeeds = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT120er OR L1_HTT160er OR L1_HTT200er OR L1_HTT255er OR L1_HTT280er OR L1_HTT280er_QuadJet_70_55_40_35_er2p4 OR L1_HTT320er_QuadJet_80_60_er2p1_45_40_er2p3 OR L1_HTT320er_QuadJet_80_60_er2p1_50_45_er2p3 OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sBigORDoubleLooseIsoEGXXer = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleLooseIsoEG22er2p1 OR L1_DoubleLooseIsoEG24er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_LooseIsoEG22er2p1_IsoTau26er2p1_dR_Min0p3 OR L1_LooseIsoEG22er2p1_Tau70er2p1_dR_Min0p3 OR L1_LooseIsoEG24er2p1_IsoTau27er2p1_dR_Min0p3'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sBigORMu18erTauXXer2p1 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu18er2p1_Tau24er2p1 OR L1_Mu18er2p1_Tau26er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sBigOrMuXXerIsoTauYYer = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu22er2p1_IsoTau32er2p1 OR L1_Mu22er2p1_IsoTau34er2p1 OR L1_Mu22er2p1_IsoTau36er2p1 OR L1_Mu22er2p1_Tau70er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sCDC = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_CDC_SingleMu_3_er1p2_TOP120_DPHI2p618_3p142'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDSTRun3PFScoutingPixelTracking = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu_12_5 OR L1_DoubleMu_15_7 OR L1_HTT200er OR L1_HTT255er OR L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_SingleJet180 OR L1_SingleJet200 OR L1_DoubleJet30er2p5_Mass_Min300_dEta_Max1p5 OR L1_DoubleJet30er2p5_Mass_Min330_dEta_Max1p5 OR L1_DoubleJet30er2p5_Mass_Min360_dEta_Max1p5 OR L1_DoubleMu4p5er2p0_SQ_OS_Mass_Min7 OR L1_DoubleMu4_SQ_OS_dR_Max1p2 OR L1_SingleEG36er2p5 OR L1_SingleLooseIsoEG28er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleEG6to8HTT250to300IorL1sHTT = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleEG8er2p5_HTT260er OR L1_DoubleEG8er2p5_HTT300er OR L1_HTT255er OR L1_HTT280er OR L1_HTT280er_QuadJet_70_55_40_35_er2p4 OR L1_HTT320er_QuadJet_80_60_er2p1_45_40_er2p3 OR L1_HTT320er_QuadJet_80_60_er2p1_50_45_er2p3 OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0ETM40IorDoubleMu0ETM55IorDoubleMu0ETM60IorDoubleMu0ETM65IorDoubleMu0ETM70 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu3_SQ_ETMHF50_HTT60er OR L1_DoubleMu3_SQ_ETMHF50_Jet60er2p5_OR_DoubleJet40er2p5 OR L1_DoubleMu3_SQ_ETMHF50_Jet60er2p5 OR L1_DoubleMu3_SQ_ETMHF60_Jet60er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0Jet90er2p5dRMax0p8dRMu1p6 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0_dR_Max1p6_Jet90er2p5_dR_Max0p8'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0SQ = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0_SQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0_SQ_OS OR L1_DoubleMu0_SQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0er1p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS OR L1_DoubleMu0_SQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4 OR L1_DoubleMu4p5_SQ_OS_dR_Max1p2 OR L1_DoubleMu4_SQ_OS_dR_Max1p2'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0er1p5SQOSdRMax1p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0er1p5SQOSdRMax1p4IorDoubleMu0er1p4SQOSdRMax1p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0er1p5SQOSdRMax1p4IorTripleMu530DoubleMu53OSMassMax9 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4 OR L1_TripleMu_5SQ_3SQ_0_DoubleMu_5_3_SQ_OS_Mass_Max9 OR L1_DoubleMu4_SQ_OS_dR_Max1p2 OR L1_DoubleMu4p5_SQ_OS_dR_Max1p2'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu0er1p5dR1p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu125to157 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu_12_5 OR L1_DoubleMu_15_7'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu125to157ORTripleMu444 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu_12_5 OR L1_DoubleMu_15_5_SQ OR L1_DoubleMu_15_7 OR L1_TripleMu_5_3_3'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu125to157ORTripleMu444ORSingleMu22 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu_12_5 OR L1_DoubleMu_15_5_SQ OR L1_DoubleMu_15_7 OR L1_TripleMu_5_3_3 OR L1_SingleMu22'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu157IorDoubleMu4p5SQOSdR1p2IorSingleMu25IorSingleMu22erIorTripleMuMassMax9 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu_15_7 OR L1_DoubleMu4_SQ_OS_dR_Max1p2 OR L1_DoubleMu4p5_SQ_OS_dR_Max1p2 OR L1_SingleMu22 OR L1_SingleMu25 OR L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4 OR L1_TripleMu_5SQ_3SQ_0OQ_DoubleMu_5_3_SQ_OS_Mass_Max9 OR L1_TripleMu_5SQ_3SQ_0_DoubleMu_5_3_SQ_OS_Mass_Max9'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu18er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu18er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu3DoubleEG7p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu3_OS_DoubleEG7p5Upsilon'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu3SQHTT200 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu3_SQ_HTT220er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4EG9 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4_SQ_EG9er2p5 OR L1_DoubleMu5_SQ_EG9er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4OS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4OSEG12ORDoubleMu5OSEG12 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu22 OR L1_DoubleMu_15_7 OR L1_DoubleMu5_SQ_EG9er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4_SQ_OS OR L1_DoubleMu0_SQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4SQOSdRMax1p2DoubleMu0er1p5SQOSdRMax1p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4_SQ_OS_dR_Max1p2 OR L1_DoubleMu4p5_SQ_OS_dR_Max1p2 OR L1_DoubleMu0er1p5_SQ_OS_dR_Max1p4 OR L1_DoubleMu0er1p4_SQ_OS_dR_Max1p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4dR1p2 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4_SQ_OS_dR_Max1p2 OR L1_DoubleMu4p5_SQ_OS_dR_Max1p2'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4p5SQ = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4p5SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4p5er2p0SQ = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5er2p0_SQ_OS OR L1_DoubleMu4p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu4p5er2p0SQMass7to18 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5er2p0_SQ_OS_Mass_Min7 OR L1_DoubleMu4p5er2p0_SQ_OS_Mass7to18'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu5DoubleEG3 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu5Upsilon_OS_DoubleEG3'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu5SQMass7to18 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5er2p0_SQ_OS_Mass_Min7 OR L1_DoubleMu4p5er2p0_SQ_OS_Mass7to18'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu5SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu7EG7 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu5_SQ_EG9er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleMu9SQ = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu8_SQ OR L1_DoubleMu9_SQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleTauBigOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleIsoTau32er2p1 OR L1_DoubleIsoTau34er2p1 OR L1_DoubleIsoTau36er2p1 OR L1_DoubleTau70er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sDoubleTauMaxMass = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleIsoTau28er2p1_Mass_Max80 OR L1_DoubleIsoTau30er2p1_Mass_Max80'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEG40To45IorJet170To200IorHTT300To500IorETM70ToETM150 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_ETMHF100 OR L1_ETMHF90_HTT60er OR L1_ETMHF110 OR L1_ETM150 OR L1_ETMHF110_HTT60er OR L1_ETMHF120 OR L1_ETMHF120_HTT60er OR L1_ETMHF150'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sETM80ToETM150 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_ETMHF90_HTT60er OR L1_ETMHF100 OR L1_ETMHF100_HTT60er OR L1_ETMHF110 OR L1_ETM150 OR L1_ETMHF110_HTT60er OR L1_ETMHF120 OR L1_ETMHF120_HTT60er OR L1_ETMHF150'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuDoubleMu0SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuDoubleMu0er1p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu0er1p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuDoubleMu4SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuDoubleMu4p5SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuDoubleMu4p5er2p0SQ = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5er2p0_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuDoubleMu5SQOS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleMu4p5_SQ_OS'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sEmuSingleMu3 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu3'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT120er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT120er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT160er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT160er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT200er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT200er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT255er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT255er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT280to500erIorHTT250to340erQuadJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_HTT280er_QuadJet_70_55_40_35_er2p4 OR L1_HTT320er_QuadJet_70_55_40_40_er2p4 OR L1_HTT320er_QuadJet_80_60_er2p1_45_40_er2p3 OR L1_HTT320er_QuadJet_80_60_er2p1_50_45_er2p3 OR L1_QuadJet60er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT280to500erIorHTT250to340erQuadJetTripleJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_HTT280er_QuadJet_70_55_40_35_er2p4 OR L1_HTT320er_QuadJet_70_55_40_40_er2p4 OR L1_HTT320er_QuadJet_80_60_er2p1_45_40_er2p3 OR L1_HTT320er_QuadJet_80_60_er2p1_50_45_er2p3 OR L1_QuadJet60er2p5 OR L1_TripleJet_95_75_65_DoubleJet_75_65_er2p5 OR L1_TripleJet_100_80_70_DoubleJet_80_70_er2p5 OR L1_TripleJet_105_85_75_DoubleJet_85_75_er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTT380erIorHTT320er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT360er OR L1_ETT2000 OR L1_HTT320er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHTTForBeamSpot = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT120er OR L1_HTT160er OR L1_HTT200er OR L1_HTT255er OR L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_SingleJet120 OR L1_SingleJet140er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_DoubleJet40er2p5 OR L1_DoubleJet100er2p5 OR L1_DoubleJet120er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sHcalNZS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_ZeroBias OR L1_SingleJet35 OR L1_SingleJet60 OR L1_SingleJet90 OR L1_SingleJet120 OR L1_SingleJet140er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_DoubleJet40er2p5 OR L1_DoubleJet100er2p5 OR L1_DoubleJet120er2p5 OR L1_QuadJet60er2p5 OR L1_HTT120er OR L1_HTT160er OR L1_HTT200er OR L1_HTT255er OR L1_HTT280er OR L1_HTT320er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sIsoEG28erHTT100 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleLooseIsoEG26er2p5 OR L1_SingleLooseIsoEG26er1p5 OR L1_SingleLooseIsoEG28er2p5 OR L1_SingleLooseIsoEG28er2p1 OR L1_SingleLooseIsoEG28er1p5 OR L1_SingleLooseIsoEG30er2p5 OR L1_SingleLooseIsoEG30er1p5 OR L1_LooseIsoEG24er2p1_HTT100er OR L1_LooseIsoEG26er2p1_HTT100er OR L1_LooseIsoEG28er2p1_HTT100er OR L1_SingleEG26er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sIsoEG30erJetC34drMin0p3 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleLooseIsoEG26er2p5 OR L1_SingleLooseIsoEG26er1p5 OR L1_SingleLooseIsoEG28er2p5 OR L1_SingleLooseIsoEG28er2p1 OR L1_SingleLooseIsoEG28er1p5 OR L1_SingleLooseIsoEG30er2p5 OR L1_SingleLooseIsoEG30er1p5 OR L1_LooseIsoEG26er2p1_Jet34er2p5_dR_Min0p3 OR L1_LooseIsoEG28er2p1_Jet34er2p5_dR_Min0p3 OR L1_LooseIsoEG30er2p1_Jet34er2p5_dR_Min0p3 OR L1_SingleEG26er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sIsoTau40erETMHF90To120 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_IsoTau40er2p1_ETMHF80 OR L1_IsoTau40er2p1_ETMHF90 OR L1_IsoTau40er2p1_ETMHF100 OR L1_IsoTau40er2p1_ETMHF110'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sIsolatedBunch = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_IsolatedBunch'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1CDCSingleMu3er1p2TOP120DPHI2p618to3p142 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_CDC_SingleMu_3_er1p2_TOP120_DPHI2p618_3p142'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1UnpairedBunchBptxMinus = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_UnpairedBunchBptxMinus'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1UnpairedBunchBptxPlus = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_UnpairedBunchBptxPlus'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1ZeroBiasFirstBunchAfterTrain = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_FirstBunchAfterTrain'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1ZeroBiasFirstCollisionAfterAbortGap = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_FirstCollisionInOrbit'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1ZeroBiasFirstCollisionInTrainNOTFirstCollisionInOrbit = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_FirstCollisionInTrain AND (NOT L1_FirstCollisionInOrbit)'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sL1ZeroBiasLastBunchInTrain = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_LastCollisionInTrain'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sLowETSingleAndDoubleEG = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG10er2p5 OR L1_SingleEG15er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu22erIsoTau28er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu22er2p1_IsoTau28er2p1 OR L1_Mu22er2p1_IsoTau30er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu22erIsoTau40er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu22er2p1_IsoTau40er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu23EG10IorMu20EG17 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu20_EG10er2p5 OR L1_SingleMu22'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu3JetC120dRMax0p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3_Jet120er2p5_dR_Max0p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu3JetC120dRMax0p8 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3_Jet120er2p5_dR_Max0p8'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu3JetC16dRMax0p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3_Jet16er2p5_dR_Max0p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu3JetC35dRMax0p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3_Jet35er2p5_dR_Max0p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu3JetC60dRMax0p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3_Jet60er2p5_dR_Max0p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu3JetC80dRMax0p4 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu3_Jet80er2p5_dR_Max0p4'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu7_EG20er2p5 OR L1_Mu5_EG23er2p5 OR L1_Mu5_LooseIsoEG20er2p5 OR L1_Mu7_EG23er2p5 OR L1_Mu7_LooseIsoEG20er2p5 OR L1_Mu7_LooseIsoEG23er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu7_EG20er2p5 OR L1_Mu5_EG23er2p5 OR L1_Mu7_EG23er2p5 OR L1_Mu20_EG10er2p5 OR L1_SingleMu22'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu6DoubleEG10 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu6_DoubleEG10er2p5 OR L1_Mu6_DoubleEG17er2p5 OR L1_Mu6_DoubleEG12er2p5 OR L1_Mu6_DoubleEG15er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu6DoubleEG17OrDoubleEGOrSingleEG = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu6_DoubleEG12er2p5 OR L1_Mu7_EG20er2p5 OR L1_SingleMu25 OR L1_Mu6_DoubleEG17er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_Mu20_EG10er2p5 OR L1_SingleMu22 OR L1_Mu7_EG23er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu6HTT240 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu6_HTT240er OR L1_Mu6_HTT250er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sMu6HTT240IorDoubleJet100and35MassMin620 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_Mu6_HTT240er OR L1_Mu6_HTT250er OR L1_DoubleJet_90_30_DoubleJet30_Mass_Min620 OR L1_DoubleJet_100_30_DoubleJet30_Mass_Min620 OR L1_DoubleJet_110_35_DoubleJet35_Mass_Min620 OR L1_DoubleJet_115_40_DoubleJet40_Mass_Min620 OR L1_DoubleJet_120_45_DoubleJet45_Mass_Min620 OR L1_DoubleJet_115_40_DoubleJet40_Mass_Min620_Jet60TT28 OR L1_DoubleJet_120_45_DoubleJet45_Mass_Min620_Jet60TT28'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sNotBptxOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_NotBptxOR'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sQuadJet36IsoTau52 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_QuadJet36er2p5_IsoTau52er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_QuadJet60er2p5 OR L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_HTT280er_QuadJet_70_55_40_35_er2p4 OR L1_HTT320er_QuadJet_70_55_40_40_er2p4 OR L1_HTT320er_QuadJet_80_60_er2p1_45_40_er2p3 OR L1_HTT320er_QuadJet_80_60_er2p1_50_45_er2p3'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sRsqSeeds = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT120er OR L1_HTT160er OR L1_HTT200er OR L1_HTT255er OR L1_HTT280er OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er OR L1_SingleJet35 OR L1_SingleJet60 OR L1_SingleJet90 OR L1_SingleJet120 OR L1_SingleJet140er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_DoubleJet40er2p5 OR L1_DoubleJet100er2p5 OR L1_DoubleJet120er2p5 OR L1_QuadJet60er2p5 OR L1_LooseIsoEG24er2p1_HTT100er OR L1_LooseIsoEG26er2p1_HTT100er OR L1_LooseIsoEG28er2p1_HTT100er OR L1_Mu6_HTT240er OR L1_Mu6_HTT250er OR L1_DoubleEG8er2p5_HTT260er OR L1_DoubleEG8er2p5_HTT300er OR L1_DoubleEG8er2p5_HTT280er OR L1_DoubleEG8er2p5_HTT320er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleAndDoubleEG = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleLooseIsoEG26er2p5 OR L1_SingleLooseIsoEG26er1p5 OR L1_SingleLooseIsoEG28er2p5 OR L1_SingleLooseIsoEG28er2p1 OR L1_SingleLooseIsoEG28er1p5 OR L1_SingleLooseIsoEG30er2p5 OR L1_SingleLooseIsoEG30er1p5 OR L1_SingleEG26er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_DoubleEG_LooseIso22_12_er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG26er2p5 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_SingleTau120er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleAndDoubleEGNonIsoOrWithJetAndTau = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_SingleTau120er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleAndDoubleEGWithJetAndTau = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG28er2p1 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG34er2p5 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_SingleTau120er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleAndDoubleEGor = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleLooseIsoEG26er2p5 OR L1_SingleLooseIsoEG26er1p5 OR L1_SingleLooseIsoEG28er2p5 OR L1_SingleLooseIsoEG28er2p1 OR L1_SingleLooseIsoEG28er1p5 OR L1_SingleLooseIsoEG30er2p5 OR L1_SingleLooseIsoEG30er1p5 OR L1_SingleEG26er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_DoubleEG_25_14_er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG10IorSingleEG15 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG10er2p5 OR L1_SingleEG15er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG10IorSingleEG5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG10er2p5 OR L1_SingleEG8er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG10OR15er2p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG10er2p5 OR L1_SingleEG15er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG10er2p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG10er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG15er2p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG15er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG26 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG26er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG34to45 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG34er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG34to50 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG34er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG40to50 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG8er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG5ObjectMap = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG8er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEG5WithJetAndTau = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG8er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_SingleTau120er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEGLowETer2p5or = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG10er2p5 OR L1_SingleEG15er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEGNonIsoOrWithJetAndTau = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200 OR L1_SingleTau120er2p1 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEGNonIsoOrWithJetAndTauNoPS = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleEG40er2p5 OR L1_SingleTau120er2p1 OR L1_SingleJet180 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEGor = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleLooseIsoEG26er2p5 OR L1_SingleLooseIsoEG26er1p5 OR L1_SingleLooseIsoEG28er2p5 OR L1_SingleLooseIsoEG28er2p1 OR L1_SingleLooseIsoEG28er1p5 OR L1_SingleLooseIsoEG30er2p5 OR L1_SingleLooseIsoEG30er1p5 OR L1_SingleEG26er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG32er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleEGorSingleorDoubleMu = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleIsoEG30er2p1 OR L1_SingleIsoEG28er2p1 OR L1_SingleEG10er2p5 OR L1_SingleEG15er2p5 OR L1_SingleEG26er2p5 OR L1_SingleEG34er2p5 OR L1_SingleEG36er2p5 OR L1_SingleEG38er2p5 OR L1_SingleEG40er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5 OR L1_SingleEG60 OR L1_SingleMuOpen OR L1_SingleMu3 OR L1_SingleMu5 OR L1_SingleMu7 OR L1_SingleMu18 OR L1_SingleMu20 OR L1_SingleMu22 OR L1_SingleMu25 OR L1_DoubleMu_12_5 OR L1_DoubleMu_15_7 OR L1_SingleIsoEG24er2p1 OR L1_SingleIsoEG26er2p5 OR L1_SingleIsoEG28er2p5 OR L1_SingleIsoEG30er2p5 OR L1_SingleIsoEG32er2p5 OR L1_SingleIsoEG34er2p5 OR L1_DoubleEG_22_10_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_TripleEG_18_17_8_er2p5 OR L1_TripleMu_5_3_3 OR L1_TripleMu_5_5_3 OR L1_DoubleMu_15_7'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet120 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet120'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet120Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet120_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet120Or120Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet120 OR L1_SingleJet120_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet170IorSingleJet180IorSingleJet200 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet180 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet180'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet200 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet200'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet35 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet35'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet35Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet35_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet35ObjectMap = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet35'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet35OrZeroBias = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet35 OR L1_SingleJet35_FWD3p0 OR L1_ZeroBias'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet60 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet60'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet60Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet60_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet60Or60Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet60 OR L1_SingleJet60_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet90 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet90'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJet90Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet90_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJetC20NotBptxOR3BXEmulated = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet20er2p5_NotBptxOR_3BX'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJetC43NotBptxOR3BXorSingleJetC46NotBptxOR3BX = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet43er2p5_NotBptxOR_3BX OR L1_SingleJet46er2p5_NotBptxOR_3BX'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleJetOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleEG8er2p5_HTT260er OR L1_DoubleEG8er2p5_HTT280er OR L1_DoubleEG8er2p5_HTT300er OR L1_DoubleEG8er2p5_HTT300er OR L1_HTT255er OR L1_HTT280er OR L1_HTT280er_QuadJet_70_55_40_35_er2p4 OR L1_HTT320er_QuadJet_80_60_er2p1_45_40_er2p3 OR L1_HTT320er_QuadJet_80_60_er2p1_50_45_er2p3 OR L1_HTT320er OR L1_HTT360er OR L1_ETT2000 OR L1_HTT400er OR L1_HTT450er'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu15DQ = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu15_DQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu16IorSingleMu18IorSingleMu20IorSingleMu16erlorSingleMu18erlorSingleMu20erlorSingleMu22erlorSingleMu25 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu18 OR L1_SingleMu20 OR L1_SingleMu22 OR L1_SingleMu25'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu18 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu18'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu20or22or25 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu20 OR L1_SingleMu22 OR L1_SingleMu25'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu22 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu22'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu22or25 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu22 OR L1_SingleMu25'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu22orParking = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu22 OR L1_SingleMu25 OR L1_SingleMu18er1p5 OR L1_SingleMu14er1p5 OR L1_SingleMu12er1p5 OR L1_SingleMu10er1p5 OR L1_SingleMu9er1p5 OR L1_SingleMu8er1p5 OR L1_SingleMu7er1p5 OR L1_SingleMu6er1p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu25 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu25'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu3 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu3'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu3IorMu3Jet30er2p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu3 OR L1_Mu3_Jet30er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu3IorSingleMu5IorSingleMu7 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu3 OR L1_SingleMu5 OR L1_SingleMu7'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu5IorSingleMu14erIorSingleMu16er = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu5 OR L1_SingleMu7 OR L1_SingleMu18 OR L1_SingleMu20 OR L1_SingleMu22 OR L1_SingleMu25'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu5IorSingleMu7 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu5 OR L1_SingleMu7'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMu7 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu7'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMuCosmics = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMuCosmics'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMuOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMu3 OR L1_SingleMu5 OR L1_SingleMu7 OR L1_SingleMu18 OR L1_SingleMu20 OR L1_SingleMu22 OR L1_SingleMu25'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMuOpenEr1p4NotBptxOR3BXORL1sSingleMuOpenEr1p1NotBptxOR3BX = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMuOpen_er1p4_NotBptxOR_3BX OR L1_SingleMuOpen_er1p1_NotBptxOR_3BX'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMuOpenNotBptxOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMuOpen_NotBptxOR'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleMuOpenObjectMap = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleMuOpen'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sSingleTau = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleTau120er2p1 OR L1_SingleTau130er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTauVeryBigOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_DoubleIsoTau30er2p1 OR L1_DoubleIsoTau32er2p1 OR L1_DoubleIsoTau34er2p1 OR L1_DoubleIsoTau36er2p1 OR L1_DoubleTau70er2p1 OR L1_DoubleIsoTau28er2p1_Mass_Max80 OR L1_DoubleIsoTau28er2p1_Mass_Max90 OR L1_DoubleIsoTau30er2p1_Mass_Max80 OR L1_DoubleIsoTau30er2p1_Mass_Max90 OR L1_Mu22er2p1_IsoTau28er2p1 OR L1_Mu22er2p1_IsoTau30er2p1 OR L1_Mu22er2p1_IsoTau32er2p1 OR L1_Mu22er2p1_IsoTau34er2p1 OR L1_Mu22er2p1_IsoTau36er2p1 OR L1_Mu22er2p1_Tau70er2p1'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleEG14108IorTripleEG18178 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleEG_18_17_8_er2p5 OR L1_TripleEG_18_18_12_er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleEGOrDoubleEGOrSingleEG = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleEG16er2p5 OR L1_TripleEG_18_17_8_er2p5 OR L1_DoubleEG_25_12_er2p5 OR L1_DoubleEG_25_14_er2p5 OR L1_SingleEG42er2p5 OR L1_SingleEG45er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleJet1008572VBFIorHTTIorDoubleJetCIorSingleJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleJet_100_80_70_DoubleJet_80_70_er2p5 OR L1_HTT280er OR L1_HTT320er OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleJet1058576VBFIorHTTIorDoubleJetCIorSingleJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleJet_105_85_75_DoubleJet_85_75_er2p5 OR L1_HTT280er OR L1_HTT320er OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleJet927664VBFIorHTTIorDoubleJetCIorSingleJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT280er OR L1_HTT320er OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleJetVBFIorHTTIorSingleJet = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleJet_95_75_65_DoubleJet_75_65_er2p5 OR L1_HTT280er OR L1_HTT320er OR L1_SingleJet160er2p5 OR L1_SingleJet180 OR L1_SingleJet200'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleMu0 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleMu0IorTripleMu553 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu0 OR L1_TripleMu_5_5_3 OR L1_TripleMu_5_3_3 OR L1_TripleMu3_SQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleMu530NoMass = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu_5SQ_3SQ_0OQ'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleMu53p52p5 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu_5_3p5_2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleMuOpen53p52UpsilonMuon = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu_5SQ_3SQ_0_DoubleMu_5_3_SQ_OS_Mass_Max9'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sTripleMuV1OSM5to17 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_TripleMu_5_3p5_2p5_DoubleMu_5_2p5_OS_Mass_5to17 OR L1_TripleMu_5_4_2p5_DoubleMu_5_2p5_OS_Mass_5to17'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sV0SingleJet3OR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet60 OR L1_SingleJet200 OR L1_DoubleJet120er2p5'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sV0SingleJet60Or60Fwd = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet60 OR L1_SingleJet60_FWD3p0 OR L1_SingleJet90 OR L1_SingleJet90_FWD3p0'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sV0SingleJetC20NotBptxOR = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_SingleJet20er2p5_NotBptxOR'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sVoHTT320orHTT340orHTT380 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT320er OR L1_HTT360er OR L1_ETT2000'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sVoHTT380 = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_HTT360er OR L1_ETT2000'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sZeroBias = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_ZeroBias'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL1sZeroBiasIorAlwaysTrueIorIsolatedBunch = cms.EDFilter("HLTL1TSeed",
L1EGammaInputTag = cms.InputTag("hltGtStage2Digis","EGamma"),
L1EtSumInputTag = cms.InputTag("hltGtStage2Digis","EtSum"),
L1GlobalInputTag = cms.InputTag("hltGtStage2Digis"),
L1JetInputTag = cms.InputTag("hltGtStage2Digis","Jet"),
L1MuonInputTag = cms.InputTag("hltGtStage2Digis","Muon"),
L1ObjectMapInputTag = cms.InputTag("hltGtStage2ObjectMap"),
L1SeedsLogicalExpression = cms.string('L1_ZeroBias OR L1_AlwaysTrue OR L1_IsolatedBunch'),
L1TauInputTag = cms.InputTag("hltGtStage2Digis","Tau"),
saveTags = cms.bool(True)
)
process.hltL2DoubleMu23NoVertexL2Filtered2Cha = cms.EDFilter("HLTMuonDimuonL2FromL1TFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
ChargeOpt = cms.int32(0),
FastAccept = cms.bool(False),
MaxAcop = cms.double(3.15),
MaxAngle = cms.double(9999.0),
MaxDr = cms.double(100.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MaxInvMass = cms.double(9999.0),
MaxPtBalance = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinAngle = cms.double(-999.0),
MinInvMass = cms.double(-9999.0),
MinNchambers = cms.int32(2),
MinNhits = cms.int32(0),
MinNstations = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.double(23.0),
MinPtMin = cms.double(23.0),
MinPtPair = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157ORTripleMu444"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2DoubleMu25NoVtxFiltered2Cha = cms.EDFilter("HLTMuonDimuonL2FromL1TFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
ChargeOpt = cms.int32(0),
FastAccept = cms.bool(False),
MaxAcop = cms.double(3.15),
MaxAngle = cms.double(9999.0),
MaxDr = cms.double(100.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MaxInvMass = cms.double(999999.0),
MaxPtBalance = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinAngle = cms.double(-999.0),
MinInvMass = cms.double(-999999.0),
MinNchambers = cms.int32(2),
MinNhits = cms.int32(0),
MinNstations = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.double(25.0),
MinPtMin = cms.double(25.0),
MinPtPair = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157ORTripleMu444"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2DoubleMu25NoVtxFiltered2ChaEta2p4 = cms.EDFilter("HLTMuonDimuonL2FromL1TFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
ChargeOpt = cms.int32(0),
FastAccept = cms.bool(False),
MaxAcop = cms.double(3.15),
MaxAngle = cms.double(9999.0),
MaxDr = cms.double(100.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.4),
MaxInvMass = cms.double(999999.0),
MaxPtBalance = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinAngle = cms.double(-999.0),
MinInvMass = cms.double(-999999.0),
MinNchambers = cms.int32(2),
MinNhits = cms.int32(0),
MinNstations = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.double(25.0),
MinPtMin = cms.double(25.0),
MinPtPair = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157ORTripleMu444"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2DoubleMu30NoVtxFiltered2ChaEta2p4 = cms.EDFilter("HLTMuonDimuonL2FromL1TFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
ChargeOpt = cms.int32(0),
FastAccept = cms.bool(False),
MaxAcop = cms.double(3.15),
MaxAngle = cms.double(9999.0),
MaxDr = cms.double(100.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.4),
MaxInvMass = cms.double(999999.0),
MaxPtBalance = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinAngle = cms.double(-999.0),
MinInvMass = cms.double(-999999.0),
MinNchambers = cms.int32(2),
MinNhits = cms.int32(0),
MinNstations = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.double(30.0),
MinPtMin = cms.double(30.0),
MinPtPair = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu125to157ORTripleMu444"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2TauIsoFilter = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL2TauPixelIsoTagProducer"),
Jets = cms.InputTag("hltL2TausForPixelIsolation"),
MaxTag = cms.double(3.0),
MinJets = cms.int32(1),
MinTag = cms.double(0.0),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltL2TauIsoFilterL1TauSeeded = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL2TauPixelIsoTagProducerL1TauSeeded"),
Jets = cms.InputTag("hltL2TausForPixelIsolationL1TauSeeded"),
MaxTag = cms.double(4.5),
MinJets = cms.int32(1),
MinTag = cms.double(0.0),
TriggerType = cms.int32(84),
saveTags = cms.bool(True)
)
process.hltL2TausForPixelIsolation = cms.EDFilter("CaloJetSelector",
cut = cms.string('pt > 20 & abs(eta) < 2.5'),
filter = cms.bool(False),
src = cms.InputTag("hltL2TauJets")
)
process.hltL2TausForPixelIsolationL1TauSeeded = cms.EDFilter("CaloJetSelector",
cut = cms.string('pt > 20 & abs(eta) < 2.5'),
filter = cms.bool(False),
src = cms.InputTag("hltL2TauJetsL1TauSeeded")
)
process.hltL2TripleMuOpen53p52UpsilonMuonL2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesOpenMu"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMuOpen53p52UpsilonMuonL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2MuonsOpenMu"),
saveTags = cms.bool(True)
)
process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.16),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fDimuonL1f0L2NoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu0HighQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fDimuonL1f0L2NoVtxFiltered16 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(16.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fDimuonL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.16),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sCDCL2CosmicMuL2Filtered3er2stations10er1p0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(10.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sCDCL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sCDCL2CosmicMuL2Filtered3er2stations5p5er1p0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(5.5),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sCDCL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu0SQL1f0L2Filtered10OneMuNoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu0SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu155ORTripleMu444L1f0L2Filtered10OneMuNoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu157L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu18erL1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.16),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu18erL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sDoubleMu4OSL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu4OSL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sEmuMu3L1f0L2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sEmuMu3L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0SQL2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1DoubleMu0SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0SQOSL2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1DoubleMu0SQOSL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0er1p5L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0er1p5SQOSdR1p4L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu0er1p5dR1p4L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu4SQOSL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4SQOSL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu4dR1p2L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4dR1p2L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu4p5SQL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu4p5SQOSL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5SQOSL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu4p5er2p0SQL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5er2p0SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu4p5er2p0SQMass7to18L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu5SQMass7to18L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu5SQMass7to18L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMu5SQOSL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMu5SQOSL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1DoubleMuorTripleMuL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1DoubleMuorTripleMuL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1TripleMuNoMassL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1TripleMuNoMassL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1WTau3MuSeedsL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1WTau3MuSeedsL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1f0L2v2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1sDoubleMu4SQOSdRMax1p2L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sL1sDoubleMu9SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu12Dijet40L1f0L2Filtered8 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu12Dijet40L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu12Diphoton20L1f0L2Filtered8Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fMu12Diphoton20L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu15DQlqL1f0L2Filtered10 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu15DQlqL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu16orMu18erorMu20erL1f0L2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu16orMu18erorMu20erL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu16orMu25L1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu16orMu25L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu18L1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu18L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22erIsoTau28erL1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.16),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22erIsoTau28erL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22erIsoTau40erL1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.16),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22erIsoTau40erL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22or25L1f0L2AllBxFiltered50Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesAllBx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(50.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu22or25"),
SeedMapTag = cms.InputTag("hltL2MuonsAllBx"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22or25L1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22or25L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22or25L1f0L2FilteredQ = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 0, 0, 0),
MinNstations = cms.vint32(0, 0, 0, 0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22or25L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22orMu20erorMu25L1f0L2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22orMu20erorMu25L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22orMu25L1f0L2Filtered25 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22orMu25L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu22orParkL1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22orParkingL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu3Jet120L1f0L2Filtered8 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet120L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu3Jet16L1f0L2Filtered8 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet16L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu3Jet60L1f0L2Filtered8 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet60L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu3L1f0L2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3Jet30L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(16.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu5EG20orMu20EG15L1Filtered5"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu5L1L2SingleMu = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3or5or7L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMu5L1f0L2Filtered5 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu3or5or7L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2AllBxFiltered50Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesAllBx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(50.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuORL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2MuonsAllBx"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(23.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q2ChaCosmicSeed = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(23.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q2ChaCosmicSeedNoMatched = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(23.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q2ChaNoL2Matched = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(23.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(25.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaCosmicSeed = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(25.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaCosmicSeedEta2p4 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.4),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(25.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaCosmicSeedNoMatched = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(25.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaNoL2Matched = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(25.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx30Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(30.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0DoubleL2NoVtx30Q2ChaCosmicSeedEta2p4 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.4),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(30.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0L2NoVtx23Q2Cha = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(23.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuORL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuORL1f0L2NoVtx23Q2ChaCosmicSeed = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(True),
MatchToPreviousCand = cms.bool(False),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(2),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(23.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuORL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuOpenNotBptxORL1f0NoVtxCosmicSeedMeanTimerL2Filtered10 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(1),
MinNstations = cms.vint32(0),
MinPt = cms.double(10.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuOpenNotBptxORL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered10 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(1),
MinNstations = cms.vint32(0),
MinPt = cms.double(10.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered40Sta3 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(1),
MinNstations = cms.vint32(3),
MinPt = cms.double(40.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered45Sta3 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(1),
MinNstations = cms.vint32(3),
MinPt = cms.double(45.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2CosmicMuons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sSingleMu22L1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sSingleMu22erL1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.16),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22erL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sSingleMu3L1f0L2Filtered10OneMuNoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sSingleMu3L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sSingleMu7L1f0L2Filtered10OneMuNoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sSingleMu7L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sSingleMuOpenCandidateL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fMu7p5TrackL2Filtered7 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fMu7p5TrackFiltered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fOldL1sMu22or25L1f0L2Filtered10Q = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.9, 1.5, 2.1, 5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0, 1, 0, 1),
MinNstations = cms.vint32(0, 2, 0, 2),
MinPt = cms.double(10.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sMu22or25L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2fSQDoubleMu2L2PreFiltered2 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(5.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(2.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1DoubleMu0SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2pfL1sDoubleMu0L1f0L2doubleMu = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sDoubleMu0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2pfL1sDoubleMu0SQL1f0L2PreFiltered0NoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu0SQL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidatesNoVtx"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1fL1sDoubleMu157L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltL3Mu50VVVLIsoFIlter = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonCombRelIsolationVVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered50Q"),
saveTags = cms.bool(True)
)
process.hltL3MuFiltered3er1p5 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3MuVVVLIsoFIlter = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonCombRelIsolationVVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered15Q"),
saveTags = cms.bool(True)
)
process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fBigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sBigOrMuXXIsoTauYYerL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sDoubleMu18erL1f0L2f10QL3f20QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(2),
PreviousCandTag = cms.InputTag("hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sMu16L1L2L3TrkIsoFiltered0p07SingleMu = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu5L1L2L3pfecalIsoRhoFilteredEB0p14EE0p10"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sMu18L1f0L2f10QL3f20QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu18L1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f30QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sMu22erIsoTau28erL1f0L2f10QL3f24QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu22IsoTau28erL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sMu22erIsoTau40erL1f0L2f10QL3f24QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu22IsoTau40erL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sSingleMu22L1f0L2f10QL3Filtered24Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sSingleMu22erL1f0L2f10QL3Filtered24Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3trkIsoFiltered0p07 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltMuonTkRelIsolationCut0p07Map"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3pfhcalIsoRhoFilteredHB0p16HE0p20"),
saveTags = cms.bool(True)
)
process.hltL3fBigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fBigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fBigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fDimuonL1f0L2NVL3NoFiltersNoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(0.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fDimuonL1f0L2NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered33Displaced = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(0.01),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(33.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fDimuonL1f0L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered40Displaced = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(0.01),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(40.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fDimuonL1f0L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered43 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(43.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fDimuonL1f0L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered48 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(48.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fDimuonL1f0L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(20.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DiMu3SQETM50f0PreFiltered3 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DiMu3SQETM50noDrf0PreFiltered3 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DiMu3SQHT200L3PreFiltered4 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DoubleMuon4L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(4.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDoubleMuon4L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu155fFiltered17 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(17.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu155fFiltered19 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(19.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu155fPreFiltered8 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155L1f0L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu155fPreFiltered9 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155L1f0L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu157fFiltered10 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(10.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu157L1f0L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu157fFiltered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu157L1f0L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu157fFiltered18 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(18.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu157fFiltered20 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(20.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu157fFiltered23 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(23.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu157fFiltered9 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu157L1f0L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu3DiEG7p5f0Filtered3 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(2.9),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu4EG9f0Filtered4 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(4.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLMuonlegL2Filtered4"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu5EG3f0Filtered5 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(4.9),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu5Ele3CaloIdLTrackIdLMuonlegL2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1DoubleMu7EG7f0Filtered9 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3DiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLMuonlegL2Filtered5"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1Mu6DoubleEG10f0Filtered8 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3Mu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLMuonlegL2Filtered5"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMu553f0Filtered10105 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(10.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMu553f0Filtered1055 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(10.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMu553f0Filtered12105 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMu553f0Filtered533 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(5.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMu553f0PreFiltered333 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMu553f0PreFiltered555 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(5.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMuOpen53p52UpsilonMuonPreFiltered222 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesOpenMu"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksOpenMu"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMuOpen53p52UpsilonMuonL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(2.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2TripleMuOpen53p52UpsilonMuonL2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsOpenMu"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMuOpen53p52UpsilonMuonPreFiltered3p53p52 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesOpenMu"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksOpenMu"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMuOpen53p52UpsilonMuonL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.5),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2TripleMuOpen53p52UpsilonMuonL2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsOpenMu"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1TripleMuOpen53p52UpsilonMuonPreFiltered53p52 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesOpenMu"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksOpenMu"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMuOpen53p52UpsilonMuonL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(5.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2TripleMuOpen53p52UpsilonMuonL2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsOpenMu"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sBigOrMuXXIsoTauYYerL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(24.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sDoubleMu0SQL1f0L2f10OneMuL3Filtered16NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(16.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu0SQL1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sDoubleMu155ORTripleMu444L1f0L2f10OneMuL3Filtered12NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sDoubleMu155ORTripleMu444L1f0L2f10OneMuL3Filtered16NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(16.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sDoubleMu155ORTripleMu444L1f0L2f10OneMuL3Filtered17NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(17.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu18erL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(20.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sDoubleMu18erL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sDoubleMu5Filtered = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltIterL3MuonCandidates"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
maxAbsEta = cms.double(1e+99),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minN = cms.uint32(2),
minPt = cms.double(5.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag("hltDoubleMuon0L1Filtered0"),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sEmuMu3L1f0L2f0L3Filtered3 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sEmuMu3L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sEmuMu3L1f0L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu12Dijet40L1f0L2f8L3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu12Dijet40L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu12Dijet40L1f0L2Filtered8"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu12Diphoton20L1f0L2f8QL3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu12Diphoton20L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu12Diphoton20L1f0L2Filtered8Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu15DQlqL1f0L2Filtered10"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered15 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(15.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu15DQlqL1f0L2Filtered10"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered17 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(17.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu15DQlqL1f0L2Filtered10"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered19 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(19.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu15DQlqL1f0L2Filtered10"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu16orMu18erorMu20L1f0L2f0L3Filtered20 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu16orMu18erorMu20erL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(20.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu16orMu18erorMu20erL1f0L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu16orMu18erorMu20L1f0L2f0L3Filtered25 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu16orMu18erorMu20erL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(25.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu16orMu18erorMu20erL1f0L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu16orMu25L1f0L2f10QL3Filtered27Q = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltIterL3MuonCandidates"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(20.0),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(27.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag("hltL1fL1sMu16orMu25L1Filtered0"),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu16orMu25L1f0L2f10QL3Filtered37Q = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltIterL3MuonCandidates"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(20.0),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(37.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag("hltL1fL1sMu16orMu25L1Filtered0"),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu16orMu25L1f0L2f25L3Filtered37 = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltIterL3MuonCandidates"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(9999.0),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(37.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag("hltL1fL1sMu22orMu25L1Filtered0"),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu18L1f0L2f10QL3Filtered20Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu18L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(20.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu18L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu18L1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu18L1f0L2f10QL3Filtered20Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sMu18L1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu18L1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sMu1lqL1f0L2f10L3Filtered17TkIsoFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu15DQlqL1f0L2f10L3Filtered17"),
saveTags = cms.bool(True)
)
process.hltL3fL1sMu1lqL1f0L2f10L3Filtered19TkIsoFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu15DQlqL1f0L2f10L3Filtered19"),
saveTags = cms.bool(True)
)
process.hltL3fL1sMu22IsoTau28erL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22erIsoTau28erL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sMu22IsoTau40erL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22erIsoTau40erL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered100Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltOldL3MuonCandidates"),
InputLinks = cms.InputTag(""),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(0.1),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(20.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(100.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fOldL1sMu22or25L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22or25L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(27.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22or25L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22or25L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(30.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22or25L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30QL3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30QL3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered50Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22or25L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(50.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22or25L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered55Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22or25L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(55.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22or25L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(6.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(4.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(7.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(5.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(6.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(3.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP0Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP3Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(3.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(4.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(5.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orParkL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(6.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(9.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orParkL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22erIsoTau28erL1f0L2f10QL3Filtered24Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22erIsoTau28erL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(24.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22erIsoTau28erL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22erIsoTau28erL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22erIsoTau28erL1f0L2f10QL3Filtered24Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sMu22erIsoTau40erL1f0L2f10QL3Filtered24Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22erIsoTau40erL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(24.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22erIsoTau40erL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22erIsoTau40erL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu22erIsoTau40erL1f0L2f10QL3Filtered24Q"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sMu22orMu20erorMu25L1f0L2f0L3Filtered25 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orMu20erorMu25L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(25.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orMu20erorMu25L1f0L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu22orMu20erorMu25L1f0L2f0L3Filtered30 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22orMu20erorMu25L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(30.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu22orMu20erorMu25L1f0L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu25f0TkFiltered100Q = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltHighPtTkMuonCands"),
inputMuonCollection = cms.InputTag("hltHighPtTkMuons"),
maxAbsEta = cms.double(1e+99),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(100.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag("hltL1fL1sMu22or25L1Filtered0"),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu3Jet120L1f0L2f8L3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu3Jet120L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu3Jet120L1f0L2Filtered8"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu3Jet16L1f0L2f8L3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu3Jet16L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu3Jet16L1f0L2Filtered8"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu3Jet60L1f0L2f8L3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu3Jet60L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.3),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu3Jet60L1f0L2Filtered8"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu3L1f0L2f0L3Filtered3 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu3L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu3L1f0L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered38Displaced = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(0.01),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(38.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered43 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(43.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered43Displaced = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(0.01),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(43.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered48 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL3NoFiltersNoVtxMuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(0.0),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(48.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag(""),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5L1L2L3SingleMu = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu5L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(0.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu5L1L2SingleMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5L1L2L3pfecalIsoRhoFilteredEB0p14EE0p10 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu5L1L2L3SingleMu"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.14),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonEcalMFPFClusterIsoForMuons")
)
process.hltL3fL1sMu5L1L2L3pfhcalIsoRhoFilteredHB0p16HE0p20 = cms.EDFilter("HLTMuonGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltL3fL1sMu5L1L2L3pfecalIsoRhoFilteredEB0p14EE0p10"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltIterL3MuonCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.16),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltMuonHcalRegPFClusterIsoForMuons")
)
process.hltL3fL1sMu5L1f0L2f5L3Filtered8 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu5L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sMu5L1f0L2Filtered5"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sMu5L1f0L2f5L3Filtered8TkIsoFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sMu5L1f0L2f5L3Filtered8"),
saveTags = cms.bool(True)
)
process.hltL3fL1sMu6HTT240Filtered8 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3Muon8L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMuon8L2Filtered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMu22L1f0L2f10QL3Filtered24Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(24.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMu22L1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMu22erL1f0L2f10QL3Filtered24Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sMu22erL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.1),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(24.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMu22erL1f0L2Filtered10Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMu3L1f0L2f10OneMuL3Filtered6NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(6.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMu3L1f0L2Filtered10OneMuNoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMu7L1f0L2f10OneMuL3Filtered16NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(16.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMu7L1f0L2Filtered10OneMuNoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered10Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(0.1),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(20.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(10.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered15Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(15.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered50Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(50.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered8Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(0.1),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(20.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fL1sSingleMuOpenL1f0L2f3QL3Filtered4Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(0.1),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(20.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(4.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fLMu7p5TrackL3Filtered7p5 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fMu7p5TrackFiltered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(7.5),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fMu7p5TrackL2Filtered7"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3fSQMu7p5L2Mu2L3Filtered7p5 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(7.5),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2fSQDoubleMu2L2PreFiltered2"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3pfL1sDoubleMu0L1f0L2pf0L3doubleMu = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1fL1sDoubleMu0HighQL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(0.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu0L1f0L2doubleMu"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3pfL1sDoubleMu0SQL1f0L2pf0OneMuL3PreFiltered6NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(6.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu0SQL1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3pfL1sDoubleMu155ORTripleMu444L1f0L2pf0TwoMuL3PreFiltered5NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(5.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3pfL1sDoubleMu155ORTripleMu444L1f0L2pf0TwoMuL3PreFiltered6NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(6.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL3pfL1sDoubleMu155ORTripleMu444L1f0L2pf0TwoMuL3PreFiltered8NoVtx = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesNoVtx"),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksNoVtx"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3MuonsNoVtx"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltL4DisplacedDijetFullTracksHLTCaloJetTagFilterLowPt = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL4DisplacedDijetFullTracksJetTagProducerFromIPLowPt"),
Jets = cms.InputTag("hltIter02DisplacedHLTCaloJetCollectionProducerLowPt"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(5.0),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltL4DisplacedDijetFullTracksHLTCaloJetTagFilterMidPt = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL4DisplacedDijetFullTracksJetTagProducerFromIPMidPt"),
Jets = cms.InputTag("hltIter02DisplacedHLTCaloJetCollectionProducerMidPt"),
MaxTag = cms.double(999999.0),
MinJets = cms.int32(2),
MinTag = cms.double(5.0),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltL4PromptDisplacedDijetFullTracksHLTCaloJetTagFilterLowPt = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL4PromptDisplacedDijetFullTracksJetTagProducerFromIPLowPt"),
Jets = cms.InputTag("hltDisplacedHLTCaloJetCollectionProducerLowPt"),
MaxTag = cms.double(2.5),
MinJets = cms.int32(2),
MinTag = cms.double(-999999.0),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltL4PromptDisplacedDijetFullTracksHLTCaloJetTagFilterMidPt = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL4PromptDisplacedDijetFullTracksJetTagProducerFromIPMidPt"),
Jets = cms.InputTag("hltDisplacedHLTCaloJetCollectionProducerMidPt"),
MaxTag = cms.double(2.5),
MinJets = cms.int32(2),
MinTag = cms.double(-999999.0),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltLowMassNonResonantTkVertexFilter = cms.EDFilter("HLTmumutkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(10.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinPt = cms.double(0.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltLowMassNonResonantTkVertexProducer"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltLowMassNonResonantTkAllConeTracksIter"),
saveTags = cms.bool(True)
)
process.hltMET100 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET105 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(105.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET110 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET120 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET130 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(130.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET140 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET20 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET250 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(250.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET300 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(300.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET35 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET350 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET40 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(999.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET50 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET60 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET66 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(66.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET70 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(70.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET72 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(72.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET78 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(78.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET80 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMET90 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(90.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMETCleanBH80 = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltMetCleanBH"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMETCleanUsingJetIDOpenFilter = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltMetCleanUsingJetID"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMETOpen = cms.EDFilter("HLT1CaloMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltMet"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltMHT100 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(100.0),
saveTags = cms.bool(True)
)
process.hltMHT110 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(110.0),
saveTags = cms.bool(True)
)
process.hltMHT40 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(40.0),
saveTags = cms.bool(True)
)
process.hltMHT50 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(50.0),
saveTags = cms.bool(True)
)
process.hltMHT60 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(60.0),
saveTags = cms.bool(True)
)
process.hltMHT70 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(70.0),
saveTags = cms.bool(True)
)
process.hltMHT80 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(80.0),
saveTags = cms.bool(True)
)
process.hltMHT90 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltMht"),
minMht = cms.vdouble(90.0),
saveTags = cms.bool(True)
)
process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleLooseChargedIsoPFTau20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(115.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTau20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleLooseChargedIsoPFTauHPS20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(115.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTauHPS20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleMediumChargedIsoPFTauHPS20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(115.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleMediumChargedIsoPFTauHPS20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleTightChargedIsoPFTauHPS20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(115.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleTightChargedIsoPFTauHPS20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleLooseChargedIsoPFTau20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTau20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleLooseChargedIsoPFTauHPS20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTauHPS20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleMediumChargedIsoPFTauHPS20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleMediumChargedIsoPFTauHPS20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleTightChargedIsoPFTauHPS20 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltMatchedVBFTwoPFJetsDoubleTightChargedIsoPFTauHPS20OverlapRemoval"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMhtFilter = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltHtMhtForMC"),
minMht = cms.vdouble(-1.0),
saveTags = cms.bool(True)
)
process.hltMonoPFJet165 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(165.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToL1"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMu12DiEG20HEUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20EtUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverEUnseeded")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter = cms.EDFilter("HLT2PhotonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter"),
inputTag2 = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered12"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(83)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(23.0),
etcutEE = cms.double(23.0),
inputTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL2Filtered5 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3Filtered12 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3Mu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(12.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL2Filtered5"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered12 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3Filtered12"),
saveTags = cms.bool(True)
)
process.hltMu17Photon30IsoCaloIdMuonlegL1Filtered7 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(7.0),
PreviousCandTag = cms.InputTag("hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltMu17Photon30IsoCaloIdMuonlegL2Filtered10 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu17Photon30IsoCaloIdMuonlegL1Filtered7"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltMu17Photon30IsoCaloIdMuonlegL3Filtered17Q = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3Mu17Photon30IsoCaloIdMuonlegL1Filtered7"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(1e+99),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(17.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu17Photon30IsoCaloIdMuonlegL2Filtered10"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltMu17Photon30IsoCaloIdPhotonlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu17Photon30IsoCaloIdPhotonlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.015),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu17Photon30IsoCaloIdPhotonlegEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu17Photon30IsoCaloIdPhotonlegHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.012),
thrOverEEE = cms.vdouble(0.012),
thrRegularEB = cms.vdouble(5.0),
thrRegularEE = cms.vdouble(5.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltMu17Photon30IsoCaloIdPhotonlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(30.0),
etcutEE = cms.double(30.0),
inputTag = cms.InputTag("hltMu17Photon30IsoCaloIdPhotonlegFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu17Photon30IsoCaloIdPhotonlegFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltMu17Photon30IsoCaloIdPhotonlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu17Photon30IsoCaloIdPhotonlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu17Photon30IsoCaloIdPhotonlegTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu17Photon30IsoCaloIdPhotonlegEcalIsoFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(0.0),
thrOverE2EE = cms.vdouble(0.0),
thrOverEEB = cms.vdouble(0.002),
thrOverEEE = cms.vdouble(0.002),
thrRegularEB = cms.vdouble(4.0),
thrRegularEE = cms.vdouble(4.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHollowTrackIso")
)
process.hltMu1Mu1TrkPairPt2DR0p5MassMax1p9 = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag(""),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(999.0),
MaxDr = cms.double(0.5),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(1.9),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(0.2),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(1.0),
MinPtMin = cms.vdouble(1.0),
MinPtPair = cms.vdouble(2.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2fL1sL1WTau3MuSeedsL1f0L2PreFiltered0"),
inputMuonCollection = cms.InputTag(""),
saveTags = cms.bool(True)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLDZFilter = cms.EDFilter("HLT2MuonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered23"),
inputTag2 = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(81)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(12.0),
etcutEE = cms.double(12.0),
inputTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sMu23EG10IorMu20EG17"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu23EG10IorMu20EG17"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL2Filtered10 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3Filtered23 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3Mu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(23.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL2Filtered10"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered23 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3Filtered23"),
saveTags = cms.bool(True)
)
process.hltMu38NoFiltersNoVtxPhoton38CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu38NoFiltersNoVtxPhoton38CaloIdLEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu38NoFiltersNoVtxPhoton38CaloIdLEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(38.0),
etcutEE = cms.double(38.0),
inputTag = cms.InputTag("hltEGL1Mu5EG20Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu38NoFiltersNoVtxPhoton38CaloIdLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu38NoFiltersNoVtxPhoton38CaloIdLClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu3PFJet40MuCleaned = cms.EDFilter("HLTPFJetCollectionsFilter",
MaxAbsJetEta = cms.double(2.5),
MinJetPt = cms.double(40.0),
MinNJets = cms.uint32(1),
inputTag = cms.InputTag("hltMu3JetCollectionsForLeptonPlusPFJets"),
originalTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltMu43NoFiltersNoVtxPhoton43CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu43NoFiltersNoVtxPhoton43CaloIdLEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu43NoFiltersNoVtxPhoton43CaloIdLEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(43.0),
etcutEE = cms.double(43.0),
inputTag = cms.InputTag("hltEGL1Mu5EG20Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu43NoFiltersNoVtxPhoton43CaloIdLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu43NoFiltersNoVtxPhoton43CaloIdLClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu48NoFiltersNoVtxPhoton48CaloIdLClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu48NoFiltersNoVtxPhoton48CaloIdLEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu48NoFiltersNoVtxPhoton48CaloIdLEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(48.0),
etcutEE = cms.double(48.0),
inputTag = cms.InputTag("hltEGL1Mu5EG20Filter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu48NoFiltersNoVtxPhoton48CaloIdLHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu48NoFiltersNoVtxPhoton48CaloIdLClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu4Ele9DZFilter = cms.EDFilter("HLT2MuonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(2),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu4EG9f0Filtered4"),
inputTag2 = cms.InputTag("hltDiMu4Ele9CaloIdLTrackIdLElectronlegDphiFilter"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(81)
)
process.hltMu7p5Track2JpsiTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(0.5),
MaxMasses = cms.vdouble(3.35),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10.0),
MinMasses = cms.vdouble(2.8),
MinTrackHits = cms.int32(8),
MinTrackP = cms.double(3.5),
MinTrackPt = cms.double(2.0),
PreviousCandTag = cms.InputTag("hltL3fLMu7p5TrackL3Filtered7p5"),
TrackTag = cms.InputTag("hltTracksIter"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltMu7p5Track2UpsilonTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(0.5),
MaxMasses = cms.vdouble(11.4),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10.0),
MinMasses = cms.vdouble(8.5),
MinTrackHits = cms.int32(8),
MinTrackP = cms.double(3.5),
MinTrackPt = cms.double(2.0),
PreviousCandTag = cms.InputTag("hltL3fLMu7p5TrackL3Filtered7p5"),
TrackTag = cms.InputTag("hltTracksIter"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltMu7p5Track3p5JpsiTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(0.5),
MaxMasses = cms.vdouble(3.35),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10.0),
MinMasses = cms.vdouble(2.8),
MinTrackHits = cms.int32(8),
MinTrackP = cms.double(3.5),
MinTrackPt = cms.double(3.5),
PreviousCandTag = cms.InputTag("hltL3fLMu7p5TrackL3Filtered7p5"),
TrackTag = cms.InputTag("hltTracksIter"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltMu7p5Track3p5UpsilonTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(0.5),
MaxMasses = cms.vdouble(11.4),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10.0),
MinMasses = cms.vdouble(8.5),
MinTrackHits = cms.int32(8),
MinTrackP = cms.double(3.5),
MinTrackPt = cms.double(3.5),
PreviousCandTag = cms.InputTag("hltL3fLMu7p5TrackL3Filtered7p5"),
TrackTag = cms.InputTag("hltTracksIter"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltMu7p5Track7JpsiTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(0.5),
MaxMasses = cms.vdouble(3.35),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10.0),
MinMasses = cms.vdouble(2.8),
MinTrackHits = cms.int32(8),
MinTrackP = cms.double(3.5),
MinTrackPt = cms.double(7.0),
PreviousCandTag = cms.InputTag("hltL3fLMu7p5TrackL3Filtered7p5"),
TrackTag = cms.InputTag("hltTracksIter"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltMu7p5Track7UpsilonTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(0.5),
MaxMasses = cms.vdouble(11.4),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10.0),
MinMasses = cms.vdouble(8.5),
MinTrackHits = cms.int32(8),
MinTrackP = cms.double(3.5),
MinTrackPt = cms.double(7.0),
PreviousCandTag = cms.InputTag("hltL3fLMu7p5TrackL3Filtered7p5"),
TrackTag = cms.InputTag("hltTracksIter"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(12.0),
etcutEE = cms.double(12.0),
inputTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(2),
saveTags = cms.bool(True)
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sMu6DoubleEG10"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(2),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(2),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltMu8DiEle12CaloIdLTrackIdLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegHEFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(2),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltMu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu6DoubleEG10"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltMu8DiEle12CaloIdLTrackIdLMuonlegL2Filtered5 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltMu8Ele12DZFilter = cms.EDFilter("HLT2MuonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(2),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltL3fL1Mu6DoubleEG10f0Filtered8"),
inputTag2 = cms.InputTag("hltMu8DiEle12CaloIdLTrackIdLElectronlegDphiFilter"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(81)
)
process.hltMu8Ele8CaloIdMClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8Ele8HEFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu8Ele8CaloIdMGsfTrackIdMDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8Ele8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.006),
thrRegularEE = cms.vdouble(0.0085),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltMu8Ele8CaloIdMGsfTrackIdMDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8Ele8CaloIdMGsfTrackIdMDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.1),
thrRegularEE = cms.vdouble(0.05),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltMu8Ele8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8Ele8CaloIdMPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.05),
thrRegularEE = cms.vdouble(0.02),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltMu8Ele8CaloIdMPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltMu8Ele8CaloIdMClusterShapeFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltMu8Ele8CaloIdMTrackIdMDZFilter = cms.EDFilter("HLT2MuonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltL3fL1sMu6HTT240Filtered8"),
inputTag2 = cms.InputTag("hltMu8Ele8CaloIdMGsfTrackIdMDphiFilter"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(81)
)
process.hltMu8Ele8EtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(8.0),
etcutEE = cms.double(8.0),
inputTag = cms.InputTag("hltEgammaCandidatesWrapper"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu8Ele8HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8Ele8EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.12),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter = cms.EDFilter("HLT2PhotonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(1),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter"),
inputTag2 = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered8"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(83)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.01),
thrRegularEE = cms.vdouble(0.015),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.07),
thrRegularEE = cms.vdouble(0.1),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.29, 0.21),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.5),
thrOverEEE = cms.vdouble(0.5),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(23.0),
etcutEE = cms.double(23.0),
inputTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(True)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.13),
thrOverEEE = cms.vdouble(0.13),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.25),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.3),
thrOverEEE = cms.vdouble(0.3),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(True)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDphiFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.2),
thrOverEEE = cms.vdouble(0.2),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL2Filtered5 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3Filtered8 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3Mu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(8.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL2Filtered5"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered8 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3Filtered8"),
saveTags = cms.bool(True)
)
process.hltMu9Ele9DZFilter = cms.EDFilter("HLT2MuonPhotonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(-1.0),
MinN = cms.int32(2),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
electronTag = cms.InputTag("hltEgammaGsfElectrons"),
inputTag1 = cms.InputTag("hltL3fL1DoubleMu7EG7f0Filtered9"),
inputTag2 = cms.InputTag("hltDiMu9Ele9CaloIdLTrackIdLElectronlegDphiFilter"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltEgammaCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(81)
)
process.hltMumuFilterDoubleMu2Jpsi = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltMumuVtxProducerDoubleMu2Jpsi"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.0),
MinLxySignificance = cms.double(-1.0),
MinVtxProbability = cms.double(0.1),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltMuon10RelTrkIsoVVLFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered10Q"),
saveTags = cms.bool(True)
)
process.hltMuon4RelTrkIsoVVLFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sSingleMuOpenL1f0L2f3QL3Filtered4Q"),
saveTags = cms.bool(True)
)
process.hltMuon8L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sMu6HTT240"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltMuon8L2Filtered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltMuon8L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltMuon8RelTrkIsoVVLFiltered0p4 = cms.EDFilter("HLTMuonIsoFilter",
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
DepTag = cms.VInputTag("hltL3MuonRelTrkIsolationVVL"),
IsolatorPSet = cms.PSet(
),
MinN = cms.int32(1),
PreviousCandTag = cms.InputTag("hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered8Q"),
saveTags = cms.bool(True)
)
process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5 = cms.EDFilter("HLT2PhotonTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltTauJet5"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltAK4CaloJetsPFEt5"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoEle24WPTightGsfLooseIsoPFTau30 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEle24erWPTightGsfTrackIsoFilterForTau"),
inputTag2 = cms.InputTag("hltSelectedPFTau30LooseChargedIsolationL1HLTMatched"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoMu20LooseChargedIsoPFTau27L1Seeded = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltSelectedPFTau27LooseChargedIsolationAgainstMuonL1HLTMatched"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoMu24MediumChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltSelectedPFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoMu24MediumChargedIsoPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltSelectedPFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackPt1MediumChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoMu24TightChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltSelectedPFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoMu24TightChargedIsoPFTau35MonitoringReg = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltSelectedPFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackPt1TightChargedIsolationReg"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterIsoMu27LooseChargedIsoPFTau20 = cms.EDFilter("HLT2MuonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(1.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(0.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07"),
inputTag2 = cms.InputTag("hltPFTau20TrackLooseChargedIsoAgainstMuon"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterPhoton35IsoTau35WPTightGsfCaloJet5 = cms.EDFilter("HLT2PhotonTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(30.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEG35R9Id90HE10IsoMTrackIsoFilter"),
inputTag2 = cms.InputTag("hltTauJet5"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltAK4CaloJetsPFEt5"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltOverlapFilterPhoton35MediumChargedIsoPFTau35 = cms.EDFilter("HLT2PhotonPFTau",
MaxDelR = cms.double(99999.0),
MaxDeta = cms.double(-1.0),
MaxDphi = cms.double(-1.0),
MaxMinv = cms.double(-1.0),
MaxPt = cms.double(-1.0),
MinDelR = cms.double(0.3),
MinDeta = cms.double(0.0),
MinDphi = cms.double(0.0),
MinMinv = cms.double(100.0),
MinN = cms.int32(1),
MinPt = cms.double(1.0),
inputTag1 = cms.InputTag("hltEG35R9Id90HE10IsoMTrackIsoFilter"),
inputTag2 = cms.InputTag("hltPFTau35TrackMediumChargedIso"),
originTag1 = cms.VInputTag("hltEgammaCandidates"),
originTag2 = cms.VInputTag("hltSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(81),
triggerType2 = cms.int32(84)
)
process.hltPFCentralJetLooseIDQuad30 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFCentralJetLooseIDQuad30ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFCentralJetsLooseIDQuad30HT330 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFCentralJetsLooseIDQuadC30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFCentralJetsLooseIDQuadC30"),
minHt = cms.vdouble(330.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFCentralJetsLooseIDQuad30HT330ROIForBTag = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFCentralJetsLooseIDQuadC30ROIForBTag"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFCentralJetsLooseIDQuadC30ROIForBTag"),
minHt = cms.vdouble(330.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFDoubleJetLooseID83 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(83.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFDoubleJetLooseID83ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(83.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFDoubleJetLooseID88 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(88.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFDoubleJetLooseID88ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(88.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFDoubleJetLooseID90 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(90.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFDoubleJetLooseID90ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(90.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFFiveJet30HT400 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFJetsFive30er3p0"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFJetsFive30er3p0"),
minHt = cms.vdouble(400.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFFiveJet30HT400ROIForBTag = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFJetsFive30er3p0ROIForBTag"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFJetsFive30er3p0ROIForBTag"),
minHt = cms.vdouble(400.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT1050Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(1050.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT150Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(150.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT180Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(180.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT250Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(250.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT300Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30Eta5"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30Eta5"),
minHt = cms.vdouble(300.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT350Jet15 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet15"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet15"),
minHt = cms.vdouble(350.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT350Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(350.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT350Jet30Eta5 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30Eta5"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30Eta5"),
minHt = cms.vdouble(350.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT370Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(370.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT430Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(430.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT450Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(450.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT450Jet30ROIForBTag = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30ROIForBTag"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30ROIForBTag"),
minHt = cms.vdouble(450.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT500Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(500.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT510Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(510.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT590Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(590.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT600Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(600.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT60Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(60.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT680Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(680.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT700Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(700.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT780Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(780.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT800Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(800.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHT890Jet30 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTJet30"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTJet30"),
minHt = cms.vdouble(890.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFHTOpenFilter = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltPFHTForMC"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltPFHTForMC"),
minHt = cms.vdouble(-1.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFJetFilterFive30er3p0 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(5),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterFive30er3p0ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(5),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterSix30er2p5 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterSix30er2p5ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterSix32er2p5 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(32.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterSix32er2p5ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(32.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterSix36er2p5 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(36.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterSix36er2p5ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(6),
MinPt = cms.double(36.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterThree60er3p0 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterThree60er3p0ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterTwo100er3p0 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterTwo100er3p0ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterTwo120er3p0 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterTwo120er3p0ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(3.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterTwoC30 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.4),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetFilterTwoC30ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.4),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetForBtagSelector = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetForBtagSelectorAK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(330.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetForBtagSelectorROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFJetForDBtagSelectorAK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(300.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrectedMatchedToCaloJets300"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFMET100 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET110 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET120 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET130 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(130.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET140 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET200 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET250 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(250.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET300 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(300.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET50 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET70 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(70.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET75 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(75.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET80 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET85 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(85.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET90 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(90.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMET95 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(95.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu100 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu110 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu120 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu130 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(130.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu140 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu50 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu60 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu70 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(70.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu80 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETNoMu90 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(90.0),
inputTag = cms.InputTag("hltPFMETNoMuProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETOpenFilter = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltPFMETProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETTypeOne100 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltPFMETTypeOne"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETTypeOne110 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltPFMETTypeOne"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETTypeOne120 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltPFMETTypeOne"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETTypeOne130 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(130.0),
inputTag = cms.InputTag("hltPFMETTypeOne"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETTypeOne140 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFMETTypeOne"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETTypeOne200 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltPFMETTypeOne"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETVBF110 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltPFMETVBFProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETVBF120 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltPFMETVBFProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMETVBF130 = cms.EDFilter("HLT1PFMET",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(130.0),
inputTag = cms.InputTag("hltPFMETVBFProducer"),
saveTags = cms.bool(True),
triggerType = cms.int32(87)
)
process.hltPFMHTNoMuTightID100 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(100.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID110 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(110.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID120 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(120.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID130 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(130.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID140 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(140.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID60 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(60.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID70 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(70.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID80 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(80.0),
saveTags = cms.bool(True)
)
process.hltPFMHTNoMuTightID90 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTNoMuTightID"),
minMht = cms.vdouble(90.0),
saveTags = cms.bool(True)
)
process.hltPFMHTOpenFilter = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFHTForMC"),
minMht = cms.vdouble(-1.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID100 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(100.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID110 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(110.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID120 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(120.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID130 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(130.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID140 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(140.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID70 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(70.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID75 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(75.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID80 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(80.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID85 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(85.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID90 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(90.0),
saveTags = cms.bool(True)
)
process.hltPFMHTTightID95 = cms.EDFilter("HLTMhtFilter",
mhtLabels = cms.VInputTag("hltPFMHTTightID"),
minMht = cms.vdouble(95.0),
saveTags = cms.bool(True)
)
process.hltPFQuadJetLooseID15 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFQuadJetLooseID15ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID103 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(103.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID103ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(103.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID105 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(105.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID105ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(105.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID111 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(111.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID111ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(111.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID98 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(98.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSingleJetLooseID98ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(98.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFSixJet30HT400 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5"),
minHt = cms.vdouble(400.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFSixJet30HT400ROIForBTag = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5ROIForBTag"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5ROIForBTag"),
minHt = cms.vdouble(400.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFSixJet30HT450 = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5"),
minHt = cms.vdouble(450.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFSixJet30HT450ROIForBTag = cms.EDFilter("HLTHtMhtFilter",
htLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5ROIForBTag"),
meffSlope = cms.vdouble(1.0),
mhtLabels = cms.VInputTag("hltHtMhtPFJetsSix30er2p5ROIForBTag"),
minHt = cms.vdouble(450.0),
minMeff = cms.vdouble(0.0),
minMht = cms.vdouble(0.0),
saveTags = cms.bool(True)
)
process.hltPFTau180Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(180.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau180TrackPt50LooseAbsOrRelMediumHighPtRelaxedIso1Prong = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(180.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation1Prong"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau180TrackPt50LooseAbsOrRelMediumHighPtRelaxedIsoIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(180.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau20 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltPFTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau200Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau200TrackPt50LooseAbsOrRelMediumHighPtRelaxedIsoIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau20Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau20TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau20TrackLooseChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau220Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(220.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau220TrackPt50LooseAbsOrRelMediumHighPtRelaxedIsoIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(220.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau27 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltPFTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau27Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau27TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau27TrackLooseChargedIsoAgainstMuon = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau30 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltPFTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau30Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau30TrackLooseChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingLooseChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau35 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltPFTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau35Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau35TrackMediumChargedIso = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingMediumChargedIsolation"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau50 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltPFTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau50Track = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTau50TrackPt30MediumAbsOrRelIso1Prong = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt30MediumAbsOrRelIsolation1Prong"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTauTrack = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFinding"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTauTrackReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackFindingReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltPFTripleJetLooseID71 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(64.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID71ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(64.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID75 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(75.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID75ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(75.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID76 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(76.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID76ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(76.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID80 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPFTripleJetLooseID80ROIForBTag = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltPPSExpCalFilter = cms.EDFilter("HLTPPSCalFilter",
do_express = cms.bool(True),
maxTracks = cms.int32(1),
minTracks = cms.int32(1),
pixelLocalTrackInputTag = cms.InputTag("hltCTPPSPixelLocalTracks"),
triggerType = cms.int32(91)
)
process.hltPPSPrCalFilter = cms.EDFilter("HLTPPSCalFilter",
do_express = cms.bool(False),
maxTracks = cms.int32(4),
minTracks = cms.int32(1),
pixelLocalTrackInputTag = cms.InputTag("hltCTPPSPixelLocalTracks"),
triggerType = cms.int32(91)
)
process.hltParticleFlowNoMu = cms.EDFilter("GenericPFCandidateSelector",
cut = cms.string('particleId!=3'),
src = cms.InputTag("hltParticleFlow")
)
process.hltPhoton90CaloIdLPFHT700ClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG90PFHT700EtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.014),
thrRegularEE = cms.vdouble(0.035),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltPhoton90CaloIdLPFHT700HEFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltPhoton90CaloIdLPFHT700ClusterShapeFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(0.15),
thrOverEEE = cms.vdouble(0.1),
thrRegularEB = cms.vdouble(-1.0),
thrRegularEE = cms.vdouble(-1.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltPixelTrackerHVOn = cms.EDFilter("DetectorStateFilter",
DCSRecordLabel = cms.untracked.InputTag("hltOnlineMetaDataDigis"),
DcsStatusLabel = cms.untracked.InputTag("hltScalersRawToDigi"),
DebugOn = cms.untracked.bool(False),
DetectorType = cms.untracked.string('pixel')
)
process.hltPreAK4CaloJet100 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4CaloJet120 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4CaloJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4CaloJet40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4CaloJet50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4CaloJet80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4PFJet100 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4PFJet120 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4PFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4PFJet50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK4PFJet80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFHT750TrimMass50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFHT800TrimMass50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFHT850TrimMass50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFHT900TrimMass50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet140 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet25 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet260 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet320 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet330TrimMass30PFAK8BTagDeepCSVp1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet330TrimMass30PFAK8BTagDeepCSVp17 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet330TrimMass30PFAK8BoostedDoubleBnp2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet330TrimMass30PFAK8BoostedDoubleBnp4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet330TrimMass30PFAK8BoostedDoubleBp02 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet360TrimMass30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet380TrimMass30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet400 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet400TrimMass30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet420TrimMass30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet500 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet550 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJet80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd140 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd25 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd260 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd320 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd400 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd500 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAK8PFJetFwd80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreALCALumiPixelCountsExpressOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreALCALumiPixelCountsPromptOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreALCAP0Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreALCAPHISYMOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaEcalEtaEBonly = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaEcalEtaEEonly = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaEcalPhiSym = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaEcalPi0EBonly = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaEcalPi0EEonly = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaLumiPixelsCountsRandom = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaLumiPixelsCountsZeroBias = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreAlCaRPCMuonNormalisation = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK4DiJet110Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK4DiJet170Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK4DiJet20Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK4DiJet40Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK4DiJet70Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK4Jet300Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK8DiJet170Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK8Jet170DoubleMu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreBTagMuAK8Jet300Mu5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCDCL2cosmic10er1p0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCDCL2cosmic5p5er1p0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCalibrationOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloJet500NoJetID = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloJet550NoJetID = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET100NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET110NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET250NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET300NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET350NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET80NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMET90NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreCaloMHT90 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDQMCalibrationOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDQMEventDisplayOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDQMEventDisplayOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring(
'HLT_DoublePhoton85_v14',
'HLT_PFJet500_v21 / 3',
'HLT_AK4PFJet100_v19'
),
usePathStatus = cms.bool(False)
)
process.hltPreDQMOnlineBeamspotOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDQMOnlineBeamspotOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring(
'HLT_HT450_Beamspot_v11',
'HLT_HT300_Beamspot_v11',
'HLT_ZeroBias_Beamspot_v4'
),
usePathStatus = cms.bool(False)
)
process.hltPreDQMOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDQMOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring( (
'( HLT_Random_v3 OR HLT_HcalNZS_v13 OR HLT_HcalPhiSym_v15 OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE OR FALSE ) / 10',
'HLT_AK8PFJet360_TrimMass30_v18 / 3',
'HLT_AK8PFJet380_TrimMass30_v11 / 3',
'HLT_AK8PFJet400_TrimMass30_v12 / 3',
'HLT_AK8PFJet420_TrimMass30_v11 / 3',
'HLT_AK8PFHT750_TrimMass50_v12 / 3',
'HLT_AK8PFHT800_TrimMass50_v12 / 3',
'HLT_AK8PFHT850_TrimMass50_v11 / 3',
'HLT_AK8PFHT900_TrimMass50_v11 / 3',
'HLT_CaloJet500_NoJetID_v12 / 3',
'HLT_CaloJet550_NoJetID_v7 / 3',
'HLT_DoubleMu5_Upsilon_DoubleEle3_CaloIdL_TrackIdL_v4 / 3',
'HLT_DoubleMu3_DoubleEle7p5_CaloIdL_TrackIdL_Upsilon_v4 / 3',
'HLT_Trimuon5_3p5_2_Upsilon_Muon_v5 / 3',
'HLT_TrimuonOpen_5_3p5_2_Upsilon_Muon_v3 / 3',
'HLT_DoubleEle25_CaloIdL_MW_v4 / 3',
'HLT_DoubleEle27_CaloIdL_MW_v4 / 3',
'HLT_DoubleEle33_CaloIdL_MW_v17 / 3',
'HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_DZ_PFHT350_v20 / 3',
'HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_PFHT350_v20 / 3',
'HLT_Ele27_Ele37_CaloIdL_MW_v4 / 3',
'HLT_Mu27_Ele37_CaloIdL_MW_v5 / 3',
'HLT_Mu37_Ele27_CaloIdL_MW_v5 / 3',
'HLT_Mu37_TkMu27_v5 / 3',
'HLT_DoubleMu4_3_Bs_v14 / 3',
'HLT_DoubleMu4_3_Jpsi_v2 / 3',
'HLT_DoubleMu4_JpsiTrk_Displaced_v15 / 3',
'HLT_DoubleMu4_LowMassNonResonantTrk_Displaced_v15 / 3',
'HLT_DoubleMu3_Trk_Tau3mu_v12 / 3',
'HLT_DoubleMu3_TkMu_DsTau3Mu_v4 / 3',
'HLT_DoubleMu4_PsiPrimeTrk_Displaced_v15 / 3',
'HLT_DoubleMu4_Mass3p8_DZ_PFHT350_v8 / 3',
'HLT_Mu3_PFJet40_v16 / 3',
'HLT_Mu7p5_L2Mu2_Jpsi_v10 / 3',
'HLT_Mu7p5_L2Mu2_Upsilon_v10 / 3',
'HLT_Mu7p5_Track2_Jpsi_v11 / 3',
'HLT_Mu7p5_Track3p5_Jpsi_v11 / 3',
'HLT_Mu7p5_Track7_Jpsi_v11 / 3',
'HLT_Mu7p5_Track2_Upsilon_v11 / 3',
'HLT_Mu7p5_Track3p5_Upsilon_v11 / 3',
'HLT_Mu7p5_Track7_Upsilon_v11 / 3',
'HLT_DoublePhoton33_CaloIdL_v6 / 3',
'HLT_DoublePhoton70_v6 / 3',
'HLT_DoublePhoton85_v14 / 3',
'HLT_Ele20_WPTight_Gsf_v6 / 3',
'HLT_Ele15_WPLoose_Gsf_v3 / 3',
'HLT_Ele17_WPLoose_Gsf_v3 / 3',
'HLT_Ele20_WPLoose_Gsf_v6 / 3',
'HLT_Ele20_eta2p1_WPLoose_Gsf_v6 / 3',
'HLT_DiEle27_WPTightCaloOnly_L1DoubleEG_v4 / 3',
'HLT_Ele27_WPTight_Gsf_v16 / 3',
'HLT_Ele28_WPTight_Gsf_v1 / 3',
'HLT_Ele30_WPTight_Gsf_v1 / 3',
'HLT_Ele32_WPTight_Gsf_v15 / 3',
'HLT_Ele35_WPTight_Gsf_v9 / 3',
'HLT_Ele35_WPTight_Gsf_L1EGMT_v5 / 3',
'HLT_Ele38_WPTight_Gsf_v9 / 3',
'HLT_Ele40_WPTight_Gsf_v9 / 3',
'HLT_Ele32_WPTight_Gsf_L1DoubleEG_v9 / 3',
'HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTauHPS30_eta2p1_CrossL1_v1 / 3',
'HLT_Ele24_eta2p1_WPTight_Gsf_MediumChargedIsoPFTauHPS30_eta2p1_CrossL1_v1 / 3',
'HLT_Ele24_eta2p1_WPTight_Gsf_TightChargedIsoPFTauHPS30_eta2p1_CrossL1_v1 / 3',
'HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1 / 3',
'HLT_Ele24_eta2p1_WPTight_Gsf_MediumChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1 / 3',
'HLT_Ele24_eta2p1_WPTight_Gsf_TightChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1 / 3',
'HLT_IsoMu20_eta2p1_LooseChargedIsoPFTauHPS27_eta2p1_CrossL1_v4 / 3',
'HLT_IsoMu20_eta2p1_MediumChargedIsoPFTauHPS27_eta2p1_CrossL1_v1 / 3',
'HLT_IsoMu20_eta2p1_TightChargedIsoPFTauHPS27_eta2p1_CrossL1_v1 / 3',
'HLT_IsoMu20_eta2p1_LooseChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1 / 3',
'HLT_IsoMu20_eta2p1_MediumChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1 / 3',
'HLT_IsoMu20_eta2p1_TightChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1 / 3',
'HLT_IsoMu20_v15 / 3',
'HLT_IsoMu24_v13 / 3',
'HLT_IsoMu24_eta2p1_v15 / 3',
'HLT_IsoMu27_v16 / 3',
'HLT_IsoMu30_v4 / 3',
'HLT_UncorrectedJetE30_NoBPTX_v6 / 3',
'HLT_UncorrectedJetE30_NoBPTX3BX_v6 / 3',
'HLT_UncorrectedJetE60_NoBPTX3BX_v6 / 3',
'HLT_UncorrectedJetE70_NoBPTX3BX_v6 / 3',
'HLT_L1SingleMu18_v3 / 3',
'HLT_L1SingleMu25_v2 / 3',
'HLT_L1SingleMuCosmics_v1',
'HLT_L2Mu10_v7 / 3',
'HLT_L2Mu10_NoVertex_NoBPTX3BX_v5 / 3',
'HLT_L2Mu10_NoVertex_NoBPTX_v6 / 3',
'HLT_L2Mu45_NoVertex_3Sta_NoBPTX3BX_v4 / 3',
'HLT_L2Mu40_NoVertex_3Sta_NoBPTX3BX_v5 / 3',
'HLT_L2Mu50_v2 / 3',
'HLT_DoubleL2Mu30NoVtx_2Cha_CosmicSeed_Eta2p4_v2 / 3',
'HLT_DoubleL2Mu30NoVtx_2Cha_Eta2p4_v2 / 3',
'HLT_DoubleL2Mu50_v2 / 3',
'HLT_DoubleL2Mu23NoVtx_2Cha_CosmicSeed_v2 / 3',
'HLT_DoubleL2Mu23NoVtx_2Cha_CosmicSeed_NoL2Matched_v2 / 3',
'HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_v2 / 3',
'HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_NoL2Matched_v2 / 3',
'HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_Eta2p4_v2 / 3',
'HLT_DoubleL2Mu23NoVtx_2Cha_v2 / 3',
'HLT_DoubleL2Mu23NoVtx_2Cha_NoL2Matched_v2 / 3',
'HLT_DoubleL2Mu25NoVtx_2Cha_v2 / 3',
'HLT_DoubleL2Mu25NoVtx_2Cha_NoL2Matched_v2 / 3',
'HLT_DoubleL2Mu25NoVtx_2Cha_Eta2p4_v2 / 3',
'HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_v14 / 3',
'HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_v3 / 3',
'HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v15 / 3',
'HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_v3 / 3',
'HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_Mass8_v5 / 3',
'HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_Mass8_v3 / 3',
'HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_Mass3p8_v5 / 3',
'HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_Mass3p8_v3 / 3',
'HLT_Mu25_TkMu0_Onia_v8 / 3',
'HLT_Mu30_TkMu0_Psi_v1 / 3',
'HLT_Mu30_TkMu0_Upsilon_v1 / 3',
'HLT_Mu20_TkMu0_Phi_v8 / 3',
'HLT_Mu25_TkMu0_Phi_v8 / 3',
'HLT_Mu12_v3 / 3',
'HLT_Mu15_v3 / 3',
'HLT_Mu20_v12 / 3',
'HLT_Mu27_v13 / 3',
'HLT_Mu50_v13 / 3',
'HLT_Mu55_v3 / 3',
'HLT_OldMu100_v3 / 3',
'HLT_TkMu100_v2 / 3',
'HLT_DiPFJet15_NoCaloMatched_v16 / 3',
'HLT_DiPFJet25_NoCaloMatched_v16 / 3',
'HLT_DiPFJet15_FBEta3_NoCaloMatched_v17 / 3',
'HLT_DiPFJet25_FBEta3_NoCaloMatched_v17 / 3',
'HLT_DiPFJetAve40_v14 / 3',
'HLT_DiPFJetAve60_v14 / 3',
'HLT_DiPFJetAve80_v13 / 3',
'HLT_DiPFJetAve140_v13 / 3',
'HLT_DiPFJetAve200_v13 / 3',
'HLT_DiPFJetAve260_v14 / 3',
'HLT_DiPFJetAve320_v14 / 3',
'HLT_DiPFJetAve400_v14 / 3',
'HLT_DiPFJetAve500_v14 / 3',
'HLT_DiPFJetAve15_HFJEC_v17 / 3',
'HLT_DiPFJetAve25_HFJEC_v17 / 3',
'HLT_DiPFJetAve35_HFJEC_v17 / 3',
'HLT_DiPFJetAve60_HFJEC_v15 / 3',
'HLT_DiPFJetAve80_HFJEC_v16 / 3',
'HLT_DiPFJetAve100_HFJEC_v16 / 3',
'HLT_DiPFJetAve160_HFJEC_v16 / 3',
'HLT_DiPFJetAve220_HFJEC_v16 / 3',
'HLT_DiPFJetAve300_HFJEC_v16 / 3',
'HLT_AK8PFJet15_v3 / 3',
'HLT_AK8PFJet25_v3 / 3',
'HLT_AK8PFJet40_v16 / 3',
'HLT_AK8PFJet60_v15 / 3',
'HLT_AK8PFJet80_v15 / 3',
'HLT_AK8PFJet140_v15 / 3',
'HLT_AK8PFJet200_v15 / 3',
'HLT_AK8PFJet260_v16 / 3',
'HLT_AK8PFJet320_v16 / 3',
'HLT_AK8PFJet400_v16 / 3',
'HLT_AK8PFJet450_v16 / 3',
'HLT_AK8PFJet500_v16 / 3',
'HLT_AK8PFJet550_v11 / 3',
'HLT_PFJet15_v3 / 3',
'HLT_PFJet25_v3 / 3',
'HLT_PFJet40_v21 / 3',
'HLT_PFJet60_v21 / 3',
'HLT_PFJet80_v20 / 3',
'HLT_PFJet140_v19 / 3',
'HLT_PFJet200_v19 / 3',
'HLT_PFJet260_v20 / 3',
'HLT_PFJet320_v20 / 3',
'HLT_PFJet400_v20 / 3',
'HLT_PFJet450_v21 / 3',
'HLT_PFJet500_v21 / 3',
'HLT_PFJet550_v11 / 3',
'HLT_PFJetFwd15_v3 / 3',
'HLT_PFJetFwd25_v3 / 3',
'HLT_PFJetFwd40_v19 / 3',
'HLT_PFJetFwd60_v19 / 3',
'HLT_PFJetFwd80_v18 / 3',
'HLT_PFJetFwd140_v18 / 3',
'HLT_PFJetFwd200_v18 / 3',
'HLT_PFJetFwd260_v19 / 3',
'HLT_PFJetFwd320_v19 / 3',
'HLT_PFJetFwd400_v19 / 3',
'HLT_PFJetFwd450_v19 / 3',
'HLT_PFJetFwd500_v19 / 3',
'HLT_AK8PFJetFwd15_v3 / 3',
'HLT_AK8PFJetFwd25_v3 / 3',
'HLT_AK8PFJetFwd40_v15 / 3',
'HLT_AK8PFJetFwd60_v14 / 3',
'HLT_AK8PFJetFwd80_v14 / 3',
'HLT_AK8PFJetFwd140_v14 / 3',
'HLT_AK8PFJetFwd200_v14 / 3',
'HLT_AK8PFJetFwd260_v15 / 3',
'HLT_AK8PFJetFwd320_v15 / 3',
'HLT_AK8PFJetFwd400_v15 / 3',
'HLT_AK8PFJetFwd450_v15 / 3',
'HLT_AK8PFJetFwd500_v15 / 3',
'HLT_PFHT180_v17 / 3',
'HLT_PFHT250_v17 / 3',
'HLT_PFHT370_v17 / 3',
'HLT_PFHT430_v17 / 3',
'HLT_PFHT510_v17 / 3',
'HLT_PFHT590_v17 / 3',
'HLT_PFHT680_v17 / 3',
'HLT_PFHT780_v17 / 3',
'HLT_PFHT890_v17 / 3',
'HLT_PFHT1050_v18 / 3',
'HLT_PFHT500_PFMET100_PFMHT100_IDTight_v12 / 3',
'HLT_PFHT500_PFMET110_PFMHT110_IDTight_v12 / 3',
'HLT_PFHT700_PFMET85_PFMHT85_IDTight_v12 / 3',
'HLT_PFHT700_PFMET95_PFMHT95_IDTight_v12 / 3',
'HLT_PFHT800_PFMET75_PFMHT75_IDTight_v12 / 3',
'HLT_PFHT800_PFMET85_PFMHT85_IDTight_v12 / 3',
'HLT_PFMET110_PFMHT110_IDTight_v20 / 3',
'HLT_PFMET120_PFMHT120_IDTight_v20 / 3',
'HLT_PFMET130_PFMHT130_IDTight_v20 / 3',
'HLT_PFMET140_PFMHT140_IDTight_v20 / 3',
'HLT_PFMET100_PFMHT100_IDTight_CaloBTagDeepCSV_3p1_v8 / 3',
'HLT_PFMET110_PFMHT110_IDTight_CaloBTagDeepCSV_3p1_v8 / 3',
'HLT_PFMET120_PFMHT120_IDTight_CaloBTagDeepCSV_3p1_v8 / 3',
'HLT_PFMET130_PFMHT130_IDTight_CaloBTagDeepCSV_3p1_v8 / 3',
'HLT_PFMET140_PFMHT140_IDTight_CaloBTagDeepCSV_3p1_v8 / 3',
'HLT_PFMET120_PFMHT120_IDTight_PFHT60_v9 / 3',
'HLT_PFMETNoMu120_PFMHTNoMu120_IDTight_PFHT60_v9 / 3',
'HLT_PFMETTypeOne120_PFMHT120_IDTight_PFHT60_v9 / 3',
'HLT_PFMETTypeOne110_PFMHT110_IDTight_v12 / 3',
'HLT_PFMETTypeOne120_PFMHT120_IDTight_v12 / 3',
'HLT_PFMETTypeOne130_PFMHT130_IDTight_v12 / 3',
'HLT_PFMETTypeOne140_PFMHT140_IDTight_v11 / 3',
'HLT_PFMETNoMu110_PFMHTNoMu110_IDTight_v20 / 3',
'HLT_PFMETNoMu120_PFMHTNoMu120_IDTight_v20 / 3',
'HLT_PFMETNoMu130_PFMHTNoMu130_IDTight_v19 / 3',
'HLT_PFMETNoMu140_PFMHTNoMu140_IDTight_v19 / 3',
'HLT_MonoCentralPFJet80_PFMETNoMu110_PFMHTNoMu110_IDTight_v20 / 3',
'HLT_MonoCentralPFJet80_PFMETNoMu120_PFMHTNoMu120_IDTight_v20 / 3',
'HLT_MonoCentralPFJet80_PFMETNoMu130_PFMHTNoMu130_IDTight_v19 / 3',
'HLT_MonoCentralPFJet80_PFMETNoMu140_PFMHTNoMu140_IDTight_v19 / 3',
'HLT_L1ETMHadSeeds_v2 / 3',
'HLT_CaloMHT90_v4 / 3',
'HLT_CaloMET80_NotCleaned_v4 / 3',
'HLT_CaloMET90_NotCleaned_v4 / 3',
'HLT_CaloMET100_NotCleaned_v4 / 3',
'HLT_CaloMET110_NotCleaned_v4 / 3',
'HLT_CaloMET250_NotCleaned_v4 / 3',
'HLT_CaloMET300_NotCleaned_v4 / 3',
'HLT_CaloMET350_NotCleaned_v4 / 3',
'HLT_PFMET200_NotCleaned_v9 / 3',
'HLT_PFMET250_NotCleaned_v9 / 3',
'HLT_PFMET300_NotCleaned_v9 / 3',
'HLT_PFMET200_BeamHaloCleaned_v9 / 3',
'HLT_PFMETTypeOne200_BeamHaloCleaned_v9 / 3',
'HLT_MET105_IsoTrk50_v9 / 3',
'HLT_MET120_IsoTrk50_v9 / 3',
'HLT_SingleJet30_Mu12_SinglePFJet40_v11 / 3',
'HLT_Mu12_DoublePFJets40_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_Mu12_DoublePFJets100_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_Mu12_DoublePFJets200_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_Mu12_DoublePFJets350_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_Mu12_DoublePFJets40MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 / 3',
'HLT_Mu12_DoublePFJets54MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 / 3',
'HLT_Mu12_DoublePFJets62MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 / 3',
'HLT_DoublePFJets40_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_DoublePFJets100_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_DoublePFJets200_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_DoublePFJets350_CaloBTagDeepCSV_p71_v2 / 3',
'HLT_DoublePFJets116MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 / 3',
'HLT_DoublePFJets128MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 / 3',
'HLT_Photon300_NoHE_v12 / 3',
'HLT_Mu8_TrkIsoVVL_v12 / 3',
'HLT_Mu8_DiEle12_CaloIdL_TrackIdL_DZ_v18 / 3',
'HLT_Mu8_DiEle12_CaloIdL_TrackIdL_v18 / 3',
'HLT_Mu8_Ele8_CaloIdM_TrackIdM_Mass8_PFHT350_DZ_v19 / 3',
'HLT_Mu8_Ele8_CaloIdM_TrackIdM_Mass8_PFHT350_v19 / 3',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v13 / 3',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_v1 / 3',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_v1 / 3',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_PFBtagDeepCSV_1p5_v1 / 3',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_CaloBtagDeepCSV_1p5_v1 / 3',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v11 / 3',
'HLT_Mu17_TrkIsoVVL_v13 / 3',
'HLT_Mu19_TrkIsoVVL_v4 / 3',
'HLT_BTagMu_AK4DiJet20_Mu5_v13 / 3',
'HLT_BTagMu_AK4DiJet40_Mu5_v13 / 3',
'HLT_BTagMu_AK4DiJet70_Mu5_v13 / 3',
'HLT_BTagMu_AK4DiJet110_Mu5_v13 / 3',
'HLT_BTagMu_AK4DiJet170_Mu5_v12 / 3',
'HLT_BTagMu_AK4Jet300_Mu5_v12 / 3',
'HLT_BTagMu_AK8DiJet170_Mu5_v9 / 3',
'HLT_BTagMu_AK8Jet170_DoubleMu5_v2 / 3',
'HLT_BTagMu_AK8Jet300_Mu5_v12 / 3',
'HLT_BTagMu_AK4DiJet20_Mu5_noalgo_v13 / 3',
'HLT_BTagMu_AK4DiJet40_Mu5_noalgo_v13 / 3',
'HLT_BTagMu_AK4DiJet70_Mu5_noalgo_v13 / 3',
'HLT_BTagMu_AK4DiJet110_Mu5_noalgo_v13 / 3',
'HLT_BTagMu_AK4DiJet170_Mu5_noalgo_v12 / 3',
'HLT_BTagMu_AK4Jet300_Mu5_noalgo_v12 / 3',
'HLT_BTagMu_AK8DiJet170_Mu5_noalgo_v9 / 3',
'HLT_BTagMu_AK8Jet170_DoubleMu5_noalgo_v2 / 3',
'HLT_BTagMu_AK8Jet300_Mu5_noalgo_v12 / 3',
'HLT_Ele15_Ele8_CaloIdL_TrackIdL_IsoVL_v3 / 3',
'HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v19 / 3',
'HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_v19 / 3',
'HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v15 / 3',
'HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v7 / 3',
'HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v7 / 3',
'HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v15 / 3',
'HLT_Mu12_DoublePhoton20_v5 / 3',
'HLT_TriplePhoton_20_20_20_CaloIdLV2_v3 / 3',
'HLT_TriplePhoton_20_20_20_CaloIdLV2_R9IdVL_v3 / 3',
'HLT_TriplePhoton_30_30_10_CaloIdLV2_v4 / 3',
'HLT_TriplePhoton_30_30_10_CaloIdLV2_R9IdVL_v4 / 3',
'HLT_TriplePhoton_35_35_5_CaloIdLV2_R9IdVL_v4 / 3',
'HLT_Photon20_v2 / 3',
'HLT_Photon33_v5 / 3',
'HLT_Photon50_v13 / 3',
'HLT_Photon75_v13 / 3',
'HLT_Photon90_v13 / 3',
'HLT_Photon120_v13 / 3',
'HLT_Photon150_v6 / 3',
'HLT_Photon175_v14 / 3',
'HLT_Photon200_v13 / 3',
'HLT_Photon100EB_TightID_TightIso_v2 / 3',
'HLT_Photon110EB_TightID_TightIso_v2 / 3',
'HLT_Photon120EB_TightID_TightIso_v2 / 3',
'HLT_Photon100EBHE10_v2 / 3',
'HLT_Photon100EEHE10_v2 / 3',
'HLT_Photon100EE_TightID_TightIso_v2 / 3',
'HLT_Photon50_R9Id90_HE10_IsoM_v14 / 3',
'HLT_Photon75_R9Id90_HE10_IsoM_v14 / 3',
'HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_CaloMJJ300_PFJetsMJJ400DEta3_v5 / 3',
'HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_CaloMJJ400_PFJetsMJJ600DEta3_v5 / 3',
'HLT_Photon90_R9Id90_HE10_IsoM_v14 / 3',
'HLT_Photon120_R9Id90_HE10_IsoM_v14 / 3',
'HLT_Photon165_R9Id90_HE10_IsoM_v15 / 3',
'HLT_Photon90_CaloIdL_PFHT700_v16 / 3',
'HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v13 / 3',
'HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v13 / 3',
'HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_PixelVeto_Mass55_v15 / 3',
'HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_NoPixelVeto_Mass55_v13 / 3',
'HLT_Photon35_TwoProngs35_v1 / 3',
'HLT_IsoMu24_TwoProngs35_v1 / 3',
'HLT_Dimuon0_Jpsi_L1_NoOS_v7 / 3',
'HLT_Dimuon0_Jpsi_NoVertexing_NoOS_v7 / 3',
'HLT_Dimuon0_Jpsi_v8 / 3',
'HLT_Dimuon0_Jpsi_NoVertexing_v8 / 3',
'HLT_Dimuon0_Jpsi_L1_4R_0er1p5R_v7 / 3',
'HLT_Dimuon0_Jpsi_NoVertexing_L1_4R_0er1p5R_v7 / 3',
'HLT_Dimuon0_Jpsi3p5_Muon2_v5 / 3',
'HLT_Dimuon0_Upsilon_L1_4p5_v9 / 3',
'HLT_Dimuon0_Upsilon_L1_5_v9 / 3',
'HLT_Dimuon0_Upsilon_L1_4p5NoOS_v8 / 3',
'HLT_Dimuon0_Upsilon_L1_4p5er2p0_v9 / 3',
'HLT_Dimuon0_Upsilon_L1_4p5er2p0M_v7 / 3',
'HLT_Dimuon0_Upsilon_NoVertexing_v7 / 3',
'HLT_Dimuon0_Upsilon_L1_5M_v8 / 3',
'HLT_Dimuon0_LowMass_L1_0er1p5R_v7 / 3',
'HLT_Dimuon0_LowMass_L1_0er1p5_v8 / 3',
'HLT_Dimuon0_LowMass_v8 / 3',
'HLT_Dimuon0_LowMass_L1_4_v8 / 3',
'HLT_Dimuon0_LowMass_L1_4R_v7 / 3',
'HLT_Dimuon0_LowMass_L1_TM530_v6 / 3',
'HLT_Dimuon0_Upsilon_Muon_L1_TM0_v6 / 3',
'HLT_Dimuon0_Upsilon_Muon_NoL1Mass_v6 / 3',
'HLT_TripleMu_5_3_3_Mass3p8_DZ_v8 / 3',
'HLT_TripleMu_10_5_5_DZ_v10 / 3',
'HLT_TripleMu_12_10_5_v10 / 3',
'HLT_Tau3Mu_Mu7_Mu1_TkMu1_Tau15_v4 / 3',
'HLT_Tau3Mu_Mu7_Mu1_TkMu1_Tau15_Charge1_v4 / 3',
'HLT_Tau3Mu_Mu7_Mu1_TkMu1_IsoTau15_v4 / 3',
'HLT_Tau3Mu_Mu7_Mu1_TkMu1_IsoTau15_Charge1_v4 / 3',
'HLT_DoubleMu3_DZ_PFMET50_PFMHT60_v10 / 3',
'HLT_DoubleMu3_DZ_PFMET70_PFMHT70_v10 / 3',
'HLT_DoubleMu3_DZ_PFMET90_PFMHT90_v10 / 3',
'HLT_DoubleMu3_Trk_Tau3mu_NoL1Mass_v6 / 3',
'HLT_DoubleMu4_Jpsi_Displaced_v7 / 3',
'HLT_DoubleMu4_Jpsi_NoVertexing_v7 / 3',
'HLT_DoubleMu4_JpsiTrkTrk_Displaced_v7 / 3',
'HLT_DoubleMu43NoFiltersNoVtx_v4 / 3',
'HLT_DoubleMu48NoFiltersNoVtx_v4 / 3',
'HLT_Mu43NoFiltersNoVtx_Photon43_CaloIdL_v5 / 3',
'HLT_Mu48NoFiltersNoVtx_Photon48_CaloIdL_v5 / 3',
'HLT_Mu38NoFiltersNoVtxDisplaced_Photon38_CaloIdL_v1 / 3',
'HLT_Mu43NoFiltersNoVtxDisplaced_Photon43_CaloIdL_v1 / 3',
'HLT_DoubleMu33NoFiltersNoVtxDisplaced_v1 / 3',
'HLT_DoubleMu40NoFiltersNoVtxDisplaced_v1 / 3',
'HLT_DoubleMu20_7_Mass0to30_L1_DM4_v7 / 3',
'HLT_DoubleMu20_7_Mass0to30_L1_DM4EG_v8 / 3',
'HLT_HT425_v9 / 3',
'HLT_HT430_DisplacedDijet40_DisplacedTrack_v13 / 3',
'HLT_HT500_DisplacedDijet40_DisplacedTrack_v13 / 3',
'HLT_HT430_DisplacedDijet60_DisplacedTrack_v13 / 3',
'HLT_HT400_DisplacedDijet40_DisplacedTrack_v13 / 3',
'HLT_HT650_DisplacedDijet60_Inclusive_v13 / 3',
'HLT_HT550_DisplacedDijet60_Inclusive_v13 / 3',
'HLT_DiJet110_35_Mjj650_PFMET110_v9 / 3',
'HLT_DiJet110_35_Mjj650_PFMET120_v9 / 3',
'HLT_DiJet110_35_Mjj650_PFMET130_v9 / 3',
'HLT_TripleJet110_35_35_Mjj650_PFMET110_v9 / 3',
'HLT_TripleJet110_35_35_Mjj650_PFMET120_v9 / 3',
'HLT_TripleJet110_35_35_Mjj650_PFMET130_v9 / 3',
'HLT_Ele30_eta2p1_WPTight_Gsf_CentralPFJet35_EleCleaned_v13 / 3',
'HLT_Ele28_eta2p1_WPTight_Gsf_HT150_v13 / 3',
'HLT_Ele28_HighEta_SC20_Mass55_v13 / 3',
'HLT_DoubleMu20_7_Mass0to30_Photon23_v8 / 3',
'HLT_Ele15_IsoVVVL_PFHT450_CaloBTagDeepCSV_4p5_v8 / 3',
'HLT_Ele15_IsoVVVL_PFHT450_PFMET50_v16 / 3',
'HLT_Ele15_IsoVVVL_PFHT450_v16 / 3',
'HLT_Ele50_IsoVVVL_PFHT450_v16 / 3',
'HLT_Ele15_IsoVVVL_PFHT600_v20 / 3',
'HLT_Mu4_TrkIsoVVL_DiPFJet90_40_DEta3p5_MJJ750_HTT300_PFMETNoMu60_v15 / 3',
'HLT_Mu8_TrkIsoVVL_DiPFJet40_DEta3p5_MJJ750_HTT300_PFMETNoMu60_v16 / 3',
'HLT_Mu10_TrkIsoVVL_DiPFJet40_DEta3p5_MJJ750_HTT350_PFMETNoMu60_v15 / 3',
'HLT_Mu15_IsoVVVL_PFHT450_CaloBTagDeepCSV_4p5_v8 / 3',
'HLT_Mu15_IsoVVVL_PFHT450_PFMET50_v15 / 3',
'HLT_Mu15_IsoVVVL_PFHT450_v15 / 3',
'HLT_Mu50_IsoVVVL_PFHT450_v15 / 3',
'HLT_Mu15_IsoVVVL_PFHT600_v19 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMET70_PFMHT70_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMET80_PFMHT80_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMET90_PFMHT90_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMET100_PFMHT100_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu70_PFMHTNoMu70_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu80_PFMHTNoMu80_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu90_PFMHTNoMu90_IDTight_v2 / 3',
'HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu100_PFMHTNoMu100_IDTight_v2 / 3',
'HLT_Dimuon10_PsiPrime_Barrel_Seagulls_v7 / 3',
'HLT_Dimuon20_Jpsi_Barrel_Seagulls_v7 / 3',
'HLT_Dimuon12_Upsilon_y1p4_v2 / 3',
'HLT_Dimuon14_Phi_Barrel_Seagulls_v7 / 3',
'HLT_Dimuon18_PsiPrime_v14 / 3',
'HLT_Dimuon25_Jpsi_v14 / 3',
'HLT_Dimuon18_PsiPrime_noCorrL1_v6 / 3',
'HLT_Dimuon24_Upsilon_noCorrL1_v6 / 3',
'HLT_Dimuon24_Phi_noCorrL1_v6 / 3',
'HLT_Dimuon25_Jpsi_noCorrL1_v6 / 3',
'HLT_DiMu4_Ele9_CaloIdL_TrackIdL_DZ_Mass3p8_v17 / 3',
'HLT_DiMu9_Ele9_CaloIdL_TrackIdL_DZ_v17 / 3',
'HLT_DiMu9_Ele9_CaloIdL_TrackIdL_v17 / 3',
'HLT_TrkMu12_DoubleTrkMu5NoFiltersNoVtx_v6 / 3',
'HLT_TrkMu16_DoubleTrkMu6NoFiltersNoVtx_v12 / 3',
'HLT_TrkMu17_DoubleTrkMu8NoFiltersNoVtx_v13 / 3',
'HLT_Mu8_v12 / 3',
'HLT_Mu17_v13 / 3',
'HLT_Mu19_v4 / 3',
'HLT_Mu17_Photon30_IsoCaloId_v6 / 3',
'HLT_Ele8_CaloIdL_TrackIdL_IsoVL_PFJet30_v16 / 3',
'HLT_Ele12_CaloIdL_TrackIdL_IsoVL_PFJet30_v18 / 3',
'HLT_Ele15_CaloIdL_TrackIdL_IsoVL_PFJet30_v3 / 3',
'HLT_Ele23_CaloIdL_TrackIdL_IsoVL_PFJet30_v18 / 3',
'HLT_Ele8_CaloIdM_TrackIdM_PFJet30_v18 / 3',
'HLT_Ele17_CaloIdM_TrackIdM_PFJet30_v16 / 3',
'HLT_Ele23_CaloIdM_TrackIdM_PFJet30_v18 / 3',
'HLT_Ele50_CaloIdVT_GsfTrkIdT_PFJet165_v18 / 3',
'HLT_Ele115_CaloIdVT_GsfTrkIdT_v14 / 3',
'HLT_Ele135_CaloIdVT_GsfTrkIdT_v7 / 3',
'HLT_Ele145_CaloIdVT_GsfTrkIdT_v8 / 3',
'HLT_Ele200_CaloIdVT_GsfTrkIdT_v8 / 3',
'HLT_Ele250_CaloIdVT_GsfTrkIdT_v13 / 3',
'HLT_Ele300_CaloIdVT_GsfTrkIdT_v13 / 3',
'HLT_PFHT330PT30_QuadPFJet_75_60_45_40_TriplePFBTagDeepCSV_4p5_v3 / 3',
'HLT_PFHT330PT30_QuadPFJet_75_60_45_40_v9 / 3',
'HLT_PFHT400_SixPFJet32_DoublePFBTagDeepCSV_2p94_v8 / 3',
'HLT_PFHT400_SixPFJet32_v8 / 3',
'HLT_PFHT450_SixPFJet36_PFBTagDeepCSV_1p59_v7 / 3',
'HLT_PFHT450_SixPFJet36_v7 / 3',
'HLT_PFHT350_v19 / 3',
'HLT_PFHT350MinPFJet15_v9 / 3',
'HLT_Photon60_R9Id90_CaloIdL_IsoL_v5 / 3',
'HLT_Photon60_R9Id90_CaloIdL_IsoL_DisplacedIdL_v5 / 3',
'HLT_Photon60_R9Id90_CaloIdL_IsoL_DisplacedIdL_PFHT350MinPFJet15_v11 / 3',
'HLT_ECALHT800_v10 / 3',
'HLT_DiSC30_18_EIso_AND_HE_Mass70_v13 / 3',
'HLT_Physics_v7',
'HLT_Random_v3 / 3',
'HLT_ZeroBias_v6 / 3',
'HLT_ZeroBias_Alignment_v1 / 3',
'HLT_AK4CaloJet30_v11 / 3',
'HLT_AK4CaloJet40_v10 / 3',
'HLT_AK4CaloJet50_v10 / 3',
'HLT_AK4CaloJet80_v10 / 3',
'HLT_AK4CaloJet100_v10 / 3',
'HLT_AK4CaloJet120_v9 / 3',
'HLT_AK4PFJet30_v19 / 3',
'HLT_AK4PFJet50_v19 / 3',
'HLT_AK4PFJet80_v19 / 3',
'HLT_AK4PFJet100_v19 / 3',
'HLT_AK4PFJet120_v18 / 3',
'HLT_SinglePhoton10_Eta3p1ForPPRef_v8 / 3',
'HLT_SinglePhoton20_Eta3p1ForPPRef_v9 / 3',
'HLT_SinglePhoton30_Eta3p1ForPPRef_v9 / 3',
'HLT_Photon20_HoverELoose_v10 / 3',
'HLT_Photon30_HoverELoose_v10 / 3',
'HLT_L1UnpairedBunchBptxMinus_v2 / 3',
'HLT_L1UnpairedBunchBptxPlus_v2 / 3',
'HLT_L1NotBptxOR_v3 / 3',
'HLT_L1_CDC_SingleMu_3_er1p2_TOP120_DPHI2p618_3p142_v2 / 3',
'HLT_CDC_L2cosmic_10_er1p0_v1 / 3',
'HLT_CDC_L2cosmic_5p5_er1p0_v1 / 3',
'HLT_HcalNZS_v13 / 3',
'HLT_HcalPhiSym_v15 / 3',
'HLT_HcalIsolatedbunch_v5 / 3',
'HLT_IsoTrackHB_v4 / 3',
'HLT_IsoTrackHE_v4 / 3',
'HLT_ZeroBias_FirstCollisionAfterAbortGap_v5 / 3',
'HLT_ZeroBias_IsolatedBunches_v5 / 3',
'HLT_ZeroBias_FirstCollisionInTrain_v4 / 3',
'HLT_ZeroBias_LastCollisionInTrain_v3 / 3',
'HLT_ZeroBias_FirstBXAfterTrain_v3 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET90_v12 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET100_v12 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET110_v8 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET120_v8 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET130_v8 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET140_v3 / 3',
'HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_v12 / 3',
'HLT_MediumChargedIsoPFTau180HighPtRelaxedIso_Trk50_eta2p1_1pr_v11 / 3',
'HLT_MediumChargedIsoPFTau180HighPtRelaxedIso_Trk50_eta2p1_v12 / 3',
'HLT_MediumChargedIsoPFTau200HighPtRelaxedIso_Trk50_eta2p1_v12 / 3',
'HLT_MediumChargedIsoPFTau220HighPtRelaxedIso_Trk50_eta2p1_v12 / 3',
'HLT_Ele16_Ele12_Ele8_CaloIdL_TrackIdL_v9 / 3',
'HLT_Rsq0p35_v15 / 3',
'HLT_Rsq0p40_v15 / 3',
'HLT_RsqMR300_Rsq0p09_MR200_v15 / 3',
'HLT_RsqMR320_Rsq0p09_MR200_v15 / 3',
'HLT_RsqMR300_Rsq0p09_MR200_4jet_v15 / 3',
'HLT_RsqMR320_Rsq0p09_MR200_4jet_v15 / 3',
'HLT_DoubleTightChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_v1 / 3',
'HLT_DoubleMediumChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_v1 / 3',
'HLT_DoubleMediumChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_v4 / 3',
'HLT_DoubleTightChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_v1 / 3',
'HLT_DoubleMediumChargedIsoPFTauHPS40_Trk1_eta2p1_Reg_v1 / 3',
'HLT_DoubleTightChargedIsoPFTauHPS40_Trk1_eta2p1_Reg_v1 / 3',
'HLT_DoubleMediumChargedIsoPFTauHPS40_Trk1_TightID_eta2p1_Reg_v1 / 3',
'HLT_DoubleTightChargedIsoPFTauHPS40_Trk1_TightID_eta2p1_Reg_v1 / 3',
'HLT_VBF_DoubleLooseChargedIsoPFTauHPS20_Trk1_eta2p1_v1 / 3',
'HLT_VBF_DoubleMediumChargedIsoPFTauHPS20_Trk1_eta2p1_v1 / 3',
'HLT_VBF_DoubleTightChargedIsoPFTauHPS20_Trk1_eta2p1_v1 / 3',
'HLT_Photon50_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ300DEta3_PFMET50_v5 / 3',
'HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ300DEta3_v5 / 3',
'HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ600DEta3_v5 / 3',
'HLT_PFMET100_PFMHT100_IDTight_PFHT60_v9 / 3',
'HLT_PFMETNoMu100_PFMHTNoMu100_IDTight_PFHT60_v9 / 3',
'HLT_PFMETTypeOne100_PFMHT100_IDTight_PFHT60_v9 / 3',
'HLT_Mu18_Mu9_SameSign_v4 / 3',
'HLT_Mu18_Mu9_SameSign_DZ_v4 / 3',
'HLT_Mu18_Mu9_v4 / 3',
'HLT_Mu18_Mu9_DZ_v4 / 3',
'HLT_Mu20_Mu10_SameSign_v4 / 3',
'HLT_Mu20_Mu10_SameSign_DZ_v4 / 3',
'HLT_Mu20_Mu10_v4 / 3',
'HLT_Mu20_Mu10_DZ_v4 / 3',
'HLT_Mu23_Mu12_SameSign_v4 / 3',
'HLT_Mu23_Mu12_SameSign_DZ_v4 / 3',
'HLT_Mu23_Mu12_v4 / 3',
'HLT_Mu23_Mu12_DZ_v4 / 3',
'HLT_DoubleMu2_Jpsi_DoubleTrk1_Phi1p05_v6 / 3',
'HLT_DoubleMu2_Jpsi_DoubleTkMu0_Phi_v5 / 3',
'HLT_DoubleMu3_DCA_PFMET50_PFMHT60_v10 / 3',
'HLT_TripleMu_5_3_3_Mass3p8_DCA_v3 / 3',
'HLT_QuadPFJet98_83_71_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 / 3',
'HLT_QuadPFJet103_88_75_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 / 3',
'HLT_QuadPFJet111_90_80_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 / 3',
'HLT_QuadPFJet98_83_71_15_PFBTagDeepCSV_1p3_VBF2_v8 / 3',
'HLT_QuadPFJet103_88_75_15_PFBTagDeepCSV_1p3_VBF2_v8 / 3',
'HLT_QuadPFJet105_88_76_15_PFBTagDeepCSV_1p3_VBF2_v8 / 3',
'HLT_QuadPFJet111_90_80_15_PFBTagDeepCSV_1p3_VBF2_v8 / 3',
'HLT_QuadPFJet98_83_71_15_v5 / 3',
'HLT_QuadPFJet103_88_75_15_v5 / 3',
'HLT_QuadPFJet105_88_76_15_v5 / 3',
'HLT_QuadPFJet111_90_80_15_v5 / 3',
'HLT_AK8PFJet330_TrimMass30_PFAK8BTagDeepCSV_p17_v2 / 3',
'HLT_AK8PFJet330_TrimMass30_PFAK8BTagDeepCSV_p1_v2 / 3',
'HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_p02_v3 / 3',
'HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_np2_v2 / 3',
'HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_np4_v2 / 3',
'HLT_Diphoton30_18_R9IdL_AND_HE_AND_IsoCaloId_NoPixelVeto_Mass55_v2 / 3',
'HLT_Diphoton30_18_R9IdL_AND_HE_AND_IsoCaloId_NoPixelVeto_v2 / 3',
'HLT_QuadPFJet105_88_76_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 / 3'
) ),
usePathStatus = cms.bool(False)
)
process.hltPreDSTPhysics = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDSTRun3PFScoutingPixelTracking = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDSTZeroBias = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiEle27WPTightCaloOnlyL1DoubleEG = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiJet11035Mjj650PFMET110 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiJet11035Mjj650PFMET120 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiJet11035Mjj650PFMET130 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiMu4Ele9CaloIdLTrackIdLDZMass3p8 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiMu9Ele9CaloIdLTrackIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiMu9Ele9CaloIdLTrackIdLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJet15FBEta3NoCaloMatched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJet15NoCaloMatched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJet25FBEta3NoCaloMatched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJet25NoCaloMatched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve100HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve140 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve15HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve160HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve220HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve25HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve260 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve300HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve320 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve35HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve400 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve500 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve60HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiPFJetAve80HFJEC = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiSC3018EIsoANDHEMass70 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0Jpsi3p5Muon2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0JpsiL14R0er1p5R = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0JpsiL1NoOS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0JpsiNoVertexing = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0JpsiNoVertexingL14R0er1p5R = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0JpsiNoVertexingNoOS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0LowMass = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0LowMassL10er1p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0LowMassL10er1p5R = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0LowMassL14 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0LowMassL14R = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0LowMassL1TM530 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonL14p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonL14p5NoOS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonL14p5er2p0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonL14p5er2p0M = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonL15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonL15M = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonMuonL1TM0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonMuonNoL1Mass = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon0UpsilonNoVertexing = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon10PsiPrimeBarrelSeagulls = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon12Upsilony1p4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon14PhiBarrelSeagulls = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon18PsiPrime = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon18PsiPrimenoCorrL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon20JpsiBarrelSeagulls = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon24PhinoCorrL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon24UpsilonnoCorrL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon25Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDimuon25JpsinoCorrL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiphoton3018R9IdLANDHEANDIsoCaloIdNoPixelVeto = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiphoton3018R9IdLANDHEANDIsoCaloIdNoPixelVetoMass55 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiphoton3022R9IdORIsoCaloIdANDHER9IdMass90 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiphoton3022R9IdORIsoCaloIdANDHER9IdMass95 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiphoton30PV18PVR9IdANDIsoCaloIdANDHER9IdNoPixelVetoMass55 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDiphoton30PV18PVR9IdANDIsoCaloIdANDHER9IdPixelVetoMass55 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleEle24eta2p1WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleEle25CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleEle27CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleEle33CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleEle8CaloIdMTrackIdMMass8DZPFHT350 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleEle8CaloIdMTrackIdMMass8PFHT350 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleIsoMu20eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu23NoVtx2Cha = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu23NoVtx2ChaCosmicSeed = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu23NoVtx2ChaCosmicSeedNoL2Matched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu23NoVtx2ChaNoL2Matched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu25NoVtx2Cha = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu25NoVtx2ChaCosmicSeed = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu25NoVtx2ChaCosmicSeedEta2p4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu25NoVtx2ChaCosmicSeedNoL2Matched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu25NoVtx2ChaEta2p4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu25NoVtx2ChaNoL2Matched = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu30NoVtx2ChaCosmicSeedEta2p4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu30NoVtx2ChaEta2p4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleL2Mu50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTau35Trk1TightIDeta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTau35Trk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTauHPS30L1MaxMassTrk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTauHPS35Trk1TightIDeta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTauHPS35Trk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTauHPS40Trk1TightIDeta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMediumChargedIsoPFTauHPS40Trk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu207Mass0to30L1DM4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu207Mass0to30L1DM4EG = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu207Mass0to30Photon23 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu2JpsiDoubleTkMu0Phi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu2JpsiDoubleTrk1Phi1p05 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu33NoFiltersNoVtxDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3DCAPFMET50PFMHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3DZPFMET50PFMHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3DZPFMET70PFMHT70 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3DZPFMET90PFMHT90 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3DoubleEle7p5CaloIdLTrackIdLUpsilon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3TkMuDsTau3Mu = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3TrkTau3mu = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu3TrkTau3muNoL1Mass = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu40NoFiltersNoVtxDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu43Bs = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu43Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu43NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu48NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4JpsiDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4JpsiNoVertexing = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4JpsiTrkDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4JpsiTrkTrkDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4LowMassNonResonantTrkDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4Mass3p8DZPFHT350 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu4PsiPrimeTrkDisplaced = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleMu5UpsilonDoubleEle3CaloIdLTrackIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePFJets100CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePFJets116MaxDeta1p6DoubleCaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePFJets128MaxDeta1p6DoubleCaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePFJets200CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePFJets350CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePFJets40CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePhoton33CaloIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePhoton70 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoublePhoton85 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTightChargedIsoPFTau35Trk1TightIDeta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTightChargedIsoPFTau35Trk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTightChargedIsoPFTauHPS35Trk1TightIDeta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTightChargedIsoPFTauHPS35Trk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTightChargedIsoPFTauHPS40Trk1TightIDeta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTightChargedIsoPFTauHPS40Trk1eta2p1Reg = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreDoubleTrkMu166NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreECALHT800 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEcalCalibration = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEcalCalibrationOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle115CaloIdVTGsfTrkIdT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle12CaloIdLTrackIdLIsoVLPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle135CaloIdVTGsfTrkIdT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle145CaloIdVTGsfTrkIdT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15CaloIdLTrackIdLIsoVLPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15Ele8CaloIdLTrackIdLIsoVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15IsoVVVLPFHT450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15IsoVVVLPFHT450CaloBTagDeepCSV4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15IsoVVVLPFHT450PFMET50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15IsoVVVLPFHT600 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle15WPLooseGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle16Ele12Ele8CaloIdLTrackIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle17CaloIdMTrackIdMPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle17WPLooseGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle200CaloIdVTGsfTrkIdT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle20WPLooseGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle20WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle20eta2p1WPLooseGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle23CaloIdLTrackIdLIsoVLPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle23CaloIdMTrackIdMPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle23Ele12CaloIdLTrackIdLIsoVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle23Ele12CaloIdLTrackIdLIsoVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfLooseChargedIsoPFTau30eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfLooseChargedIsoPFTauHPS30eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfLooseChargedIsoPFTauHPS30eta2p1TightIDCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfMediumChargedIsoPFTauHPS30eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfMediumChargedIsoPFTauHPS30eta2p1TightIDCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfTightChargedIsoPFTauHPS30eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle24eta2p1WPTightGsfTightChargedIsoPFTauHPS30eta2p1TightIDCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle250CaloIdVTGsfTrkIdT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle27Ele37CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle27WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle28HighEtaSC20Mass55 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle28WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle28eta2p1WPTightGsfHT150 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle300CaloIdVTGsfTrkIdT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle30WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle30eta2p1WPTightGsfCentralPFJet35EleCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle32WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle32WPTightGsfL1DoubleEG = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle35WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle35WPTightGsfL1EGMT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle38WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle40WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle50CaloIdVTGsfTrkIdTPFJet165 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle50IsoVVVLPFHT450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle8CaloIdLTrackIdLIsoVLPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreEle8CaloIdMTrackIdMPFJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreExpressAlignmentOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreExpressAlignmentOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring(
'HLT_HT450_Beamspot_v11',
'HLT_HT300_Beamspot_v11',
'HLT_ZeroBias_Beamspot_v4'
),
usePathStatus = cms.bool(False)
)
process.hltPreExpressOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreExpressOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring(
'( HLT_IsoMu20_v15 OR HLT_IsoMu24_v13 OR HLT_IsoMu27_v16 OR FALSE ) / 25',
'( HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v19 OR FALSE ) / 3',
'HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v15',
'HLT_Physics_v7',
'HLT_Random_v3',
'HLT_ZeroBias_v6',
'HLT_ZeroBias_Alignment_v1 / 6',
'HLT_ZeroBias_FirstCollisionAfterAbortGap_v5',
'HLT_ZeroBias_IsolatedBunches_v5'
),
usePathStatus = cms.bool(False)
)
process.hltPreHLTAnalyzerEndpath = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHLTMonitorOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHLTMonitorOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring(
'HLT_Ele32_WPTight_Gsf_v15 / 5',
'HLT_PFJet260_v20',
'HLT_PFJet320_v20',
'HLT_PFHT510_v17 / 3',
'HLT_PFMET130_PFMHT130_IDTight_v20 / 25',
'HLT_PFMET140_PFMHT140_IDTight_v20 / 15',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_PFBtagDeepCSV_1p5_v1',
'HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_CaloBtagDeepCSV_1p5_v1',
'HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v19',
'HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v15',
'HLT_HT400_DisplacedDijet40_DisplacedTrack_v13',
'HLT_HT550_DisplacedDijet60_Inclusive_v13',
'HLT_PFHT400_SixPFJet32_DoublePFBTagDeepCSV_2p94_v8'
),
usePathStatus = cms.bool(False)
)
process.hltPreHT300Beamspot = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT400DisplacedDijet40DisplacedTrack = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT425 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT430DisplacedDijet40DisplacedTrack = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT430DisplacedDijet60DisplacedTrack = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT450Beamspot = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT500DisplacedDijet40DisplacedTrack = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT550DisplacedDijet60Inclusive = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHT650DisplacedDijet60Inclusive = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHcalCalibration = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHcalIsolatedbunch = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHcalNZS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreHcalPhiSym = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1LooseChargedIsoPFTau27eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1LooseChargedIsoPFTauHPS27eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1LooseChargedIsoPFTauHPS27eta2p1TightIDCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1MediumChargedIsoPFTauHPS27eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1MediumChargedIsoPFTauHPS27eta2p1TightIDCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1TightChargedIsoPFTauHPS27eta2p1CrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu20eta2p1TightChargedIsoPFTauHPS27eta2p1TightIDCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24TwoProngs35 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1MediumChargedIsoPFTau35Trk1TightIDeta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1MediumChargedIsoPFTau35Trk1eta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1MediumChargedIsoPFTau50Trk30eta2p11pr = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1MediumChargedIsoPFTauHPS30Trk1eta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1MediumChargedIsoPFTauHPS35Trk1TightIDeta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1MediumChargedIsoPFTauHPS35Trk1eta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1TightChargedIsoPFTau35Trk1TightIDeta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1TightChargedIsoPFTau35Trk1eta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1TightChargedIsoPFTauHPS35Trk1TightIDeta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu24eta2p1TightChargedIsoPFTauHPS35Trk1eta2p1RegCrossL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu27 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu27LooseChargedIsoPFTau20Trk1eta2p1SingleL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu27LooseChargedIsoPFTauHPS20Trk1eta2p1SingleL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu27MET90 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu27MediumChargedIsoPFTauHPS20Trk1eta2p1SingleL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu27TightChargedIsoPFTauHPS20Trk1eta2p1SingleL1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoMu30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoTrackHB = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreIsoTrackHE = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1CDCSingleMu3er1p2TOP120DPHI2p6183p142 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1ETMHadSeeds = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1NotBptxOR = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1SingleMu18 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1SingleMu25 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1SingleMuCosmics = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1UnpairedBunchBptxMinus = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL1UnpairedBunchBptxPlus = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu10 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu10NoVertexNoBPTX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu10NoVertexNoBPTX3BX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu23NoVtx2Cha = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu23NoVtx2ChaCosmicSeed = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu40NoVertex3StaNoBPTX3BX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu45NoVertex3StaNoBPTX3BX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreL2Mu50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCAK4CaloJets = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCAK4PFJets = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCAK8CaloHT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCAK8PFHT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCAK8PFJets = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCAK8TrimPFJets = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCCaloBTagDeepCSV = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCCaloHT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCCaloMET = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCCaloMETJetIdCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCCaloMHT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCDiphoton1010R9IdORIsoCaloIdANDHER9IdMass10 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCDoubleEle5CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCDoubleMuNoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCDoubleMuTrkIsoVVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCEle15Ele10CaloIdLTrackIdLIsoVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCEle5WPTightGsf = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCIsoMu = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFBTagDeepCSV = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFBTagDeepCSVROIForBTag = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFBTagDeepJet = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFBTagDeepJetROIForBTag = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFHT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFMET = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCPFMHT = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMCReducedIterativeTracking = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMET105IsoTrk50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMET120IsoTrk50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau180HighPtRelaxedIsoTrk50eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau180HighPtRelaxedIsoTrk50eta2p11pr = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau200HighPtRelaxedIsoTrk50eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau220HighPtRelaxedIsoTrk50eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11pr = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET100 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET110 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET120 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET130 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET140 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET90 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMonoCentralPFJet80PFMETNoMu110PFMHTNoMu110IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMonoCentralPFJet80PFMETNoMu120PFMHTNoMu120IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMonoCentralPFJet80PFMETNoMu130PFMHTNoMu130IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMonoCentralPFJet80PFMETNoMu140PFMHTNoMu140IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu10TrkIsoVVLDiPFJet40DEta3p5MJJ750HTT350PFMETNoMu60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets100CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets200CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets350CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets40CaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets40MaxDeta1p6DoubleCaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets54MaxDeta1p6DoubleCaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePFJets62MaxDeta1p6DoubleCaloBTagDeepCSVp71 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12DoublePhoton20 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12IP6ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12IP6part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12IP6part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu12IP6part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu12IP6part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu12IP6part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu15IsoVVVLPFHT450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu15IsoVVVLPFHT450CaloBTagDeepCSV4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu15IsoVVVLPFHT450PFMET50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu15IsoVVVLPFHT600 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17Photon30IsoCaloId = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17TrkIsoVVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17TrkIsoVVLMu8TrkIsoVVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17TrkIsoVVLMu8TrkIsoVVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17TrkIsoVVLMu8TrkIsoVVLDZMass3p8 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu17TrkIsoVVLMu8TrkIsoVVLDZMass8 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu18Mu9 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu18Mu9DZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu18Mu9SameSign = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu18Mu9SameSignDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu19 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu19TrkIsoVVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu19TrkIsoVVLMu9TrkIsoVVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu19TrkIsoVVLMu9TrkIsoVVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu19TrkIsoVVLMu9TrkIsoVVLDZMass3p8 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu19TrkIsoVVLMu9TrkIsoVVLDZMass8 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu20 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu20Mu10 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu20Mu10DZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu20Mu10SameSign = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu20Mu10SameSignDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu20TkMu0Phi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu23Mu12 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu23Mu12DZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu23Mu12SameSign = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu23Mu12SameSignDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu25TkMu0Onia = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu25TkMu0Phi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu27 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu27Ele37CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu30TkMu0Psi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu30TkMu0Upsilon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu37Ele27CaloIdLMW = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu37TkMu27 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu38NoFiltersNoVtxDisplacedPhoton38CaloIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3L1SingleMu5orSingleMu7 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3PFJet40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMET100PFMHT100IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMET70PFMHT70IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMET80PFMHT80IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMET90PFMHT90IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu100PFMHTNoMu100IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu70PFMHTNoMu70IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu80PFMHTNoMu80IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu90PFMHTNoMu90IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu43NoFiltersNoVtxDisplacedPhoton43CaloIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu43NoFiltersNoVtxPhoton43CaloIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu48NoFiltersNoVtxPhoton48CaloIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu4TrkIsoVVLDiPFJet9040DEta3p5MJJ750HTT300PFMETNoMu60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu50IsoVVVLPFHT450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu55 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7IP4ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7IP4part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7IP4part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu7IP4part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu7IP4part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu7IP4part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu7p5L2Mu2Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5L2Mu2Upsilon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5Track2Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5Track2Upsilon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5Track3p5Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5Track3p5Upsilon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5Track7Jpsi = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu7p5Track7Upsilon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8DiEle12CaloIdLTrackIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8DiEle12CaloIdLTrackIdLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8Ele8CaloIdMTrackIdMMass8PFHT350 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8Ele8CaloIdMTrackIdMMass8PFHT350DZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP3ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP3part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP3part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu8IP3part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu8IP3part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu8IP3part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu8IP5ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP5part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP5part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu8IP5part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu8IP5part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu8IP5part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu8IP6ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP6part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8IP6part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu8IP6part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu8IP6part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu8IP6part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu8TrkIsoVVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLDiPFJet40DEta3p5MJJ750HTT300PFMETNoMu60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZCaloDiJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZCaloDiJet30CaloBtagDeepCSV1p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZPFDiJet30 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZPFDiJet30PFBtagDeepCSV1p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZPFDiJet30PFBtagDeepJet1p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP0part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP3part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP4ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP4part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP4part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu9IP4part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu9IP4part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu9IP4part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu9IP5ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP5part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP5part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu9IP5part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu9IP5part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu9IP5part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreMu9IP6ToCSCS = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP6part0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreMu9IP6part1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreMu9IP6part2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreMu9IP6part3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreMu9IP6part4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreNanoDSTOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreOldMu100 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT1050 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT180 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT250 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT330PT30QuadPFJet75604540 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT330PT30QuadPFJet75604540TriplePFBTagDeepCSV4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT330PT30QuadPFJet75604540TriplePFBTagDeepJet4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT350 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT350MinPFJet15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT370 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400FivePFJet100100603030 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400FivePFJet100100603030DoublePFBTagDeepCSV4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400FivePFJet100100603030DoublePFBTagDeepJet4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400FivePFJet120120603030DoublePFBTagDeepCSV4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400FivePFJet120120603030DoublePFBTagDeepJet4p5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400SixPFJet32 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400SixPFJet32DoublePFBTagDeepCSV2p94 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT400SixPFJet32DoublePFBTagDeepJet2p94 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT430 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT450SixPFJet36 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT450SixPFJet36PFBTagDeepCSV1p59 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT450SixPFJet36PFBTagDeepJet1p59 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT500PFMET100PFMHT100IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT500PFMET110PFMHT110IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT510 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT590 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT680 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT700PFMET85PFMHT85IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT700PFMET95PFMHT95IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT780 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT800PFMET75PFMHT75IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT800PFMET85PFMHT85IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFHT890 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet140 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet25 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet260 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet320 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet400 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet500 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet550 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJet80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd140 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd25 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd260 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd320 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd400 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd450 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd500 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFJetFwd80 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET100PFMHT100IDTightCaloBTagDeepCSV3p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET100PFMHT100IDTightPFHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET110PFMHT110IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET110PFMHT110IDTightCaloBTagDeepCSV3p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET120PFMHT120IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET120PFMHT120IDTightCaloBTagDeepCSV3p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET120PFMHT120IDTightPFHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET130PFMHT130IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET130PFMHT130IDTightCaloBTagDeepCSV3p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET140PFMHT140IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET140PFMHT140IDTightCaloBTagDeepCSV3p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET200BeamHaloCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET200NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET250NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMET300NotCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETNoMu100PFMHTNoMu100IDTightPFHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETNoMu110PFMHTNoMu110IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETNoMu120PFMHTNoMu120IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETNoMu120PFMHTNoMu120IDTightPFHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETNoMu130PFMHTNoMu130IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETNoMu140PFMHTNoMu140IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne100PFMHT100IDTightPFHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne110PFMHT110IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne120PFMHT120IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne120PFMHT120IDTightPFHT60 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne130PFMHT130IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne140PFMHT140IDTight = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePFMETTypeOne200BeamHaloCleaned = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePPSMaxTracksPerArm1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePPSMaxTracksPerRP4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingBPH1Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingBPH2Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingBPH3Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingBPH4Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingBPH5Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingHLTPhysicsOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreParkingZeroBiasOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton100EBHE10 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton100EBTightIDTightIso = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton100EEHE10 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton100EETightIDTightIso = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton110EBTightIDTightIso = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton120 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton120EBTightIDTightIso = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton120R9Id90HE10IsoM = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton150 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton165R9Id90HE10IsoM = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton175 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton20 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton20HoverELoose = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton300NoHE = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton30HoverELoose = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton33 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton35TwoProngs35 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton50R9Id90HE10IsoM = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton50R9Id90HE10IsoMEBOnlyPFJetsMJJ300DEta3PFMET50 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton60R9Id90CaloIdLIsoL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton60R9Id90CaloIdLIsoLDisplacedIdL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton60R9Id90CaloIdLIsoLDisplacedIdLPFHT350MinPFJet15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton75 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton75R9Id90HE10IsoM = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton75R9Id90HE10IsoMEBOnlyCaloMJJ300PFJetsMJJ400DEta3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton75R9Id90HE10IsoMEBOnlyCaloMJJ400PFJetsMJJ600DEta3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton75R9Id90HE10IsoMEBOnlyPFJetsMJJ300DEta3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton75R9Id90HE10IsoMEBOnlyPFJetsMJJ600DEta3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton90 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton90CaloIdLPFHT700 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhoton90R9Id90HE10IsoM = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysics = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsCommissioningOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsEGammaOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsEndOfFillOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsHLTPhysics1Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsHLTPhysics2Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsHLTPhysics3Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsHLTPhysics4Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsHadronsTausOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsMuonsOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsScoutingMonitorOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsScoutingMonitorOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring(
'HLT_Ele35_WPTight_Gsf_v9 / 200',
'HLT_IsoMu27_v16 / 150',
'HLT_Mu50_v13 / 50',
'HLT_PFHT1050_v18 / 10',
'HLT_Photon200_v13 / 10',
'HLT_Ele115_CaloIdVT_GsfTrkIdT_v14 / 12',
'DST_Run3_PFScoutingPixelTracking_v16 / 10'
),
usePathStatus = cms.bool(False)
)
process.hltPrePhysicsZeroBias1Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsZeroBias2Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsZeroBias3Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicsZeroBias4Output = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicspart0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPrePhysicspart1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPrePhysicspart2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPrePhysicspart3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPrePhysicspart4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPrePhysicspart5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(5)
)
process.hltPrePhysicspart6 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(6)
)
process.hltPrePhysicspart7 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(7)
)
process.hltPreQuadPFJet103887515 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet103887515DoublePFBTagDeepCSV1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet103887515DoublePFBTagDeepJet1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet103887515PFBTagDeepCSV1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet103887515PFBTagDeepJet1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet105887615 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet105887615DoublePFBTagDeepCSV1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet105887615DoublePFBTagDeepJet1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet105887615PFBTagDeepCSV1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet105887615PFBTagDeepJet1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet111908015 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet111908015DoublePFBTagDeepCSV1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet111908015DoublePFBTagDeepJet1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet111908015PFBTagDeepCSV1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet111908015PFBTagDeepJet1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet98837115 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet98837115DoublePFBTagDeepCSV1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet98837115DoublePFBTagDeepJet1p37p7VBF1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet98837115PFBTagDeepCSV1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreQuadPFJet98837115PFBTagDeepJet1p3VBF2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRPCMONOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRandom = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRsq0p35 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRsq0p40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRsqMR300Rsq0p09MR200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRsqMR300Rsq0p09MR2004jet = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRsqMR320Rsq0p09MR200 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreRsqMR320Rsq0p09MR2004jet = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreScoutingPFOutput = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreScoutingPFOutputSmart = cms.EDFilter("TriggerResultsFilter",
hltResults = cms.InputTag("TriggerResults","","@currentProcess"),
l1tIgnoreMaskAndPrescale = cms.bool(False),
l1tResults = cms.InputTag(""),
throw = cms.bool(True),
triggerConditions = cms.vstring('DST_Run3_PFScoutingPixelTracking_v16')
)
process.hltPreSingleJet30Mu12SinglePFJet40 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreSinglePhoton10Eta3p1ForPPRef = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreSinglePhoton20Eta3p1ForPPRef = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreSinglePhoton30Eta3p1ForPPRef = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTau3MuMu7Mu1TkMu1IsoTau15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTau3MuMu7Mu1TkMu1IsoTau15Charge1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTau3MuMu7Mu1TkMu1Tau15 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTau3MuMu7Mu1TkMu1Tau15Charge1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTkMu100 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrimuon53p52UpsilonMuon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrimuonOpen53p52UpsilonMuon = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleJet1103535Mjj650PFMET110 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleJet1103535Mjj650PFMET120 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleJet1103535Mjj650PFMET130 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleMu1055DZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleMu12105 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleMu533Mass3p8DCA = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTripleMu533Mass3p8DZ = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTriplePhoton202020CaloIdLV2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTriplePhoton202020CaloIdLV2R9IdVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTriplePhoton303010CaloIdLV2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTriplePhoton303010CaloIdLV2R9IdVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTriplePhoton35355CaloIdLV2R9IdVL = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrkMu12DoubleTrkMu5NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrkMu16DoubleTrkMu6NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrkMu16NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrkMu17DoubleTrkMu8NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreTrkMu6NoFiltersNoVtx = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreUncorrectedJetE30NoBPTX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreUncorrectedJetE30NoBPTX3BX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreUncorrectedJetE60NoBPTX3BX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreUncorrectedJetE70NoBPTX3BX = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreVBFDoubleLooseChargedIsoPFTau20Trk1eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreVBFDoubleLooseChargedIsoPFTauHPS20Trk1eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreVBFDoubleMediumChargedIsoPFTauHPS20Trk1eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreVBFDoubleTightChargedIsoPFTauHPS20Trk1eta2p1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBias = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasAlignment = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasBeamspot = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasFirstBXAfterTrain = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasFirstCollisionAfterAbortGap = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasFirstCollisionInTrain = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasIsolatedBunches = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiasLastCollisionInTrain = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiaspart0 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(0)
)
process.hltPreZeroBiaspart1 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(1)
)
process.hltPreZeroBiaspart2 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(2)
)
process.hltPreZeroBiaspart3 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(3)
)
process.hltPreZeroBiaspart4 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(4)
)
process.hltPreZeroBiaspart5 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(5)
)
process.hltPreZeroBiaspart6 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(6)
)
process.hltPreZeroBiaspart7 = cms.EDFilter("HLTPrescaler",
L1GtReadoutRecordTag = cms.InputTag("hltGtStage2Digis"),
offset = cms.uint32(7)
)
process.hltPsiPrimeTkVertexFilter = cms.EDFilter("HLTmumutkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(10.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinPt = cms.double(0.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltPsiPrimeTkVertexProducer"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltPsiPrimeTkAllConeTracksIter"),
saveTags = cms.bool(True)
)
process.hltQuadCentralJet30 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltQuadJet15 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(4),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltRHemisphere = cms.EDFilter("HLTRHemisphere",
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
maxEta = cms.double(3.0),
maxMuonEta = cms.double(2.1),
maxNJ = cms.int32(9),
minJetPt = cms.double(40.0),
muonTag = cms.InputTag("")
)
process.hltRHemisphereCalo = cms.EDFilter("HLTRHemisphere",
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
maxEta = cms.double(3.0),
maxMuonEta = cms.double(2.1),
maxNJ = cms.int32(9),
minJetPt = cms.double(30.0),
muonTag = cms.InputTag("")
)
process.hltRPCMuonNormaL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(1.6),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sSingleMu5IorSingleMu14erIorSingleMu16er"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltRandomEventsFilter = cms.EDFilter("HLTTriggerTypeFilter",
SelectedTriggerType = cms.int32(3)
)
process.hltRsq0p16Calo = cms.EDFilter("HLTRFilter",
MROffset = cms.double(0.0),
R2Offset = cms.double(0.0),
RMRCut = cms.double(-999999.0),
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
doRPrime = cms.bool(False),
inputMetTag = cms.InputTag("hltMet"),
inputTag = cms.InputTag("hltRHemisphereCalo"),
minMR = cms.double(-1.0),
minR = cms.double(0.4),
saveTags = cms.bool(True)
)
process.hltRsq0p35 = cms.EDFilter("HLTRFilter",
MROffset = cms.double(0.0),
R2Offset = cms.double(0.0),
RMRCut = cms.double(-999999.0),
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
doRPrime = cms.bool(False),
inputMetTag = cms.InputTag("hltPFMETProducer"),
inputTag = cms.InputTag("hltRHemisphere"),
minMR = cms.double(-1.0),
minR = cms.double(0.59),
saveTags = cms.bool(True)
)
process.hltRsq0p40 = cms.EDFilter("HLTRFilter",
MROffset = cms.double(0.0),
R2Offset = cms.double(0.0),
RMRCut = cms.double(-999999.0),
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
doRPrime = cms.bool(False),
inputMetTag = cms.InputTag("hltPFMETProducer"),
inputTag = cms.InputTag("hltRHemisphere"),
minMR = cms.double(-1.0),
minR = cms.double(0.63),
saveTags = cms.bool(True)
)
process.hltRsqMR220Rsq0p0196MR100Calo = cms.EDFilter("HLTRFilter",
MROffset = cms.double(-300.0),
R2Offset = cms.double(-0.25),
RMRCut = cms.double(220.0),
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
doRPrime = cms.bool(False),
inputMetTag = cms.InputTag("hltMet"),
inputTag = cms.InputTag("hltRHemisphereCalo"),
minMR = cms.double(100.0),
minR = cms.double(0.14),
saveTags = cms.bool(True)
)
process.hltRsqMR300Rsq0p09MR200 = cms.EDFilter("HLTRFilter",
MROffset = cms.double(-300.0),
R2Offset = cms.double(-0.25),
RMRCut = cms.double(300.0),
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
doRPrime = cms.bool(False),
inputMetTag = cms.InputTag("hltPFMETProducer"),
inputTag = cms.InputTag("hltRHemisphere"),
minMR = cms.double(200.0),
minR = cms.double(0.3),
saveTags = cms.bool(True)
)
process.hltRsqMR320Rsq0p09MR200 = cms.EDFilter("HLTRFilter",
MROffset = cms.double(-300.0),
R2Offset = cms.double(-0.25),
RMRCut = cms.double(320.0),
acceptNJ = cms.bool(True),
doMuonCorrection = cms.bool(False),
doRPrime = cms.bool(False),
inputMetTag = cms.InputTag("hltPFMETProducer"),
inputTag = cms.InputTag("hltRHemisphere"),
minMR = cms.double(200.0),
minR = cms.double(0.3),
saveTags = cms.bool(True)
)
process.hltSQMu7p5L2Mu2JpsiTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(99999.9),
MaxMasses = cms.vdouble(4.0),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10000000000.0),
MinMasses = cms.vdouble(2.2),
MinTrackHits = cms.int32(2),
MinTrackP = cms.double(0.0),
MinTrackPt = cms.double(2.0),
PreviousCandTag = cms.InputTag("hltL3fSQMu7p5L2Mu2L3Filtered7p5"),
TrackTag = cms.InputTag("hltL2MuonCandidates"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltSQMu7p5L2Mu2UpsilonTrackMassFiltered = cms.EDFilter("HLTMuonTrackMassFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
CutCowboys = cms.bool(False),
MaxDCAMuonTrack = cms.double(99999.9),
MaxMasses = cms.vdouble(11.8),
MaxTrackDxy = cms.double(999.0),
MaxTrackDz = cms.double(999.0),
MaxTrackEta = cms.double(999.0),
MaxTrackNormChi2 = cms.double(10000000000.0),
MinMasses = cms.vdouble(8.0),
MinTrackHits = cms.int32(2),
MinTrackP = cms.double(0.0),
MinTrackPt = cms.double(2.0),
PreviousCandTag = cms.InputTag("hltL3fSQMu7p5L2Mu2L3Filtered7p5"),
TrackTag = cms.InputTag("hltL2MuonCandidates"),
checkCharge = cms.bool(True),
saveTags = cms.bool(True)
)
process.hltSelectedPFTau180MediumChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(180.0),
inputTag = cms.InputTag("hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau180MediumChargedIsolationL1HLTMatched1Prong = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(180.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackMediumChargedIsolationMatch1Prong"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau200MediumChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau220MediumChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(220.0),
inputTag = cms.InputTag("hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau27LooseChargedIsolationAgainstMuonL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(27.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackLooseChargedIsolationAgainstMuonMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau30LooseChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackLooseChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTauTrackPt1TightChargedIsolationMatchReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatchedMu22IsoTau40 = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatchMu22IsoTau40"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatchedQuadIsoTau = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatchQuadJetIsoTau"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSelectedPFTausTrackFinding = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
)),
src = cms.InputTag("hltPFTaus")
)
process.hltSelectedPFTausTrackFindingLooseChargedIsolation = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauLooseAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTaus")
)
process.hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauLooseAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauAgainstMuonDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTaus")
)
process.hltSelectedPFTausTrackFindingMediumChargedIsolation = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackFindingDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauMediumAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTaus")
)
process.hltSelectedPFTausTrackFindingReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackDiscriminatorReg"),
selectionCut = cms.double(0.5)
)),
src = cms.InputTag("hltPFTausReg")
)
process.hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauMediumChargedIsolationAndTightOOSCPhotonsDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTausReg")
)
process.hltSelectedPFTausTrackPt1MediumChargedIsolationReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTausReg")
)
process.hltSelectedPFTausTrackPt1Reg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
)),
src = cms.InputTag("hltPFTausReg")
)
process.hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauTightChargedIsolationAndTightOOSCPhotonsDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTausReg")
)
process.hltSelectedPFTausTrackPt1TightChargedIsolationReg = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt1DiscriminatorReg"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauTightAbsOrRelChargedIsolationDiscriminatorReg"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTausReg")
)
process.hltSelectedPFTausTrackPt30MediumAbsOrRelIsolation1Prong = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt30Discriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauMediumAbsOrRelChargedIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTau1Prong"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTaus")
)
process.hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt50Discriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauMediumHighPtRelaxedIsoAbsOrRelIsolationDiscriminator"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTaus")
)
process.hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation1Prong = cms.EDFilter("PFTauSelector",
cut = cms.string('pt > 0'),
discriminatorContainers = cms.VPSet(),
discriminators = cms.VPSet(
cms.PSet(
discriminator = cms.InputTag("hltPFTauTrackPt50Discriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTauMediumHighPtRelaxedIsoAbsOrRelIsolationDiscriminator"),
selectionCut = cms.double(0.5)
),
cms.PSet(
discriminator = cms.InputTag("hltPFTau1Prong"),
selectionCut = cms.double(0.5)
)
),
src = cms.InputTag("hltPFTaus")
)
process.hltSelector4CentralJetsL1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltSelectorCentralJets20L1FastJeta")
)
process.hltSelector4JetsAK8DiJet170L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromAK8DiJet170L1FastJet")
)
process.hltSelector4JetsAK8Jet170L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromAK8Jet170L1FastJet")
)
process.hltSelector4JetsDiJet100PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet100PF")
)
process.hltSelector4JetsDiJet100PFROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet100PFROIForBTag")
)
process.hltSelector4JetsDiJet110L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet110L1FastJet")
)
process.hltSelector4JetsDiJet200L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet200L1FastJet")
)
process.hltSelector4JetsDiJet200PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet200PF")
)
process.hltSelector4JetsDiJet200PFROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet200PFROIForBTag")
)
process.hltSelector4JetsDiJet20L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet20L1FastJet")
)
process.hltSelector4JetsDiJet350PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet350PF")
)
process.hltSelector4JetsDiJet350PFROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet350PFROIForBTag")
)
process.hltSelector4JetsDiJet40L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet40L1FastJet")
)
process.hltSelector4JetsDiJet40PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet40PF")
)
process.hltSelector4JetsDiJet40PFROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet40PFROIForBTag")
)
process.hltSelector4JetsDiJet54PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet54PF")
)
process.hltSelector4JetsDiJet54PFROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet54PFROIForBTag")
)
process.hltSelector4JetsDiJet62PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet62PF")
)
process.hltSelector4JetsDiJet62PFROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet62PFROIForBTag")
)
process.hltSelector4JetsDiJet70L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromDiJet70L1FastJet")
)
process.hltSelector4JetsJet300L1AK8FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromJet300L1AK8FastJet")
)
process.hltSelector4JetsJet300L1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromJet300L1FastJet")
)
process.hltSelector4JetsJet40PF = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(4),
src = cms.InputTag("hltBSoftMuonGetJetsFromJet40PF")
)
process.hltSelector6CentralJetsL1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(6),
src = cms.InputTag("hltSelectorCentralJets80L1FastJet")
)
process.hltSelector6PFJets = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(6),
src = cms.InputTag("hltAK4PFJetsLooseIDCorrected")
)
process.hltSelector6PFJetsROIForBTag = cms.EDFilter("LargestEtPFJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(6),
src = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag")
)
process.hltSelector8CentralJetsL1FastJet = cms.EDFilter("LargestEtCaloJetSelector",
filter = cms.bool(False),
maxNumber = cms.uint32(8),
src = cms.InputTag("hltSelectorCentralJets30L1FastJeta")
)
process.hltSelectorCentralJets20L1FastJeta = cms.EDFilter("EtaRangeCaloJetSelector",
etaMax = cms.double(2.5),
etaMin = cms.double(-2.5),
src = cms.InputTag("hltSelectorJets20L1FastJet")
)
process.hltSelectorCentralJets30L1FastJeta = cms.EDFilter("EtaRangeCaloJetSelector",
etaMax = cms.double(2.5),
etaMin = cms.double(-2.5),
src = cms.InputTag("hltSelectorJets30L1FastJet")
)
process.hltSelectorCentralJets80L1FastJet = cms.EDFilter("EtaRangeCaloJetSelector",
etaMax = cms.double(2.5),
etaMin = cms.double(-2.5),
src = cms.InputTag("hltSelectorJets80L1FastJet")
)
process.hltSelectorJets20L1FastJet = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(20.0),
filter = cms.bool(False),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSelectorJets20L1FastJetForNoPU = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(20.0),
filter = cms.bool(False),
src = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed")
)
process.hltSelectorJets30L1FastJet = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(30.0),
filter = cms.bool(False),
src = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed")
)
process.hltSelectorJets80L1FastJet = cms.EDFilter("EtMinCaloJetSelector",
etMin = cms.double(80.0),
filter = cms.bool(False),
src = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed")
)
process.hltSingleAK4CaloJet100 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet120 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet15 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet30 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet40 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet50 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet70 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(70.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4CaloJet80 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4PFJet100 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedMatchedToCaloJets70"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4PFJet120 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(120.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedMatchedToCaloJets70"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4PFJet30 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedMatchedToCaloJets15"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4PFJet50 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedMatchedToCaloJets30"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleAK4PFJet80 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrectedMatchedToCaloJets50"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloBJets30eta2p3 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltSingleCaloFwdJet10 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet10AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet110 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet110AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet170 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet170AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet210 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(210.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet210AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(210.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet270 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(270.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet270AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(270.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet350 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet350AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet40 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet400 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet400AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet40AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet450 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet450AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet5 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(5.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet50 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet50AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloFwdJet5AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(5.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet10 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet100ForHFJECBase = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet100ForHFJECEtaLimited = cms.EDFilter("CandViewSelector",
cut = cms.string('pt>100 && (abs(eta)<1.4 || abs(eta) > 2.7)'),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSingleCaloJet100ForHFJECEtaLimitedFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltSingleCaloJet100ForHFJECEtaLimited")
)
process.hltSingleCaloJet10AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(10.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet110 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet110AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(110.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet140ForHFJECBase = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet140ForHFJECEtaLimited = cms.EDFilter("CandViewSelector",
cut = cms.string('pt>140 && (abs(eta)<1.4 || abs(eta) > 2.7)'),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSingleCaloJet140ForHFJECEtaLimitedFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltSingleCaloJet140ForHFJECEtaLimited")
)
process.hltSingleCaloJet170 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet170AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(170.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet200ForHFJECBase = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet200ForHFJECEtaLimited = cms.EDFilter("CandViewSelector",
cut = cms.string('pt>200 && (abs(eta)<1.4 || abs(eta) > 2.7)'),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSingleCaloJet200ForHFJECEtaLimitedFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltSingleCaloJet200ForHFJECEtaLimited")
)
process.hltSingleCaloJet210 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(210.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet210AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(210.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet270 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(270.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet270AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(270.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet350 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet350AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(350.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet400 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet400AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet40AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet40ForHFJECBase = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet40ForHFJECEtaLimited = cms.EDFilter("CandViewSelector",
cut = cms.string('pt>40 && (abs(eta)<1.4 || abs(eta) > 2.7)'),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSingleCaloJet40ForHFJECEtaLimitedFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltSingleCaloJet40ForHFJECEtaLimited")
)
process.hltSingleCaloJet450 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet450AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet5 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(5.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet500 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(500.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet500AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(500.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet50AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet50ForHFJECBase = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet50ForHFJECEtaLimited = cms.EDFilter("CandViewSelector",
cut = cms.string('pt>50 && (abs(eta)<1.4 || abs(eta) > 2.7)'),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSingleCaloJet50ForHFJECEtaLimitedFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltSingleCaloJet50ForHFJECEtaLimited")
)
process.hltSingleCaloJet550 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(550.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet5AK8 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(5.0),
inputTag = cms.InputTag("hltAK8CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet60ForHFJECBase = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSingleCaloJet60ForHFJECEtaLimited = cms.EDFilter("CandViewSelector",
cut = cms.string('pt>60 && (abs(eta)<1.4 || abs(eta) > 2.7)'),
src = cms.InputTag("hltAK4CaloJetsCorrected")
)
process.hltSingleCaloJet60ForHFJECEtaLimitedFilter = cms.EDFilter("CandViewCountFilter",
minNumber = cms.uint32(1),
src = cms.InputTag("hltSingleCaloJet60ForHFJECEtaLimited")
)
process.hltSingleEle35WPTightGsfL1EGMTChi2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTOneOEMinusOneOPFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(False),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(2.8),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Chi2")
)
process.hltSingleEle35WPTightGsfL1EGMTClusterShapeFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTEtFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(False),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.011),
thrRegularEE = cms.vdouble(0.0305),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShape","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltSingleEle35WPTightGsfL1EGMTDetaFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTMissingHitsFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.004),
thrRegularEE = cms.vdouble(0.005),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","DetaSeed")
)
process.hltSingleEle35WPTightGsfL1EGMTDphiFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTDetaFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.02),
thrRegularEE = cms.vdouble(0.023),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","Dphi")
)
process.hltSingleEle35WPTightGsfL1EGMTEcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTHEFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.25, 0.3),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(1.75),
thrRegularEB2 = cms.vdouble(1.75),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEcalPFClusterIso")
)
process.hltSingleEle35WPTightGsfL1EGMTEtFilter = cms.EDFilter("HLTEgammaEtFilter",
etcutEB = cms.double(36.0),
etcutEE = cms.double(36.0),
inputTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTL1MatchFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
ncandcut = cms.int32(1),
saveTags = cms.bool(False)
)
process.hltSingleEle35WPTightGsfL1EGMTHEFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTClusterShapeFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.1, 0.1, 0.3, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(0.75),
thrRegularEB2 = cms.vdouble(2.25),
thrRegularEE1 = cms.vdouble(3.0),
thrRegularEE2 = cms.vdouble(5.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaHoverE")
)
process.hltSingleEle35WPTightGsfL1EGMTHcalIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.0),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTEcalIsoFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.2, 0.2, 0.4, 0.5),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.03),
thrOverEEE2 = cms.vdouble(0.03),
thrRegularEB1 = cms.vdouble(2.5),
thrRegularEB2 = cms.vdouble(3.0),
thrRegularEE1 = cms.vdouble(1.0),
thrRegularEE2 = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaHcalPFClusterIso")
)
process.hltSingleEle35WPTightGsfL1EGMTL1MatchFilter = cms.EDFilter("HLTEgammaL1TMatchFilterRegional",
L1SeedFilterTag = cms.InputTag("hltL1sAlCaSingleEle"),
barrel_end = cms.double(1.4791),
candIsolatedTag = cms.InputTag("hltEgammaCandidates"),
candNonIsolatedTag = cms.InputTag(""),
doIsolated = cms.bool(False),
endcap_end = cms.double(2.65),
l1CenJetsTag = cms.InputTag("hltGtStage2Digis","Jet"),
l1IsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1NonIsolatedTag = cms.InputTag("hltGtStage2Digis","EGamma"),
l1TausTag = cms.InputTag("hltGtStage2Digis","Tau"),
ncandcut = cms.int32(1),
region_eta_size = cms.double(0.522),
region_eta_size_ecap = cms.double(1.0),
region_phi_size = cms.double(1.044),
saveTags = cms.bool(False)
)
process.hltSingleEle35WPTightGsfL1EGMTMissingHitsFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTChi2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(False),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999.0),
thrRegularEE = cms.vdouble(2.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","MissingHits")
)
process.hltSingleEle35WPTightGsfL1EGMTOneOEMinusOneOPFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTPMS2Filter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(False),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(999999.0),
thrRegularEE = cms.vdouble(999999.0),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaGsfTrackVars","OneOESuperMinusOneOP")
)
process.hltSingleEle35WPTightGsfL1EGMTPMS2Filter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTPixelMatchFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(70.0),
thrRegularEE = cms.vdouble(45.0),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaPixelMatchVars","s2")
)
process.hltSingleEle35WPTightGsfL1EGMTPixelMatchFilter = cms.EDFilter("HLTElectronPixelMatchFilter",
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTHcalIsoFilter"),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
l1PixelSeedsTag = cms.InputTag("hltEgammaElectronPixelSeeds"),
ncandcut = cms.int32(1),
npixelmatchcut = cms.double(1.0),
pixelVeto = cms.bool(False),
s2_threshold = cms.double(0.4),
s_a_phi1B = cms.double(0.0069),
s_a_phi1F = cms.double(0.0076),
s_a_phi1I = cms.double(0.0088),
s_a_phi2B = cms.double(0.00037),
s_a_phi2F = cms.double(0.00906),
s_a_phi2I = cms.double(0.0007),
s_a_rF = cms.double(0.04),
s_a_rI = cms.double(0.027),
s_a_zB = cms.double(0.012),
saveTags = cms.bool(True),
tanhSO10BarrelThres = cms.double(0.35),
tanhSO10ForwardThres = cms.double(1.0),
tanhSO10InterThres = cms.double(1.0),
useS = cms.bool(False)
)
process.hltSingleEle35WPTightGsfL1EGMTTrackIsoFilter = cms.EDFilter("HLTEgammaGenericQuadraticEtaFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.0, 1.479, 2.1),
candTag = cms.InputTag("hltSingleEle35WPTightGsfL1EGMTDphiFilter"),
doRhoCorrection = cms.bool(True),
effectiveAreas = cms.vdouble(0.029, 0.111, 0.114, 0.032),
energyLowEdges = cms.vdouble(0.0),
etaBoundaryEB12 = cms.double(1.0),
etaBoundaryEE12 = cms.double(2.1),
l1EGCand = cms.InputTag("hltEgammaCandidates"),
lessThan = cms.bool(True),
ncandcut = cms.int32(1),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag("hltFixedGridRhoFastjetAllCaloForMuons"),
saveTags = cms.bool(True),
thrOverE2EB1 = cms.vdouble(0.0),
thrOverE2EB2 = cms.vdouble(0.0),
thrOverE2EE1 = cms.vdouble(0.0),
thrOverE2EE2 = cms.vdouble(0.0),
thrOverEEB1 = cms.vdouble(0.03),
thrOverEEB2 = cms.vdouble(0.03),
thrOverEEE1 = cms.vdouble(0.025),
thrOverEEE2 = cms.vdouble(0.025),
thrRegularEB1 = cms.vdouble(0.838),
thrRegularEB2 = cms.vdouble(-0.385),
thrRegularEE1 = cms.vdouble(-0.363),
thrRegularEE2 = cms.vdouble(0.702),
useEt = cms.bool(True),
varTag = cms.InputTag("hltEgammaEleGsfTrackIso")
)
process.hltSingleJet80 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltSingleL2IsoTau20eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltL2TauJetsIso"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSingleL2IsoTau26eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(26.0),
inputTag = cms.InputTag("hltL2TauJetsIsoL1TauSeeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSingleL2Tau20eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(20.0),
inputTag = cms.InputTag("hltL2TauJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSingleL2Tau26eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(26.0),
inputTag = cms.InputTag("hltL2TauJetsL1TauSeeded"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSingleL2Tau35eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltL2TauJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSingleL2Tau80eta2p2 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltL2TauJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSinglePFBJets40Eta2p3 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.3),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltAK4PFJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltSinglePFFwdJet140 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets110"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet140AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets110AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet15 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets5"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet15AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets5AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet200 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets170"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet200AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets170AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet25 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(25.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets10"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet25AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(25.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets10AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet260 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(260.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets210"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet260AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(260.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets210AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet320 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(320.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets270"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet320AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(320.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets270AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet40 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets10"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet400 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets350"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet400AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets350AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet40AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets10AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet450 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets400"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet450AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets400AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet500 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(500.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets450"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet500AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(500.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets450AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet60 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets40"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet60AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets40AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet80 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets50"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFFwdJet80AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(2.7),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloFwdJets50AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet100er2p5 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(100.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets70"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet140 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets110"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet140AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(140.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets110AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet15 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets5"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet200 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets170"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet200AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(200.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets170AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet25 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(25.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets10"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet25AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(25.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets5AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet260 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(260.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets210"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet260AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(260.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets210AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet320 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(320.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets270"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet320AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(320.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets270AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet330AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(330.0),
inputTag = cms.InputTag("hltAK8PFJetsCorrectedMatchedToCaloJets300"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet330AK8ForDB = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(30.0),
MinN = cms.int32(1),
MinPt = cms.double(0.0),
inputTag = cms.InputTag("hltAK8TrimModJetsCorrectedMatchedToCaloJets300ForDB"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet40 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets10"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet400 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets350"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet400AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(400.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets350AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet40AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(40.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets10AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet450 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets400"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet450AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(450.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets400AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet500 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(500.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets450"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet500AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(500.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets450AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet550 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(550.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets450"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet550AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(550.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets500AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet60 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets40"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet60AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(60.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets40AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet80 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets50"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFJet80AK8 = cms.EDFilter("HLT1PFJet",
MaxEta = cms.double(5.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(80.0),
inputTag = cms.InputTag("hltPFJetsCorrectedMatchedToCaloJets50AK8"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltSinglePFTau35Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltPFTausReg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSinglePFTau35TrackPt1Reg = cms.EDFilter("HLT1PFTau",
MaxEta = cms.double(2.1),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(35.0),
inputTag = cms.InputTag("hltSelectedPFTausTrackPt1Reg"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltSingleTrkMuFiltered12NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(12.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltSingleTrkMuFiltered16NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(16.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltSingleTrkMuFiltered17NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(17.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltSingleTrkMuFiltered6NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(1),
minPt = cms.double(6.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltStoppedHSCP1CaloJetEnergy30 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.7),
MaxMass = cms.double(-1.0),
MinE = cms.double(30.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltStoppedHSCPIterativeCone4CaloJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltStoppedHSCP1CaloJetEnergy60 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.7),
MaxMass = cms.double(-1.0),
MinE = cms.double(60.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltStoppedHSCPIterativeCone4CaloJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltStoppedHSCP1CaloJetEnergy70 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.7),
MaxMass = cms.double(-1.0),
MinE = cms.double(70.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(-1.0),
inputTag = cms.InputTag("hltStoppedHSCPIterativeCone4CaloJets"),
saveTags = cms.bool(True),
triggerType = cms.int32(85)
)
process.hltStoppedHSCPHpdFilter = cms.EDFilter("HLTHPDFilter",
energy = cms.double(-99.0),
hpdSpikeEnergy = cms.double(10.0),
hpdSpikeIsolationEnergy = cms.double(1.0),
inputTag = cms.InputTag("hltHbhereco"),
rbxSpikeEnergy = cms.double(50.0),
rbxSpikeUnbalance = cms.double(0.2)
)
process.hltStripTrackerHVOn = cms.EDFilter("DetectorStateFilter",
DCSRecordLabel = cms.untracked.InputTag("hltOnlineMetaDataDigis"),
DcsStatusLabel = cms.untracked.InputTag("hltScalersRawToDigi"),
DebugOn = cms.untracked.bool(False),
DetectorType = cms.untracked.string('sistrip')
)
process.hltSusyPreBtagJetFilter = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.6),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(2),
MinPt = cms.double(30.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrected"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltTau3MuIsoFilter = cms.EDFilter("HLT1Composite",
MaxEta = cms.double(2.5),
MaxMass = cms.double(2.1),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(1.3),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltTauPt15MuPts711Mass1p3to2p1Iso","SelectedTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltTau3MuIsoFilterCharge1 = cms.EDFilter("HLT1Composite",
MaxEta = cms.double(2.5),
MaxMass = cms.double(2.1),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(1.3),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltTauPt15MuPts711Mass1p3to2p1IsoCharge1","SelectedTaus"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltTau3MuPreFilter = cms.EDFilter("HLT1Composite",
MaxEta = cms.double(2.5),
MaxMass = cms.double(2.1),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(1.3),
MinN = cms.int32(1),
MinPt = cms.double(15.0),
inputTag = cms.InputTag("hltTauPt15MuPts711Mass1p3to2p1Iso","Taus"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltTau3MuPreFilterCharge1 = cms.EDFilter("HLT1Composite",
MaxEta = cms.double(2.5),
MaxMass = cms.double(2.1),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(1.3),
MinN = cms.int32(1),
MinPt = cms.double(1.5),
inputTag = cms.InputTag("hltTauPt15MuPts711Mass1p3to2p1IsoCharge1","Taus"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltTau3MuTriMuon1filter = cms.EDFilter("HLT1Muon",
MaxEta = cms.double(-1.0),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(1.0),
inputTag = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
saveTags = cms.bool(True),
triggerType = cms.int32(0)
)
process.hltTau3muNoL1MassTkVertexFilter = cms.EDFilter("HLTmumutkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(8.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(2.0),
MinPt = cms.double(8.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltTau3muNoL1MassTkVertexProducer"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltTau3muNoL1MassTkAllConeTracksIter"),
saveTags = cms.bool(True)
)
process.hltTau3muTkVertexFilter = cms.EDFilter("HLTmumutkFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
MaxEta = cms.double(2.5),
MaxNormalisedChi2 = cms.double(8.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(2.0),
MinPt = cms.double(8.0),
MinVtxProbability = cms.double(0.0),
MuMuTkVertexTag = cms.InputTag("hltTau3muTkVertexProducer"),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
TrackTag = cms.InputTag("hltTau3muTkAllConeTracksIter"),
saveTags = cms.bool(True)
)
process.hltTauJet5 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(2.5),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(1),
MinPt = cms.double(5.0),
inputTag = cms.InputTag("hltAK4CaloJetsPFEt5"),
saveTags = cms.bool(True),
triggerType = cms.int32(84)
)
process.hltTriEG20CaloIdLV2ClusterShapeUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20HEUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(True),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.013),
thrRegularEE = cms.vdouble(0.033),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaClusterShapeUnseeded","sigmaIEtaIEta5x5NoiseCleaned")
)
process.hltTriEG20CaloIdLV2R9IdVLR9IdUnseededFilter = cms.EDFilter("HLTEgammaGenericFilter",
absEtaLowEdges = cms.vdouble(0.0, 1.479),
candTag = cms.InputTag("hltEG20CaloIdLV2ClusterShapeUnseededFilter"),
doRhoCorrection = cms.bool(False),
effectiveAreas = cms.vdouble(0.0, 0.0),
energyLowEdges = cms.vdouble(0.0),
l1EGCand = cms.InputTag("hltEgammaCandidatesUnseeded"),
lessThan = cms.bool(False),
ncandcut = cms.int32(3),
rhoMax = cms.double(99999999.0),
rhoScale = cms.double(1.0),
rhoTag = cms.InputTag(""),
saveTags = cms.bool(True),
thrOverE2EB = cms.vdouble(-1.0),
thrOverE2EE = cms.vdouble(-1.0),
thrOverEEB = cms.vdouble(-1.0),
thrOverEEE = cms.vdouble(-1.0),
thrRegularEB = cms.vdouble(0.5),
thrRegularEE = cms.vdouble(0.8),
useEt = cms.bool(False),
varTag = cms.InputTag("hltEgammaR9IDUnseeded","r95x5")
)
process.hltTriggerType = cms.EDFilter("HLTTriggerTypeFilter",
SelectedTriggerType = cms.int32(1)
)
process.hltTripleJet50 = cms.EDFilter("HLT1CaloJet",
MaxEta = cms.double(5.2),
MaxMass = cms.double(-1.0),
MinE = cms.double(-1.0),
MinEta = cms.double(-1.0),
MinMass = cms.double(-1.0),
MinN = cms.int32(3),
MinPt = cms.double(50.0),
inputTag = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
saveTags = cms.bool(True),
triggerType = cms.int32(86)
)
process.hltTripleMu0L3PreFiltered0 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuon0L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(0.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuon0L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleMu0NoL1MassL3PreFiltered0 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuon53p52p5L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(0.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuon53p52p5L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleMu533Mass3p8DCAFilter = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(999999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltTripleMu533Mass3p8toInfFilter = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(0),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMu553L1TriMuFiltered3"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(99999.9),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(999999.0),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-1.0),
MinInvMass = cms.vdouble(3.8),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(3.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL1TripleMu553L2TriMuFiltered3"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltTripleMu533TripleDZ0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(3),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1TripleMu553f0PreFiltered333"),
inputTag2 = cms.InputTag("hltL3fL1TripleMu553f0PreFiltered333"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltTripleMu555TripleDZ0p2 = cms.EDFilter("HLT2MuonMuonDZ",
MaxDZ = cms.double(0.2),
MinDR = cms.double(0.001),
MinN = cms.int32(3),
MinPixHitsForDZ = cms.int32(1),
checkSC = cms.bool(False),
inputTag1 = cms.InputTag("hltL3fL1TripleMu553f0PreFiltered555"),
inputTag2 = cms.InputTag("hltL3fL1TripleMu553f0PreFiltered555"),
originTag1 = cms.VInputTag("hltIterL3MuonCandidates"),
originTag2 = cms.VInputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True),
triggerType1 = cms.int32(83),
triggerType2 = cms.int32(83)
)
process.hltTripleMuL3PreFiltered222 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuonL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(2.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonL2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleMuL3V2PreFiltered0 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuonV2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(3),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(2.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonV2L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleMuL3V2bPreFiltered0 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuonV2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(2),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(3.5),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonV2L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleMuL3V2cPreFiltered0 = cms.EDFilter("HLTMuonL3PreFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuonV2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxDXYBeamSpot = cms.double(9999.0),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxNormalizedChi2 = cms.double(9999.0),
MaxNormalizedChi2_L3FromL1 = cms.double(1e+99),
MaxPtDifference = cms.double(9999.0),
MinDXYBeamSpot = cms.double(-1.0),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinNmuonHits = cms.int32(0),
MinPt = cms.double(5.0),
MinTrackPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonV2L2PreFiltered0"),
allowedTypeMask = cms.uint32(255),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minTrkHits = cms.int32(-1),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleMuon0L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(3),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sTripleMu0"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltTripleMuon0L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuon0L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltTripleMuon53p52p5L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(3),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sTripleMu53p52p5"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltTripleMuon53p52p5L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuon53p52p5L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltTripleMuonL1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(3),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1TripleMu5SQ3SQ0OQDoubleMu53SQOSMassMax9"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(False)
)
process.hltTripleMuonL2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonL1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltTripleMuonV2L1Filtered0 = cms.EDFilter("HLTMuonL1TFilter",
CandTag = cms.InputTag("hltGtStage2Digis","Muon"),
CentralBxOnly = cms.bool(True),
MaxEta = cms.double(2.5),
MinN = cms.int32(3),
MinPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltL1sTripleMuV1OSM5to17"),
SelectQualities = cms.vint32(),
saveTags = cms.bool(True)
)
process.hltTripleMuonV2L2PreFiltered0 = cms.EDFilter("HLTMuonL2FromL1TPreFilter",
AbsEtaBins = cms.vdouble(0.0),
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltL2MuonCandidates"),
CutOnChambers = cms.bool(False),
MatchToPreviousCand = cms.bool(True),
MaxDr = cms.double(9999.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MinDr = cms.double(-1.0),
MinDxySig = cms.double(-1.0),
MinN = cms.int32(0),
MinNchambers = cms.vint32(0),
MinNhits = cms.vint32(0),
MinNstations = cms.vint32(0),
MinPt = cms.double(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandTag = cms.InputTag("hltTripleMuonV2L1Filtered0"),
SeedMapTag = cms.InputTag("hltL2Muons"),
saveTags = cms.bool(True)
)
process.hltTripleTrkMuFiltered5NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(3),
minPt = cms.double(5.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleTrkMuFiltered6NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(3),
minPt = cms.double(6.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTripleTrkMuFiltered8NoVtx = cms.EDFilter("HLTMuonTrkL1TFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonCandsNoVtx"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsNoVtx"),
maxAbsEta = cms.double(2.5),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(2),
minN = cms.uint32(3),
minPt = cms.double(8.0),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(4),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltTrk50Filter = cms.EDFilter("HLTDeDxFilter",
caloTowersTag = cms.InputTag("hltTowerMakerForAll"),
inputDeDxTag = cms.InputTag("hltDeDxEstimatorProducer"),
inputTracksTag = cms.InputTag("hltMergedTracks"),
maxAssocCaloE = cms.double(100.0),
maxAssocCaloEDeltaRSize = cms.double(0.5),
maxETA = cms.double(5.5),
maxNHitMissIn = cms.double(0.0),
maxNHitMissMid = cms.double(0.0),
maxRelTrkIsoDeltaRp3 = cms.double(0.05),
minDEDx = cms.double(-1.0),
minNOM = cms.double(-1.0),
minNumValidHits = cms.double(5.0),
minPT = cms.double(50.0),
relTrkIsoDeltaRSize = cms.double(0.3),
saveTags = cms.bool(True)
)
process.hltTwoPromptHLTL3DisplacedDijetFullTracksHLTCaloJetTagFilterLowPt = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL3DisplacedDijetFullTracksJetTagProducerFromIPLowPt"),
Jets = cms.InputTag("hltCentralCaloJetptLowPtCollectionProducer"),
MaxTag = cms.double(2.5),
MinJets = cms.int32(2),
MinTag = cms.double(-999999.0),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltTwoPromptHLTL3DisplacedDijetFullTracksHLTCaloJetTagFilterMidPt = cms.EDFilter("HLTCaloJetTag",
JetTags = cms.InputTag("hltL3DisplacedDijetFullTracksJetTagProducerFromIPMidPt"),
Jets = cms.InputTag("hltCentralCaloJetptMidPtCollectionProducer"),
MaxTag = cms.double(2.5),
MinJets = cms.int32(2),
MinTag = cms.double(-999999.0),
TriggerType = cms.int32(85),
saveTags = cms.bool(True)
)
process.hltUpsilon0MuonL3FilteredL1sTM0 = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuon0L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.4),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(5.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltTripleMuon0L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltUpsilon0MuonL3FilteredNoL1Mass = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuon53p52p5L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.4),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(5.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltTripleMuon53p52p5L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltUpsilonMuon53p52OpenMuonL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidatesOpenMu"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3LinksOpenMu"),
L1CandTag = cms.InputTag("hltL1fForIterL3L1TripleMuOpen53p52UpsilonMuonL1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.5),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltL2TripleMuOpen53p52UpsilonMuonL2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3MuonsOpenMu"),
saveTags = cms.bool(True)
)
process.hltUpsilonMuonL3Filtered = cms.EDFilter("HLTMuonDimuonL3Filter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
CandTag = cms.InputTag("hltIterL3MuonCandidates"),
ChargeOpt = cms.int32(-1),
CutCowboys = cms.bool(False),
FastAccept = cms.bool(False),
InputLinks = cms.InputTag("hltL3MuonsIterL3Links"),
L1CandTag = cms.InputTag("hltL1fForIterL3TripleMuonV2L1Filtered0"),
L1MatchingdR = cms.double(0.3),
MatchToPreviousCand = cms.bool(True),
MaxAcop = cms.double(999.0),
MaxDCAMuMu = cms.double(0.5),
MaxDr = cms.double(2.0),
MaxDz = cms.double(9999.0),
MaxEta = cms.double(2.5),
MaxInvMass = cms.vdouble(11.4),
MaxPtBalance = cms.double(999999.0),
MaxPtMin = cms.vdouble(1e+125),
MaxPtPair = cms.vdouble(1e+125),
MaxRapidityPair = cms.double(999999.0),
MinAcop = cms.double(-999.0),
MinInvMass = cms.vdouble(8.5),
MinN = cms.int32(1),
MinNhits = cms.int32(0),
MinPtBalance = cms.double(-1.0),
MinPtMax = cms.vdouble(0.0),
MinPtMin = cms.vdouble(0.0),
MinPtPair = cms.vdouble(0.0),
NSigmaPt = cms.double(0.0),
PreviousCandIsL2 = cms.bool(True),
PreviousCandTag = cms.InputTag("hltTripleMuonV2L2PreFiltered0"),
inputMuonCollection = cms.InputTag("hltIterL3Muons"),
saveTags = cms.bool(True)
)
process.hltVBFCaloJetEtaSortedMqq150Deta1p5 = cms.EDFilter("HLTCaloJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(1.5),
Dphibb = cms.double(10.0),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(150.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag(""),
inputJets = cms.InputTag("hltAK4CaloJetsCorrectedIDPassed"),
njets = cms.int32(4),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('Eta')
)
process.hltVBFPFJetCSVSortedMqq200Detaqq1p5 = cms.EDFilter("HLTPFJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(1.5),
Dphibb = cms.double(2.8),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(200.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
inputJets = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
njets = cms.int32(6),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('2BTagAndPt')
)
process.hltVBFPFJetCSVSortedMqq200Detaqq1p5ROIForBTag = cms.EDFilter("HLTPFJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(1.5),
Dphibb = cms.double(2.8),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(200.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
inputJets = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
njets = cms.int32(6),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('2BTagAndPt')
)
process.hltVBFPFJetCSVSortedMqq460Detaqq3p5 = cms.EDFilter("HLTPFJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(3.5),
Dphibb = cms.double(1.9),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(460.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPF","probb"),
inputJets = cms.InputTag("hltAK4PFJetsLooseIDCorrected"),
njets = cms.int32(4),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('1BTagAndEta')
)
process.hltVBFPFJetCSVSortedMqq460Detaqq3p5ROIForBTag = cms.EDFilter("HLTPFJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(3.5),
Dphibb = cms.double(1.9),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(460.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag","probb"),
inputJets = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
njets = cms.int32(4),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('1BTagAndEta')
)
process.hltVBFPFJetDeepJetSortedMqq200Detaqq1p5ROIForBTag = cms.EDFilter("HLTPFJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(1.5),
Dphibb = cms.double(2.8),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(200.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
inputJets = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
njets = cms.int32(6),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('2BTagAndPt')
)
process.hltVBFPFJetDeepJetSortedMqq460Detaqq3p5ROIForBTag = cms.EDFilter("HLTPFJetSortedVBFFilter",
Detabb = cms.double(999.0),
Detaqq = cms.double(3.5),
Dphibb = cms.double(1.9),
Etaq1Etaq2 = cms.double(999.0),
Mqq = cms.double(460.0),
Ptsumbb = cms.double(0.0),
Ptsumqq = cms.double(0.0),
inputJetTags = cms.InputTag("hltDeepJetDiscriminatorsJetTagsROIForBTag","BvsAll"),
inputJets = cms.InputTag("hltAK4PFJetsLooseIDCorrectedROIForBTag"),
njets = cms.int32(4),
saveTags = cms.bool(True),
triggerType = cms.int32(85),
value = cms.string('1BTagAndEta')
)
process.hltVertexmumuFilterDiMu5EG3 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDiMu5EG3"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltVertexmumuFilterJpsiMuon3p5 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerJpsiMuon3p5"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltVertexmumuFilterUpsilon0MuonL1sTM0 = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerUpsilon0MuonL1sTM0"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltVertexmumuFilterUpsilon0MuonNoL1Mass = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerUpsilon0MuonNoL1Mass"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltVertexmumuFilterUpsilonMuon = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerUpsilonMuon"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.hltVertexmumuFilterUpsilonMuon53p52OpenMuon = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerUpsilonMuon53p52OpenMuon"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(-2.0),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.005),
MuonTag = cms.InputTag("hltIterL3MuonCandidatesOpenMu"),
saveTags = cms.bool(True)
)
process.hltVerticesL3FilterROIForBTag = cms.EDFilter("VertexSelector",
cut = cms.string('!isFake'),
filter = cms.bool(True),
src = cms.InputTag("hltVerticesL3SelectorROIForBTag")
)
process.hltVerticesL3SelectorROIForBTag = cms.EDFilter("PrimaryVertexObjectFilter",
filterParams = cms.PSet(
maxRho = cms.double(2.0),
maxZ = cms.double(24.0),
minNdof = cms.double(4.0),
pvSrc = cms.InputTag("hltVerticesL3ROIForBTag")
),
src = cms.InputTag("hltVerticesL3ROIForBTag")
)
process.hltVerticesPFFilter = cms.EDFilter("VertexSelector",
cut = cms.string('!isFake'),
filter = cms.bool(True),
src = cms.InputTag("hltVerticesPFSelector")
)
process.hltVerticesPFFilterROIForBTag = cms.EDFilter("VertexSelector",
cut = cms.string('!isFake'),
filter = cms.bool(True),
src = cms.InputTag("hltVerticesPFSelectorROIForBTag")
)
process.hltVerticesPFSelector = cms.EDFilter("PrimaryVertexObjectFilter",
filterParams = cms.PSet(
maxRho = cms.double(2.0),
maxZ = cms.double(24.0),
minNdof = cms.double(4.0),
pvSrc = cms.InputTag("hltVerticesPF")
),
src = cms.InputTag("hltVerticesPF")
)
process.hltVerticesPFSelectorROIForBTag = cms.EDFilter("PrimaryVertexObjectFilter",
filterParams = cms.PSet(
maxRho = cms.double(2.0),
maxZ = cms.double(24.0),
minNdof = cms.double(4.0),
pvSrc = cms.InputTag("hltVerticesPFROIForBTag")
),
src = cms.InputTag("hltVerticesPFROIForBTag")
)
process.hltdstau3muDisplaced3muFltr = cms.EDFilter("HLTDisplacedmumumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltdstau3muDisplaced3muVtxProducer"),
FastAccept = cms.bool(False),
MaxLxySignificance = cms.double(0.0),
MaxNormalisedChi2 = cms.double(8.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(2.0),
MinVtxProbability = cms.double(0.0),
MuonTag = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
saveTags = cms.bool(True)
)
process.hltdstau3mumuontrkFltr = cms.EDFilter("HLTMuonTrkFilter",
allowedTypeMask = cms.uint32(255),
inputCandCollection = cms.InputTag("hltGlbTrkMuonLowPtIter01MergeCands"),
inputMuonCollection = cms.InputTag("hltGlbTrkMuonsLowPtIter01Merge"),
maxAbsEta = cms.double(1e+99),
maxNormalizedChi2 = cms.double(1e+99),
minMuonHits = cms.int32(-1),
minMuonStations = cms.int32(-1),
minN = cms.uint32(3),
minPt = cms.double(1.2),
minTrkHits = cms.int32(-1),
previousCandTag = cms.InputTag(""),
requiredTypeMask = cms.uint32(0),
saveTags = cms.bool(True),
trkMuonId = cms.uint32(0)
)
process.hltmumuFilterDoubleMu43Jpsi = cms.EDFilter("HLTDisplacedmumuFilter",
BeamSpotTag = cms.InputTag("hltOnlineBeamSpot"),
DisplacedVertexTag = cms.InputTag("hltDisplacedmumuVtxProducerDoubleMu43Jpsi"),
FastAccept = cms.bool(True),
MaxLxySignificance = cms.double(-1.0),
MaxNormalisedChi2 = cms.double(999999.0),
MinCosinePointingAngle = cms.double(0.9),
MinLxySignificance = cms.double(0.0),
MinVtxProbability = cms.double(0.1),
MuonTag = cms.InputTag("hltIterL3MuonCandidates"),
saveTags = cms.bool(True)
)
process.statusOnGPUFilter = cms.EDFilter("BooleanFilter",
src = cms.InputTag("statusOnGPU")
)
process.VertexHistograms_hltPixelVertices = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltPixelVertices")
)
process.VertexHistograms_hltTrimmedPixelVertices = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltTrimmedPixelVertices")
)
process.VertexHistograms_hltVerticesL3FilterROIForBTag = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesL3FilterROIForBTag")
)
process.VertexHistograms_hltVerticesL3ROIForBTag = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesL3ROIForBTag")
)
process.VertexHistograms_hltVerticesL3SelectorROIForBTag = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesL3SelectorROIForBTag")
)
process.VertexHistograms_hltVerticesPF = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesPF")
)
process.VertexHistograms_hltVerticesPFFilter = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesPFFilter")
)
process.VertexHistograms_hltVerticesPFFilterROIForBTag = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesPFFilterROIForBTag")
)
process.VertexHistograms_hltVerticesPFROIForBTag = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesPFROIForBTag")
)
process.VertexHistograms_hltVerticesPFSelectorROIForBTag = cms.EDAnalyzer("VertexHistogrammer",
mightGet = cms.optional.untracked.vstring,
src = cms.InputTag("hltVerticesPFSelectorROIForBTag")
)
process.allEvents = cms.EDAnalyzer("EventCounter")
process.btagana = cms.EDAnalyzer("HLTBTagAnalyzer",
BranchNamePrefix = cms.string(''),
BranchNamePrefix2 = cms.string('CaloJet'),
BranchNamePrefix3 = cms.string('PuppiJet'),
CaloJetDeepCSVTags = cms.InputTag("hltDeepCombinedSecondaryVertexCaloPatBJetTags","probb"),
CaloJetTags = cms.InputTag("hltDeepCombinedSecondaryVertexBJetCaloPatTagInfos"),
CaloJets = cms.InputTag("hltPatJetsCalo"),
CaloSVs = cms.InputTag("hltInclusiveSecondaryVertexFinderPatTagInfos"),
Jets = cms.InputTag("hltPatJets"),
MaxEta = cms.double(2.5),
MinPt = cms.double(25.0),
PuppiJets = cms.InputTag("hltPatJetsPuppi"),
R0 = cms.double(0.8),
TriggerPathNames = cms.vstring(
'HLT_PFJet40_v*',
'HLT_PFJet60_v*',
'HLT_PFJet80_v*',
'HLT_PFJet140_v*',
'HLT_PFJet200_v*',
'HLT_PFJet260_v*',
'HLT_PFJet320_v*',
'HLT_PFJet400_v*',
'HLT_PFJet450_v*',
'HLT_PFJet500_v*',
'HLT_PFJet550_v*',
'HLT_AK8PFJet40_v*',
'HLT_AK8PFJet60_v*',
'HLT_AK8PFJet80_v*',
'HLT_AK8PFJet140_v*',
'HLT_AK8PFJet200_v*',
'HLT_AK8PFJet260_v*',
'HLT_AK8PFJet320_v*',
'HLT_AK8PFJet400_v*',
'HLT_AK8PFJet450_v*',
'HLT_AK8PFJet500_v*',
'HLT_AK8PFJet550_v*',
'HLT_PFHT180_v*',
'HLT_PFHT250_v*',
'HLT_PFHT370_v*',
'HLT_PFHT430_v*',
'HLT_PFHT510_v*',
'HLT_PFHT590_v*',
'HLT_PFHT680_v*',
'HLT_PFHT780_v*',
'HLT_PFHT890_v*',
'HLT_PFHT1050_v*',
'HLT_BTagMu_AK4DiJet20_Mu5_v*',
'HLT_BTagMu_AK4DiJet40_Mu5_v*',
'HLT_BTagMu_AK4DiJet70_Mu5_v*',
'HLT_BTagMu_AK4DiJet110_Mu5_v*',
'HLT_BTagMu_AK4DiJet170_Mu5_v*',
'HLT_BTagMu_AK4Jet300_Mu5_v*',
'HLT_BTagMu_AK8DiJet170_Mu5_v*',
'HLT_BTagMu_AK8Jet300_Mu5_v*',
'HLT_BTagMu_AK4DiJet20_Mu5_noalgo_v*',
'HLT_BTagMu_AK4DiJet40_Mu5_noalgo_v*',
'HLT_BTagMu_AK4DiJet70_Mu5_noalgo_v*',
'HLT_BTagMu_AK4DiJet110_Mu5_noalgo_v*',
'HLT_BTagMu_AK4DiJet170_Mu5_noalgo_v*',
'HLT_BTagMu_AK4Jet300_Mu5_noalgo_v*',
'HLT_BTagMu_AK8DiJet170_Mu5_noalgo_v*',
'HLT_BTagMu_AK8Jet300_Mu5_noalgo_v*',
'HLT_BTagMu_AK8Jet170_DoubleMu5_noalgo_v*'
),
allowJetSkipping = cms.bool(True),
badPull = cms.untracked.double(3.0),
beamSpot = cms.untracked.InputTag("offlineBeamSpot"),
bestMatchByMaxValue = cms.untracked.bool(True),
beta = cms.double(1.0),
candidates = cms.InputTag("hltParticleFlowROIForBTag"),
clusterTPMap = cms.InputTag("tpClusterProducer"),
decayLength = cms.double(5.0),
deepCSVBCaloJetTags = cms.string('hltDeepCombinedSecondaryVertexCaloPatBJetTags'),
deepCSVBJetTags = cms.string('hltDeepCombinedSecondaryVertexBPFPatJetTags'),
deepCSVBPuppiJetTags = cms.string('hltDeepCombinedSecondaryVertexBPFPuppiPatJetTags'),
deepFlavourJetTags = cms.string('hltPFDeepFlavourPatJetTags'),
deepFlavourPuppiJetTags = cms.string('hltPFPuppiDeepFlavourJetTags'),
deepFlavourPuppiTagInfos = cms.string('hltPFPuppiDeepFlavour'),
deepFlavourTagInfos = cms.string('hltPFDeepFlavourPat'),
deltaR = cms.double(0.3),
distJetAxis = cms.double(0.07),
electronCollectionName = cms.InputTag("hltEgammaGsfElectrons"),
enableRecoToSim = cms.untracked.bool(True),
enableSimToReco = cms.untracked.bool(False),
explicitJTA = cms.bool(False),
fillPU = cms.bool(True),
genParticles = cms.InputTag("genParticles"),
groups = cms.VPSet(
cms.PSet(
description = cms.string('Test'),
group = cms.string('test'),
store = cms.bool(False),
variables = cms.vstring(
'nBitTrigger',
'BitTrigger',
'Run',
'Evt',
'LumiBlock',
'pthat',
'mcweight',
'nPV',
'PVz',
'cQuark_eta',
'Genlep_status',
'TrkAll_nHitPXB',
'PatMuon_pt',
'Jet_DeepFlavourB',
'Jet_DeepCSVc',
'PFElectron_pt',
'PFMuon_pt',
'CTag_vertexMass'
)
),
cms.PSet(
description = cms.string('Test Fat and SubJets'),
group = cms.string('testfat'),
store = cms.bool(False),
variables = cms.vstring(
'nBitTrigger',
'BitTrigger',
'Run',
'Evt',
'LumiBlock',
'pthat',
'mcweight',
'nPV',
'PVz',
'cQuark_eta',
'Genlep_status',
'TrkAll_nHitPXB',
'PatMuon_pt',
'Jet_DeepFlavourB',
'Jet_DeepCSVc',
'PFElectron_pt',
'PFMuon_pt',
'CTag_vertexMass',
'FatJetInfo.Jet_pt',
'SoftDropPuppiSubJetInfo.Jet_eta'
)
),
cms.PSet(
description = cms.string('Event Info Variables'),
group = cms.string('EventInfo'),
store = cms.bool(True),
variables = cms.vstring(
'nBitTrigger',
'BitTrigger',
'Run',
'Evt',
'LumiBlock',
'pthat',
'mcweight',
'nPV',
'PVz',
'PVez',
'GenPVz',
'rho',
'nPUtrue',
'nPU'
)
),
cms.PSet(
description = cms.string('Quark Variables'),
group = cms.string('Quarks'),
store = cms.bool(False),
variables = cms.vstring(
'ncQuarks',
'cQuark_pT',
'cQuark_eta',
'cQuark_phi',
'cQuark_pdgID',
'cQuark_status',
'cQuark_fromGSP',
'nbQuarks',
'bQuark_pT',
'bQuark_eta',
'bQuark_phi',
'bQuark_pdgID',
'bQuark_status',
'bQuark_fromGSP'
)
),
cms.PSet(
description = cms.string('Hadron Variables'),
group = cms.string('Hadrons'),
store = cms.bool(False),
variables = cms.vstring(
'nBHadrons',
'BHadron_pT',
'BHadron_eta',
'BHadron_phi',
'BHadron_mass',
'BHadron_pdgID',
'BHadron_mother',
'BHadron_hasBdaughter',
'BHadron_SVx',
'BHadron_SVy',
'BHadron_SVz',
'BHadron_nCharged',
'BHadron_DHadron1',
'BHadron_DHadron2',
'nDHadrons',
'nDaughters',
'DHadron_pT',
'DHadron_eta',
'DHadron_phi',
'DHadron_mass',
'DHadron_SVx',
'DHadron_SVy',
'DHadron_SVz',
'DHadron_pdgID',
'DHadron_nDaughters',
'DHadron_DaughtersPdgID',
'DHadron_nChargedDaughters',
'DHadron_nCharged'
)
),
cms.PSet(
description = cms.string('Gen Variables'),
group = cms.string('GenVars'),
store = cms.bool(False),
variables = cms.vstring(
'nGenlep',
'Genlep_pT',
'Genlep_eta',
'Genlep_phi',
'Genlep_pdgID',
'Genlep_status',
'Genlep_mother',
'nGenquark',
'Genquark_pT',
'Genquark_eta',
'Genquark_phi',
'Genquark_pdgID',
'Genquark_mother',
'nGenV0',
'GenV0_pT',
'GenV0_eta',
'GenV0_phi',
'GenV0_pdgID',
'GenV0_SVx',
'GenV0_SVy',
'GenV0_SVz',
'GenV0_nCharged',
'nGenPruned',
'GenPruned_pT',
'GenPruned_eta',
'GenPruned_phi',
'GenPruned_mass',
'GenPruned_status',
'GenPruned_pdgID',
'GenPruned_mother'
)
),
cms.PSet(
description = cms.string('PV Variables'),
group = cms.string('PV'),
store = cms.bool(True),
variables = cms.vstring(
'nPV',
'BX',
'PV_x',
'PV_y',
'PV_z',
'PV_ex',
'PV_ey',
'PV_ez',
'PV_chi2',
'PV_ndf',
'PV_isgood',
'PV_isfake'
)
),
cms.PSet(
description = cms.string('Track Variables'),
group = cms.string('AllTrack'),
store = cms.bool(False),
variables = cms.vstring(
'nTrkAll',
'TrkAll_d0',
'TrkAll_dz',
'TrkAll_p',
'TrkAll_pt',
'TrkAll_eta',
'TrkAll_phi',
'TrkAll_chi2',
'TrkAll_charge',
'TrkAll_nHitAll',
'TrkAll_nHitPixel',
'TrkAll_nHitStrip',
'TrkAll_nHitTIB',
'TrkAll_nHitTID',
'TrkAll_nHitTOB',
'TrkAll_nHitTEC',
'TrkAll_nHitPXB',
'TrkAll_nHitPXF',
'TrkAll_isHitL1',
'TrkAll_nSiLayers',
'TrkAll_nPxLayers',
'TrkAll_PV',
'TrkAll_PVweight'
)
),
cms.PSet(
description = cms.string(' Variables'),
group = cms.string('TTbar'),
store = cms.bool(False),
variables = cms.vstring(
'ttbar_chan',
'ttbar_trigWord',
'ttbar_metfilterWord',
'ttbar_allmepartons',
'ttbar_matchmepartons',
'ttbar_ng',
'ttbar_gid',
'ttbar_nl',
'ttbar_lid',
'ttbar_lgid',
'ttbar_lch',
'ttbar_nw',
'ttbar_gpt',
'ttbar_geta',
'ttbar_gphi',
'ttbar_gm',
'ttbar_lpt',
'ttbar_leta',
'ttbar_lphi',
'ttbar_lm',
'ttbar_metpt',
'ttbar_metphi',
'ttbar_w',
'ttbar_ptweight'
)
),
cms.PSet(
description = cms.string(' Variables'),
group = cms.string('PatMuon'),
store = cms.bool(False),
variables = cms.vstring(
'nPatMuon',
'PatMuon_pt',
'PatMuon_eta',
'PatMuon_phi',
'PatMuon_isSoftMuon',
'PatMuon_isMediumMuon',
'PatMuon_isTightMuon',
'PatMuon_iso',
'PatMuon_isoTrackerOnly',
'PatMuon_IP',
'PatMuon_IPsig',
'PatMuon_IP2D',
'PatMuon_IP2Dsig'
)
),
cms.PSet(
description = cms.string('Jet Info Variables'),
group = cms.string('JetInfo'),
store = cms.bool(True),
variables = cms.vstring(
'nJet',
'Jet_pt',
'Jet_uncorrpt',
'Jet_genpt',
'Jet_residual',
'Jet_area',
'Jet_jes',
'Jet_eta',
'Jet_phi',
'Jet_mass',
'Jet_Ip1N',
'Jet_Ip1P',
'Jet_Ip2N',
'Jet_Ip2P',
'Jet_Ip3N',
'Jet_Ip3P',
'Jet_Ip4N',
'Jet_Ip4P',
'Jet_Mass4N',
'Jet_Mass4P',
'Jet_ProbaN',
'Jet_Proba',
'Jet_BprobN',
'Jet_Bprob',
'Jet_Svx',
'Jet_SvxHP',
'Jet_CombIVF',
'Jet_CombIVF_N',
'Jet_SoftMuN',
'Jet_SoftMu',
'Jet_SoftElN',
'Jet_SoftEl',
'Jet_DoubleSV',
'Jet_cMVAv2',
'Jet_cMVAv2N',
'Jet_trackSip2dSig_AboveBottom_0',
'Jet_trackSip2dSig_AboveBottom_1',
'Jet_hist1',
'Jet_hist2',
'Jet_hist3',
'Jet_histJet',
'Jet_histSvx',
'Jet_ntracks',
'Jet_nseltracks',
'Jet_flavour',
'Jet_flavourCleaned',
'Jet_partonFlavour',
'Jet_hadronFlavour',
'Jet_partonid',
'Jet_nbHadrons',
'Jet_ncHadrons',
'Jet_isB',
'Jet_isLeptonicB',
'Jet_isLeptonicB_C',
'Jet_isGBB',
'Jet_isBB',
'Jet_isC',
'Jet_isGCC',
'Jet_isCC',
'Jet_isTau',
'Jet_isG',
'Jet_isUD',
'Jet_isS',
'Jet_isUndefined',
'Jet_GenJetHasMatch',
'Jet_GenJet_pt',
'Jet_GenJet_eta',
'Jet_GenJet_phi',
'Jet_GenJet_mass',
'Jet_nFirstTrack',
'Jet_nLastTrack',
'Jet_nFirstTrackTruth',
'Jet_nLastTrackTruth',
'Jet_nFirstSV',
'Jet_nLastSV',
'Jet_SV_multi',
'Jet_nFirstTrkInc',
'Jet_nLastTrkInc',
'Jet_nSM',
'Jet_nFirstSM',
'Jet_nLastSM',
'Jet_nSE',
'Jet_nFirstSE',
'Jet_nLastSE',
'Jet_looseID',
'Jet_tightID'
)
),
cms.PSet(
description = cms.string('CaloJet Info Variables'),
group = cms.string('CaloJetInfo'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.nJet',
'CaloJet.Jet_pt',
'CaloJet.Jet_uncorrpt',
'CaloJet.Jet_genpt',
'CaloJet.Jet_residual',
'CaloJet.Jet_area',
'CaloJet.Jet_jes',
'CaloJet.Jet_eta',
'CaloJet.Jet_phi',
'CaloJet.Jet_mass',
'CaloJet.Jet_Ip1N',
'CaloJet.Jet_Ip1P',
'CaloJet.Jet_Ip2N',
'CaloJet.Jet_Ip2P',
'CaloJet.Jet_Ip3N',
'CaloJet.Jet_Ip3P',
'CaloJet.Jet_Ip4N',
'CaloJet.Jet_Ip4P',
'CaloJet.Jet_Mass4N',
'CaloJet.Jet_Mass4P',
'CaloJet.Jet_ProbaN',
'CaloJet.Jet_Proba',
'CaloJet.Jet_BprobN',
'CaloJet.Jet_Bprob',
'CaloJet.Jet_Svx',
'CaloJet.Jet_SvxHP',
'CaloJet.Jet_CombIVF',
'CaloJet.Jet_CombIVF_N',
'CaloJet.Jet_SoftMuN',
'CaloJet.Jet_SoftMu',
'CaloJet.Jet_SoftElN',
'CaloJet.Jet_SoftEl',
'CaloJet.Jet_DoubleSV',
'CaloJet.Jet_cMVAv2',
'CaloJet.Jet_cMVAv2N',
'CaloJet.Jet_trackSip2dSig_AboveBottom_0',
'CaloJet.Jet_trackSip2dSig_AboveBottom_1',
'CaloJet.Jet_hist1',
'CaloJet.Jet_hist2',
'CaloJet.Jet_hist3',
'CaloJet.Jet_histJet',
'CaloJet.Jet_histSvx',
'CaloJet.Jet_ntracks',
'CaloJet.Jet_nseltracks',
'CaloJet.Jet_flavour',
'CaloJet.Jet_flavourCleaned',
'CaloJet.Jet_partonFlavour',
'CaloJet.Jet_hadronFlavour',
'CaloJet.Jet_partonid',
'CaloJet.Jet_nbHadrons',
'CaloJet.Jet_ncHadrons',
'CaloJet.Jet_isB',
'CaloJet.Jet_isLeptonicB',
'CaloJet.Jet_isLeptonicB_C',
'CaloJet.Jet_isGBB',
'CaloJet.Jet_isBB',
'CaloJet.Jet_isC',
'CaloJet.Jet_isGCC',
'CaloJet.Jet_isCC',
'CaloJet.Jet_isTau',
'CaloJet.Jet_isG',
'CaloJet.Jet_isUD',
'CaloJet.Jet_isS',
'CaloJet.Jet_isUndefined',
'CaloJet.Jet_GenJetHasMatch',
'CaloJet.Jet_GenJet_pt',
'CaloJet.Jet_GenJet_eta',
'CaloJet.Jet_GenJet_phi',
'CaloJet.Jet_GenJet_mass',
'CaloJet.Jet_nFirstTrack',
'CaloJet.Jet_nLastTrack',
'CaloJet.Jet_nFirstTrackTruth',
'CaloJet.Jet_nLastTrackTruth',
'CaloJet.Jet_nFirstSV',
'CaloJet.Jet_nLastSV',
'CaloJet.Jet_SV_multi',
'CaloJet.Jet_nFirstTrkInc',
'CaloJet.Jet_nLastTrkInc',
'CaloJet.Jet_nSM',
'CaloJet.Jet_nFirstSM',
'CaloJet.Jet_nLastSM',
'CaloJet.Jet_nSE',
'CaloJet.Jet_nFirstSE',
'CaloJet.Jet_nLastSE',
'CaloJet.Jet_looseID',
'CaloJet.Jet_tightID'
)
),
cms.PSet(
description = cms.string('PuppiJet Info Variables'),
group = cms.string('PuppiJetInfo'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.nJet',
'PuppiJet.Jet_pt',
'PuppiJet.Jet_uncorrpt',
'PuppiJet.Jet_genpt',
'PuppiJet.Jet_residual',
'PuppiJet.Jet_area',
'PuppiJet.Jet_jes',
'PuppiJet.Jet_eta',
'PuppiJet.Jet_phi',
'PuppiJet.Jet_mass',
'PuppiJet.Jet_Ip1N',
'PuppiJet.Jet_Ip1P',
'PuppiJet.Jet_Ip2N',
'PuppiJet.Jet_Ip2P',
'PuppiJet.Jet_Ip3N',
'PuppiJet.Jet_Ip3P',
'PuppiJet.Jet_Ip4N',
'PuppiJet.Jet_Ip4P',
'PuppiJet.Jet_Mass4N',
'PuppiJet.Jet_Mass4P',
'PuppiJet.Jet_ProbaN',
'PuppiJet.Jet_Proba',
'PuppiJet.Jet_BprobN',
'PuppiJet.Jet_Bprob',
'PuppiJet.Jet_Svx',
'PuppiJet.Jet_SvxHP',
'PuppiJet.Jet_CombIVF',
'PuppiJet.Jet_CombIVF_N',
'PuppiJet.Jet_SoftMuN',
'PuppiJet.Jet_SoftMu',
'PuppiJet.Jet_SoftElN',
'PuppiJet.Jet_SoftEl',
'PuppiJet.Jet_DoubleSV',
'PuppiJet.Jet_cMVAv2',
'PuppiJet.Jet_cMVAv2N',
'PuppiJet.Jet_trackSip2dSig_AboveBottom_0',
'PuppiJet.Jet_trackSip2dSig_AboveBottom_1',
'PuppiJet.Jet_hist1',
'PuppiJet.Jet_hist2',
'PuppiJet.Jet_hist3',
'PuppiJet.Jet_histJet',
'PuppiJet.Jet_histSvx',
'PuppiJet.Jet_ntracks',
'PuppiJet.Jet_nseltracks',
'PuppiJet.Jet_flavour',
'PuppiJet.Jet_flavourCleaned',
'PuppiJet.Jet_partonFlavour',
'PuppiJet.Jet_hadronFlavour',
'PuppiJet.Jet_partonid',
'PuppiJet.Jet_nbHadrons',
'PuppiJet.Jet_ncHadrons',
'PuppiJet.Jet_isB',
'PuppiJet.Jet_isLeptonicB',
'PuppiJet.Jet_isLeptonicB_C',
'PuppiJet.Jet_isGBB',
'PuppiJet.Jet_isBB',
'PuppiJet.Jet_isC',
'PuppiJet.Jet_isGCC',
'PuppiJet.Jet_isCC',
'PuppiJet.Jet_isTau',
'PuppiJet.Jet_isG',
'PuppiJet.Jet_isUD',
'PuppiJet.Jet_isS',
'PuppiJet.Jet_isUndefined',
'PuppiJet.Jet_GenJetHasMatch',
'PuppiJet.Jet_GenJet_pt',
'PuppiJet.Jet_GenJet_eta',
'PuppiJet.Jet_GenJet_phi',
'PuppiJet.Jet_GenJet_mass',
'PuppiJet.Jet_nFirstTrack',
'PuppiJet.Jet_nLastTrack',
'PuppiJet.Jet_nFirstTrackTruth',
'PuppiJet.Jet_nLastTrackTruth',
'PuppiJet.Jet_nFirstSV',
'PuppiJet.Jet_nLastSV',
'PuppiJet.Jet_SV_multi',
'PuppiJet.Jet_nFirstTrkInc',
'PuppiJet.Jet_nLastTrkInc',
'PuppiJet.Jet_nSM',
'PuppiJet.Jet_nFirstSM',
'PuppiJet.Jet_nLastSM',
'PuppiJet.Jet_nSE',
'PuppiJet.Jet_nFirstSE',
'PuppiJet.Jet_nLastSE',
'PuppiJet.Jet_looseID',
'PuppiJet.Jet_tightID'
)
),
cms.PSet(
description = cms.string('Jet Deep Flavour Variables'),
group = cms.string('JetDeepFlavour'),
store = cms.bool(True),
variables = cms.vstring(
'Jet_DeepFlavourBDisc',
'Jet_DeepFlavourCvsLDisc',
'Jet_DeepFlavourCvsBDisc',
'Jet_DeepFlavourB',
'Jet_DeepFlavourBB',
'Jet_DeepFlavourLEPB',
'Jet_DeepFlavourC',
'Jet_DeepFlavourUDS',
'Jet_DeepFlavourG'
)
),
cms.PSet(
description = cms.string('PuppiJet Deep Flavour Variables'),
group = cms.string('PuppiJetDeepFlavour'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.Jet_DeepFlavourBDisc',
'PuppiJet.Jet_DeepFlavourCvsLDisc',
'PuppiJet.Jet_DeepFlavourCvsBDisc',
'PuppiJet.Jet_DeepFlavourB',
'PuppiJet.Jet_DeepFlavourBB',
'PuppiJet.Jet_DeepFlavourLEPB',
'PuppiJet.Jet_DeepFlavourC',
'PuppiJet.Jet_DeepFlavourUDS',
'PuppiJet.Jet_DeepFlavourG'
)
),
cms.PSet(
description = cms.string('Jet Deep Flavour Pruned Variables'),
group = cms.string('JetDeepFlavourPruned'),
store = cms.bool(False),
variables = cms.vstring(
'Jet_DeepFlavourPrunedBDisc',
'Jet_DeepFlavourPrunedCvsLDisc',
'Jet_DeepFlavourPrunedCvsBDisc',
'Jet_DeepFlavourPrunedB',
'Jet_DeepFlavourPrunedBB',
'Jet_DeepFlavourPrunedLEPB',
'Jet_DeepFlavourPrunedC',
'Jet_DeepFlavourPrunedUDS',
'Jet_DeepFlavourPrunedG',
'Jet_DeepFlavourPrunedBDiscN',
'Jet_DeepFlavourPrunedCvsLDiscN',
'Jet_DeepFlavourPrunedCvsBDiscN'
)
),
cms.PSet(
description = cms.string('Jet Deep CSV Variables'),
group = cms.string('JetDeepCSV'),
store = cms.bool(True),
variables = cms.vstring(
'Jet_DeepCSVBDisc',
'Jet_DeepCSVBDiscN',
'Jet_DeepCSVCvsLDisc',
'Jet_DeepCSVCvsLDiscN',
'Jet_DeepCSVCvsBDisc',
'Jet_DeepCSVCvsBDiscN',
'Jet_DeepCSVb',
'Jet_DeepCSVc',
'Jet_DeepCSVl',
'Jet_DeepCSVbb',
'Jet_DeepCSVcc',
'Jet_DeepCSVbN',
'Jet_DeepCSVcN',
'Jet_DeepCSVlN',
'Jet_DeepCSVbbN',
'Jet_DeepCSVccN'
)
),
cms.PSet(
description = cms.string('CaloJet Deep CSV Variables'),
group = cms.string('CaloJetDeepCSV'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.Jet_DeepCSVBDisc',
'CaloJet.Jet_DeepCSVBDiscN',
'CaloJet.Jet_DeepCSVCvsLDisc',
'CaloJet.Jet_DeepCSVCvsLDiscN',
'CaloJet.Jet_DeepCSVCvsBDisc',
'CaloJet.Jet_DeepCSVCvsBDiscN',
'CaloJet.Jet_DeepCSVb',
'CaloJet.Jet_DeepCSVc',
'CaloJet.Jet_DeepCSVl',
'CaloJet.Jet_DeepCSVbb',
'CaloJet.Jet_DeepCSVcc',
'CaloJet.Jet_DeepCSVbN',
'CaloJet.Jet_DeepCSVcN',
'CaloJet.Jet_DeepCSVlN',
'CaloJet.Jet_DeepCSVbbN',
'CaloJet.Jet_DeepCSVccN'
)
),
cms.PSet(
description = cms.string('PuppiJet Deep CSV Variables'),
group = cms.string('PuppiJetDeepCSV'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.Jet_DeepCSVBDisc',
'PuppiJet.Jet_DeepCSVBDiscN',
'PuppiJet.Jet_DeepCSVCvsLDisc',
'PuppiJet.Jet_DeepCSVCvsLDiscN',
'PuppiJet.Jet_DeepCSVCvsBDisc',
'PuppiJet.Jet_DeepCSVCvsBDiscN',
'PuppiJet.Jet_DeepCSVb',
'PuppiJet.Jet_DeepCSVc',
'PuppiJet.Jet_DeepCSVl',
'PuppiJet.Jet_DeepCSVbb',
'PuppiJet.Jet_DeepCSVcc',
'PuppiJet.Jet_DeepCSVbN',
'PuppiJet.Jet_DeepCSVcN',
'PuppiJet.Jet_DeepCSVlN',
'PuppiJet.Jet_DeepCSVbbN',
'PuppiJet.Jet_DeepCSVccN'
)
),
cms.PSet(
description = cms.string('PF Electron Variables'),
group = cms.string('PFElectron'),
store = cms.bool(False),
variables = cms.vstring(
'nPFElectron',
'PFElectron_IdxJet',
'PFElectron_pt',
'PFElectron_eta',
'PFElectron_phi',
'PFElectron_ptrel',
'PFElectron_ratio',
'PFElectron_ratioRel',
'PFElectron_deltaR',
'PFElectron_IP',
'PFElectron_IP2D',
'PFElectron_mva_e_pi'
)
),
cms.PSet(
description = cms.string('PF Muon Variables'),
group = cms.string('PFMuon'),
store = cms.bool(False),
variables = cms.vstring(
'nPFMuon',
'PFMuon_IdxJet',
'PFMuon_nMuHit',
'PFMuon_nTkHit',
'PFMuon_nPixHit',
'PFMuon_nOutHit',
'PFMuon_nTkLwM',
'PFMuon_nPixLwM',
'PFMuon_nMatched',
'PFMuon_chi2',
'PFMuon_chi2Tk',
'PFMuon_isGlobal',
'PFMuon_hist',
'PFMuon_pt',
'PFMuon_eta',
'PFMuon_phi',
'PFMuon_ptrel',
'PFMuon_ratio',
'PFMuon_ratioRel',
'PFMuon_deltaR',
'PFMuon_IP',
'PFMuon_IP2D',
'PFMuon_IPsig',
'PFMuon_IP2Dsig',
'PFMuon_dz',
'PFMuon_GoodQuality'
)
),
cms.PSet(
description = cms.string('Jet SV Variables'),
group = cms.string('JetSV'),
store = cms.bool(True),
variables = cms.vstring(
'nSV',
'SV_x',
'SV_y',
'SV_z',
'SV_ex',
'SV_ey',
'SV_ez',
'SV_chi2',
'SV_ndf',
'SV_flight',
'SV_flightErr',
'SV_deltaR_jet',
'SV_deltaR_sum_jet',
'SV_deltaR_sum_dir',
'SV_vtx_pt',
'SV_flight2D',
'SV_flight2DErr',
'SV_totCharge',
'SV_vtxDistJetAxis',
'SV_nTrk',
'SV_mass',
'SV_vtx_eta',
'SV_vtx_phi',
'SV_EnergyRatio',
'SV_dir_x',
'SV_dir_y',
'SV_dir_z'
)
),
cms.PSet(
description = cms.string('Jet SV Variables'),
group = cms.string('CaloJetSV'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.nSV',
'CaloJet.SV_x',
'CaloJet.SV_y',
'CaloJet.SV_z',
'CaloJet.SV_ex',
'CaloJet.SV_ey',
'CaloJet.SV_ez',
'CaloJet.SV_chi2',
'CaloJet.SV_ndf',
'CaloJet.SV_flight',
'CaloJet.SV_flightErr',
'CaloJet.SV_deltaR_jet',
'CaloJet.SV_deltaR_sum_jet',
'CaloJet.SV_deltaR_sum_dir',
'CaloJet.SV_vtx_pt',
'CaloJet.SV_flight2D',
'CaloJet.SV_flight2DErr',
'CaloJet.SV_totCharge',
'CaloJet.SV_vtxDistJetAxis',
'CaloJet.SV_nTrk',
'CaloJet.SV_mass',
'CaloJet.SV_vtx_eta',
'CaloJet.SV_vtx_phi',
'CaloJet.SV_EnergyRatio',
'CaloJet.SV_dir_x',
'CaloJet.SV_dir_y',
'CaloJet.SV_dir_z'
)
),
cms.PSet(
description = cms.string('PuppiJet SV Variables'),
group = cms.string('PuppiJetSV'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.nSV',
'PuppiJet.SV_x',
'PuppiJet.SV_y',
'PuppiJet.SV_z',
'PuppiJet.SV_ex',
'PuppiJet.SV_ey',
'PuppiJet.SV_ez',
'PuppiJet.SV_chi2',
'PuppiJet.SV_ndf',
'PuppiJet.SV_flight',
'PuppiJet.SV_flightErr',
'PuppiJet.SV_deltaR_jet',
'PuppiJet.SV_deltaR_sum_jet',
'PuppiJet.SV_deltaR_sum_dir',
'PuppiJet.SV_vtx_pt',
'PuppiJet.SV_flight2D',
'PuppiJet.SV_flight2DErr',
'PuppiJet.SV_totCharge',
'PuppiJet.SV_vtxDistJetAxis',
'PuppiJet.SV_nTrk',
'PuppiJet.SV_mass',
'PuppiJet.SV_vtx_eta',
'PuppiJet.SV_vtx_phi',
'PuppiJet.SV_EnergyRatio',
'PuppiJet.SV_dir_x',
'PuppiJet.SV_dir_y',
'PuppiJet.SV_dir_z'
)
),
cms.PSet(
description = cms.string('Jet Track Variables'),
group = cms.string('JetTrack'),
store = cms.bool(True),
variables = cms.vstring(
'nTrack',
'Track_dxy',
'Track_dz',
'Track_dxyError',
'Track_dzError',
'Track_sign2D',
'Track_sign3D',
'Track_LongIP',
'Track_length',
'Track_dist',
'Track_IP2D',
'Track_IP2Dsig',
'Track_IP2Derr',
'Track_IP',
'Track_IPsig',
'Track_IPerr',
'Track_Proba',
'Track_p',
'Track_pt',
'Track_eta',
'Track_phi',
'Track_chi2',
'Track_charge',
'Track_history',
'Track_nHitStrip',
'Track_nHitPixel',
'Track_nHitAll',
'Track_nHitTIB',
'Track_nHitTID',
'Track_nHitTOB',
'Track_nHitTEC',
'Track_nHitPXB',
'Track_nHitPXF',
'Track_isHitL1',
'Track_PV',
'Track_SV',
'Track_isfromSV',
'Track_PVweight',
'Track_SVweight',
'Track_isfromV0',
'Track_lengthTau',
'Track_distTau',
'Track_category',
'Track_TPAssociationQuality',
'Track_idxMatchedTP'
)
),
cms.PSet(
description = cms.string('Jet Track Variables'),
group = cms.string('CaloJetTrack'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.nTrack',
'CaloJet.Track_dxy',
'CaloJet.Track_dz',
'CaloJet.Track_dxyError',
'CaloJet.Track_dzError',
'CaloJet.Track_sign2D',
'CaloJet.Track_sign3D',
'CaloJet.Track_LongIP',
'CaloJet.Track_length',
'CaloJet.Track_dist',
'CaloJet.Track_IP2D',
'CaloJet.Track_IP2Dsig',
'CaloJet.Track_IP2Derr',
'CaloJet.Track_IP',
'CaloJet.Track_IPsig',
'CaloJet.Track_IPerr',
'CaloJet.Track_Proba',
'CaloJet.Track_p',
'CaloJet.Track_pt',
'CaloJet.Track_eta',
'CaloJet.Track_phi',
'CaloJet.Track_chi2',
'CaloJet.Track_charge',
'CaloJet.Track_history',
'CaloJet.Track_nHitStrip',
'CaloJet.Track_nHitPixel',
'CaloJet.Track_nHitAll',
'CaloJet.Track_nHitTIB',
'CaloJet.Track_nHitTID',
'CaloJet.Track_nHitTOB',
'CaloJet.Track_nHitTEC',
'CaloJet.Track_nHitPXB',
'CaloJet.Track_nHitPXF',
'CaloJet.Track_isHitL1',
'CaloJet.Track_PV',
'CaloJet.Track_SV',
'CaloJet.Track_isfromSV',
'CaloJet.Track_PVweight',
'CaloJet.Track_SVweight',
'CaloJet.Track_isfromV0',
'CaloJet.Track_lengthTau',
'CaloJet.Track_distTau',
'CaloJet.Track_category',
'CaloJet.Track_TPAssociationQuality',
'CaloJet.Track_idxMatchedTP'
)
),
cms.PSet(
description = cms.string('PuppiJet Track Variables'),
group = cms.string('PuppiJetTrack'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.nTrack',
'PuppiJet.Track_dxy',
'PuppiJet.Track_dz',
'PuppiJet.Track_dxyError',
'PuppiJet.Track_dzError',
'PuppiJet.Track_sign2D',
'PuppiJet.Track_sign3D',
'PuppiJet.Track_LongIP',
'PuppiJet.Track_length',
'PuppiJet.Track_dist',
'PuppiJet.Track_IP2D',
'PuppiJet.Track_IP2Dsig',
'PuppiJet.Track_IP2Derr',
'PuppiJet.Track_IP',
'PuppiJet.Track_IPsig',
'PuppiJet.Track_IPerr',
'PuppiJet.Track_Proba',
'PuppiJet.Track_p',
'PuppiJet.Track_pt',
'PuppiJet.Track_eta',
'PuppiJet.Track_phi',
'PuppiJet.Track_chi2',
'PuppiJet.Track_charge',
'PuppiJet.Track_history',
'PuppiJet.Track_nHitStrip',
'PuppiJet.Track_nHitPixel',
'PuppiJet.Track_nHitAll',
'PuppiJet.Track_nHitTIB',
'PuppiJet.Track_nHitTID',
'PuppiJet.Track_nHitTOB',
'PuppiJet.Track_nHitTEC',
'PuppiJet.Track_nHitPXB',
'PuppiJet.Track_nHitPXF',
'PuppiJet.Track_isHitL1',
'PuppiJet.Track_PV',
'PuppiJet.Track_SV',
'PuppiJet.Track_isfromSV',
'PuppiJet.Track_PVweight',
'PuppiJet.Track_SVweight',
'PuppiJet.Track_isfromV0',
'PuppiJet.Track_lengthTau',
'PuppiJet.Track_distTau',
'PuppiJet.Track_category',
'PuppiJet.Track_TPAssociationQuality',
'PuppiJet.Track_idxMatchedTP'
)
),
cms.PSet(
description = cms.string('Jet Track Truth Variables'),
group = cms.string('JetTrackTruth'),
store = cms.bool(False),
variables = cms.vstring(
'nTrackTruth',
'TrackTruth_idxMatchedTrack',
'TrackTruth_p',
'TrackTruth_pt',
'TrackTruth_eta',
'TrackTruth_phi',
'TrackTruth_charge',
'TrackTruth_pdgid',
'TrackTruth_dxy',
'TrackTruth_dz',
'TrackTruth_nHitAll',
'TrackTruth_nHitPixel',
'TrackTruth_nHitStrip'
)
),
cms.PSet(
description = cms.string('Jet Track Inc Variables'),
group = cms.string('JetTrackInc'),
store = cms.bool(False),
variables = cms.vstring(
'nTrkInc',
'TrkInc_pt',
'TrkInc_eta',
'TrkInc_phi',
'TrkInc_ptrel',
'TrkInc_IPsig',
'TrkInc_IP'
)
),
cms.PSet(
description = cms.string('Tag Variables'),
group = cms.string('TagVar'),
store = cms.bool(True),
variables = cms.vstring(
'Jet_nFirstTrkTagVar',
'Jet_nLastTrkTagVar',
'Jet_nFirstSVTagVar',
'Jet_nLastSVTagVar',
'TagVar_jetNTracks',
'TagVar_jetNSecondaryVertices',
'TagVar_chargedHadronEnergyFraction',
'TagVar_neutralHadronEnergyFraction',
'TagVar_photonEnergyFraction',
'TagVar_electronEnergyFraction',
'TagVar_muonEnergyFraction',
'TagVar_chargedHadronMultiplicity',
'TagVar_neutralHadronMultiplicity',
'TagVar_photonMultiplicity',
'TagVar_electronMultiplicity',
'TagVar_muonMultiplicity',
'TagVar_neutralEmEnergyFraction',
'TagVar_numberOfDaughters',
'TagVar_chargedMultiplicity',
'TagVar_chargedEmEnergyFraction',
'TagVar_neutralMultiplicity',
'nTrkTagVar',
'TagVar_trackMomentum',
'TagVar_trackEta',
'TagVar_trackPhi',
'TagVar_trackPtRel',
'TagVar_trackPPar',
'TagVar_trackEtaRel',
'TagVar_trackDeltaR',
'TagVar_trackPtRatio',
'TagVar_trackPParRatio',
'TagVar_trackSip2dVal',
'TagVar_trackSip2dSig',
'TagVar_trackSip3dVal',
'TagVar_trackSip3dSig',
'TagVar_trackDecayLenVal',
'TagVar_trackDecayLenSig',
'TagVar_trackJetDistVal',
'TagVar_trackJetDistSig',
'TagVar_trackChi2',
'TagVar_trackNTotalHits',
'TagVar_trackNPixelHits',
'nSVTagVar',
'TagVar_vertexMass',
'TagVar_vertexNTracks',
'TagVar_vertexJetDeltaR',
'TagVar_flightDistance2dVal',
'TagVar_flightDistance2dSig',
'TagVar_flightDistance3dVal',
'TagVar_flightDistance3dSig'
)
),
cms.PSet(
description = cms.string('Tag Variables'),
group = cms.string('CaloJetTagVar'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.Jet_nFirstTrkTagVar',
'CaloJet.Jet_nLastTrkTagVar',
'CaloJet.Jet_nFirstSVTagVar',
'CaloJet.Jet_nLastSVTagVar',
'CaloJet.TagVar_jetNTracks',
'CaloJet.TagVar_jetNSecondaryVertices',
'CaloJet.TagVar_chargedHadronEnergyFraction',
'CaloJet.TagVar_neutralHadronEnergyFraction',
'CaloJet.TagVar_photonEnergyFraction',
'CaloJet.TagVar_electronEnergyFraction',
'CaloJet.TagVar_muonEnergyFraction',
'CaloJet.TagVar_chargedHadronMultiplicity',
'CaloJet.TagVar_neutralHadronMultiplicity',
'CaloJet.TagVar_photonMultiplicity',
'CaloJet.TagVar_electronMultiplicity',
'CaloJet.TagVar_muonMultiplicity',
'CaloJet.TagVar_neutralEmEnergyFraction',
'CaloJet.TagVar_numberOfDaughters',
'CaloJet.TagVar_chargedMultiplicity',
'CaloJet.TagVar_chargedEmEnergyFraction',
'CaloJet.TagVar_neutralMultiplicity',
'CaloJet.nTrkTagVar',
'CaloJet.TagVar_trackMomentum',
'CaloJet.TagVar_trackEta',
'CaloJet.TagVar_trackPhi',
'CaloJet.TagVar_trackPtRel',
'CaloJet.TagVar_trackPPar',
'CaloJet.TagVar_trackEtaRel',
'CaloJet.TagVar_trackDeltaR',
'CaloJet.TagVar_trackPtRatio',
'CaloJet.TagVar_trackPParRatio',
'CaloJet.TagVar_trackSip2dVal',
'CaloJet.TagVar_trackSip2dSig',
'CaloJet.TagVar_trackSip3dVal',
'CaloJet.TagVar_trackSip3dSig',
'CaloJet.TagVar_trackDecayLenVal',
'CaloJet.TagVar_trackDecayLenSig',
'CaloJet.TagVar_trackJetDistVal',
'CaloJet.TagVar_trackJetDistSig',
'CaloJet.TagVar_trackChi2',
'CaloJet.TagVar_trackNTotalHits',
'CaloJet.TagVar_trackNPixelHits',
'CaloJet.nSVTagVar',
'CaloJet.TagVar_vertexMass',
'CaloJet.TagVar_vertexNTracks',
'CaloJet.TagVar_vertexJetDeltaR',
'CaloJet.TagVar_flightDistance2dVal',
'CaloJet.TagVar_flightDistance2dSig',
'CaloJet.TagVar_flightDistance3dVal',
'CaloJet.TagVar_flightDistance3dSig'
)
),
cms.PSet(
description = cms.string('Tag Variables'),
group = cms.string('PuppiJetTagVar'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.Jet_nFirstTrkTagVar',
'PuppiJet.Jet_nLastTrkTagVar',
'PuppiJet.Jet_nFirstSVTagVar',
'PuppiJet.Jet_nLastSVTagVar',
'PuppiJet.TagVar_jetNTracks',
'PuppiJet.TagVar_jetNSecondaryVertices',
'PuppiJet.TagVar_chargedHadronEnergyFraction',
'PuppiJet.TagVar_neutralHadronEnergyFraction',
'PuppiJet.TagVar_photonEnergyFraction',
'PuppiJet.TagVar_electronEnergyFraction',
'PuppiJet.TagVar_muonEnergyFraction',
'PuppiJet.TagVar_chargedHadronMultiplicity',
'PuppiJet.TagVar_neutralHadronMultiplicity',
'PuppiJet.TagVar_photonMultiplicity',
'PuppiJet.TagVar_electronMultiplicity',
'PuppiJet.TagVar_muonMultiplicity',
'PuppiJet.TagVar_neutralEmEnergyFraction',
'PuppiJet.TagVar_numberOfDaughters',
'PuppiJet.TagVar_chargedMultiplicity',
'PuppiJet.TagVar_chargedEmEnergyFraction',
'PuppiJet.TagVar_neutralMultiplicity',
'PuppiJet.nTrkTagVar',
'PuppiJet.TagVar_trackMomentum',
'PuppiJet.TagVar_trackEta',
'PuppiJet.TagVar_trackPhi',
'PuppiJet.TagVar_trackPtRel',
'PuppiJet.TagVar_trackPPar',
'PuppiJet.TagVar_trackEtaRel',
'PuppiJet.TagVar_trackDeltaR',
'PuppiJet.TagVar_trackPtRatio',
'PuppiJet.TagVar_trackPParRatio',
'PuppiJet.TagVar_trackSip2dVal',
'PuppiJet.TagVar_trackSip2dSig',
'PuppiJet.TagVar_trackSip3dVal',
'PuppiJet.TagVar_trackSip3dSig',
'PuppiJet.TagVar_trackDecayLenVal',
'PuppiJet.TagVar_trackDecayLenSig',
'PuppiJet.TagVar_trackJetDistVal',
'PuppiJet.TagVar_trackJetDistSig',
'PuppiJet.TagVar_trackChi2',
'PuppiJet.TagVar_trackNTotalHits',
'PuppiJet.TagVar_trackNPixelHits',
'PuppiJet.nSVTagVar',
'PuppiJet.TagVar_vertexMass',
'PuppiJet.TagVar_vertexNTracks',
'PuppiJet.TagVar_vertexJetDeltaR',
'PuppiJet.TagVar_flightDistance2dVal',
'PuppiJet.TagVar_flightDistance2dSig',
'PuppiJet.TagVar_flightDistance3dVal',
'PuppiJet.TagVar_flightDistance3dSig'
)
),
cms.PSet(
description = cms.string('Deep Flavour Variables'),
group = cms.string('DeepFlavourFeat'),
store = cms.bool(True),
variables = cms.vstring(
'DeepFlavourInput_nPVS',
'DeepFlavourInput_n_charged',
'DeepFlavourInput_NFirst_charged',
'DeepFlavourInput_NLast_charged',
'DeepFlavourInput_multi_charged',
'DeepFlavourInput_charged_Sip3dVal',
'DeepFlavourInput_charged_Sip3dSig',
'DeepFlavourInput_charged_quality',
'DeepFlavourInput_charged_chi2',
'DeepFlavourInput_charged_btagpf_trackEtaRel',
'DeepFlavourInput_charged_btagpf_trackPtRel',
'DeepFlavourInput_charged_btagpf_trackPPar',
'DeepFlavourInput_charged_btagpf_trackDeltaR',
'DeepFlavourInput_charged_btagpf_trackPParRatio',
'DeepFlavourInput_charged_btagpf_trackSip2dVal',
'DeepFlavourInput_charged_btagpf_trackSip2dSig',
'DeepFlavourInput_charged_btagpf_trackSip3dVal',
'DeepFlavourInput_charged_btagpf_trackSip3dSig',
'DeepFlavourInput_charged_btagpf_trackJetDistVal',
'DeepFlavourInput_charged_ptrel',
'DeepFlavourInput_charged_drminsv',
'DeepFlavourInput_charged_VTX_ass',
'DeepFlavourInput_charged_puppiw',
'DeepFlavourInput_n_neutral',
'DeepFlavourInput_NFirst_neutral',
'DeepFlavourInput_NLast_neutral',
'DeepFlavourInput_multi_neutral',
'DeepFlavourInput_neutral_drminsv',
'DeepFlavourInput_neutral_hadFrac',
'DeepFlavourInput_neutral_ptrel',
'DeepFlavourInput_neutral_deltaR',
'DeepFlavourInput_neutral_isGamma',
'DeepFlavourInput_neutral_puppiw',
'DeepFlavourInput_n_sv',
'DeepFlavourInput_NFirst_sv',
'DeepFlavourInput_NLast_sv',
'DeepFlavourInput_multi_sv',
'DeepFlavourInput_sv_d3d',
'DeepFlavourInput_sv_d3dsig',
'DeepFlavourInput_sv_normchi2',
'DeepFlavourInput_sv_pt',
'DeepFlavourInput_sv_deltaR',
'DeepFlavourInput_sv_mass',
'DeepFlavourInput_sv_ntracks',
'DeepFlavourInput_sv_chi2',
'DeepFlavourInput_sv_dxy',
'DeepFlavourInput_sv_dxysig',
'DeepFlavourInput_sv_costhetasvpv',
'DeepFlavourInput_sv_enratio'
)
),
cms.PSet(
description = cms.string('Deep Flavour Variables'),
group = cms.string('PuppiJetDeepFlavourFeat'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.DeepFlavourInput_charged_Sip3dVal',
'PuppiJet.DeepFlavourInput_charged_Sip3dSig',
'PuppiJet.DeepFlavourInput_charged_quality',
'PuppiJet.DeepFlavourInput_charged_chi2',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackEtaRel',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackPtRel',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackPPar',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackDeltaR',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackPParRatio',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackSip2dVal',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackSip2dSig',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackSip3dVal',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackSip3dSig',
'PuppiJet.DeepFlavourInput_charged_btagpf_trackJetDistVal',
'PuppiJet.DeepFlavourInput_charged_ptrel',
'PuppiJet.DeepFlavourInput_charged_drminsv',
'PuppiJet.DeepFlavourInput_charged_VTX_ass',
'PuppiJet.DeepFlavourInput_charged_puppiw',
'PuppiJet.DeepFlavourInput_neutral_drminsv',
'PuppiJet.DeepFlavourInput_neutral_hadFrac',
'PuppiJet.DeepFlavourInput_neutral_ptrel',
'PuppiJet.DeepFlavourInput_neutral_deltaR',
'PuppiJet.DeepFlavourInput_neutral_isGamma',
'PuppiJet.DeepFlavourInput_neutral_puppiw',
'PuppiJet.DeepFlavourInput_sv_d3d',
'PuppiJet.DeepFlavourInput_sv_d3dsig',
'PuppiJet.DeepFlavourInput_sv_normchi2',
'PuppiJet.DeepFlavourInput_sv_pt',
'PuppiJet.DeepFlavourInput_sv_deltaR',
'PuppiJet.DeepFlavourInput_sv_mass',
'PuppiJet.DeepFlavourInput_sv_ntracks',
'PuppiJet.DeepFlavourInput_sv_chi2',
'PuppiJet.DeepFlavourInput_sv_dxy',
'PuppiJet.DeepFlavourInput_sv_dxysig',
'PuppiJet.DeepFlavourInput_sv_costhetasvpv',
'PuppiJet.DeepFlavourInput_sv_enratio'
)
),
cms.PSet(
description = cms.string('CSV Tag Variables'),
group = cms.string('CSVTagVar'),
store = cms.bool(True),
variables = cms.vstring(
'TagVarCSV_trackJetPt',
'TagVarCSV_jetNTracks',
'TagVarCSV_jetNTracksEtaRel',
'TagVarCSV_trackSumJetEtRatio',
'TagVarCSV_trackSumJetDeltaR',
'TagVarCSV_trackSip2dValAboveCharm',
'TagVarCSV_trackSip2dSigAboveCharm',
'TagVarCSV_trackSip3dValAboveCharm',
'TagVarCSV_trackSip3dSigAboveCharm',
'TagVarCSV_vertexCategory',
'TagVarCSV_jetNSecondaryVertices',
'TagVarCSV_vertexMass',
'TagVarCSV_vertexNTracks',
'TagVarCSV_vertexEnergyRatio',
'TagVarCSV_vertexJetDeltaR',
'TagVarCSV_flightDistance2dVal',
'TagVarCSV_flightDistance2dSig',
'TagVarCSV_flightDistance3dVal',
'TagVarCSV_flightDistance3dSig'
)
),
cms.PSet(
description = cms.string('CSV Tag Variables'),
group = cms.string('CaloJetCSVTagVar'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.TagVarCSV_trackJetPt',
'CaloJet.TagVarCSV_jetNTracks',
'CaloJet.TagVarCSV_jetNTracksEtaRel',
'CaloJet.TagVarCSV_trackSumJetEtRatio',
'CaloJet.TagVarCSV_trackSumJetDeltaR',
'CaloJet.TagVarCSV_trackSip2dValAboveCharm',
'CaloJet.TagVarCSV_trackSip2dSigAboveCharm',
'CaloJet.TagVarCSV_trackSip3dValAboveCharm',
'CaloJet.TagVarCSV_trackSip3dSigAboveCharm',
'CaloJet.TagVarCSV_vertexCategory',
'CaloJet.TagVarCSV_jetNSecondaryVertices',
'CaloJet.TagVarCSV_vertexMass',
'CaloJet.TagVarCSV_vertexNTracks',
'CaloJet.TagVarCSV_vertexEnergyRatio',
'CaloJet.TagVarCSV_vertexJetDeltaR',
'CaloJet.TagVarCSV_flightDistance2dVal',
'CaloJet.TagVarCSV_flightDistance2dSig',
'CaloJet.TagVarCSV_flightDistance3dVal',
'CaloJet.TagVarCSV_flightDistance3dSig'
)
),
cms.PSet(
description = cms.string('CSV Tag Variables'),
group = cms.string('PuppiJetCSVTagVar'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.TagVarCSV_trackJetPt',
'PuppiJet.TagVarCSV_jetNTracks',
'PuppiJet.TagVarCSV_jetNTracksEtaRel',
'PuppiJet.TagVarCSV_trackSumJetEtRatio',
'PuppiJet.TagVarCSV_trackSumJetDeltaR',
'PuppiJet.TagVarCSV_trackSip2dValAboveCharm',
'PuppiJet.TagVarCSV_trackSip2dSigAboveCharm',
'PuppiJet.TagVarCSV_trackSip3dValAboveCharm',
'PuppiJet.TagVarCSV_trackSip3dSigAboveCharm',
'PuppiJet.TagVarCSV_vertexCategory',
'PuppiJet.TagVarCSV_jetNSecondaryVertices',
'PuppiJet.TagVarCSV_vertexMass',
'PuppiJet.TagVarCSV_vertexNTracks',
'PuppiJet.TagVarCSV_vertexEnergyRatio',
'PuppiJet.TagVarCSV_vertexJetDeltaR',
'PuppiJet.TagVarCSV_flightDistance2dVal',
'PuppiJet.TagVarCSV_flightDistance2dSig',
'PuppiJet.TagVarCSV_flightDistance3dVal',
'PuppiJet.TagVarCSV_flightDistance3dSig'
)
),
cms.PSet(
description = cms.string('CSV Tag Track Variables'),
group = cms.string('CSVTagTrackVar'),
store = cms.bool(True),
variables = cms.vstring(
'Jet_nFirstTrkTagVarCSV',
'Jet_nLastTrkTagVarCSV',
'Jet_nFirstTrkEtaRelTagVarCSV',
'Jet_nLastTrkEtaRelTagVarCSV',
'nTrkTagVarCSV',
'nTrkEtaRelTagVarCSV',
'TagVarCSV_trackMomentum',
'TagVarCSV_trackEta',
'TagVarCSV_trackPhi',
'TagVarCSV_trackPtRel',
'TagVarCSV_trackPPar',
'TagVarCSV_trackDeltaR',
'TagVarCSV_trackPtRatio',
'TagVarCSV_trackPParRatio',
'TagVarCSV_trackSip2dVal',
'TagVarCSV_trackSip2dSig',
'TagVarCSV_trackSip3dVal',
'TagVarCSV_trackSip3dSig',
'TagVarCSV_trackDecayLenVal',
'TagVarCSV_trackDecayLenSig',
'TagVarCSV_trackJetDistVal',
'TagVarCSV_trackJetDistSig',
'TagVarCSV_trackEtaRel'
)
),
cms.PSet(
description = cms.string('CSV Tag Track Variables'),
group = cms.string('CaloJetCSVTagTrackVar'),
store = cms.bool(True),
variables = cms.vstring(
'CaloJet.Jet_nFirstTrkTagVarCSV',
'CaloJet.Jet_nLastTrkTagVarCSV',
'CaloJet.Jet_nFirstTrkEtaRelTagVarCSV',
'CaloJet.Jet_nLastTrkEtaRelTagVarCSV',
'CaloJet.nTrkTagVarCSV',
'CaloJet.nTrkEtaRelTagVarCSV',
'CaloJet.TagVarCSV_trackMomentum',
'CaloJet.TagVarCSV_trackEta',
'CaloJet.TagVarCSV_trackPhi',
'CaloJet.TagVarCSV_trackPtRel',
'CaloJet.TagVarCSV_trackPPar',
'CaloJet.TagVarCSV_trackDeltaR',
'CaloJet.TagVarCSV_trackPtRatio',
'CaloJet.TagVarCSV_trackPParRatio',
'CaloJet.TagVarCSV_trackSip2dVal',
'CaloJet.TagVarCSV_trackSip2dSig',
'CaloJet.TagVarCSV_trackSip3dVal',
'CaloJet.TagVarCSV_trackSip3dSig',
'CaloJet.TagVarCSV_trackDecayLenVal',
'CaloJet.TagVarCSV_trackDecayLenSig',
'CaloJet.TagVarCSV_trackJetDistVal',
'CaloJet.TagVarCSV_trackJetDistSig',
'CaloJet.TagVarCSV_trackEtaRel'
)
),
cms.PSet(
description = cms.string('CSV Tag Track Variables'),
group = cms.string('PuppiJetCSVTagTrackVar'),
store = cms.bool(False),
variables = cms.vstring(
'PuppiJet.Jet_nFirstTrkTagVarCSV',
'PuppiJet.Jet_nLastTrkTagVarCSV',
'PuppiJet.Jet_nFirstTrkEtaRelTagVarCSV',
'PuppiJet.Jet_nLastTrkEtaRelTagVarCSV',
'PuppiJet.nTrkTagVarCSV',
'PuppiJet.nTrkEtaRelTagVarCSV',
'PuppiJet.TagVarCSV_trackMomentum',
'PuppiJet.TagVarCSV_trackEta',
'PuppiJet.TagVarCSV_trackPhi',
'PuppiJet.TagVarCSV_trackPtRel',
'PuppiJet.TagVarCSV_trackPPar',
'PuppiJet.TagVarCSV_trackDeltaR',
'PuppiJet.TagVarCSV_trackPtRatio',
'PuppiJet.TagVarCSV_trackPParRatio',
'PuppiJet.TagVarCSV_trackSip2dVal',
'PuppiJet.TagVarCSV_trackSip2dSig',
'PuppiJet.TagVarCSV_trackSip3dVal',
'PuppiJet.TagVarCSV_trackSip3dSig',
'PuppiJet.TagVarCSV_trackDecayLenVal',
'PuppiJet.TagVarCSV_trackDecayLenSig',
'PuppiJet.TagVarCSV_trackJetDistVal',
'PuppiJet.TagVarCSV_trackJetDistSig',
'PuppiJet.TagVarCSV_trackEtaRel'
)
),
cms.PSet(
description = cms.string('C-Tag Variables'),
group = cms.string('CTagVar'),
store = cms.bool(False),
variables = cms.vstring(
'Jet_nFirstTrkCTagVar',
'Jet_nLastTrkCTagVar',
'Jet_nFirstTrkEtaRelCTagVar',
'Jet_nLastTrkEtaRelCTagVar',
'Jet_nFirstLepCTagVar',
'Jet_nLastLepCTagVar',
'CTag_Jet_CvsB',
'CTag_Jet_CvsBN',
'CTag_Jet_CvsBP',
'CTag_Jet_CvsL',
'CTag_Jet_CvsLN',
'CTag_Jet_CvsLP',
'CTag_jetNTracks',
'CTag_jetNTracksEtaRel',
'CTag_jetNLeptons',
'CTag_trackSumJetEtRatio',
'CTag_trackSumJetDeltaR',
'CTag_trackSip2dSigAboveCharm',
'CTag_trackSip3dSigAboveCharm',
'CTag_vertexCategory',
'CTag_jetNSecondaryVertices',
'CTag_vertexMass',
'CTag_vertexNTracks',
'CTag_vertexEnergyRatio',
'CTag_vertexJetDeltaR',
'CTag_flightDistance2dSig',
'CTag_flightDistance3dSig',
'CTag_massVertexEnergyFraction',
'CTag_vertexBoostOverSqrtJetPt',
'CTag_vertexLeptonCategory',
'nTrkCTagVar',
'nTrkEtaRelCTagVar',
'CTag_trackPtRel',
'CTag_trackPPar',
'CTag_trackDeltaR',
'CTag_trackPtRatio',
'CTag_trackPParRatio',
'CTag_trackSip2dSig',
'CTag_trackSip3dSig',
'CTag_trackDecayLenVal',
'CTag_trackJetDistVal',
'CTag_trackEtaRel',
'nLeptons',
'CTag_leptonPtRel',
'CTag_leptonSip3d',
'CTag_leptonDeltaR',
'CTag_leptonRatioRel',
'CTag_leptonEtaRel',
'CTag_leptonRatio'
)
),
cms.PSet(
description = cms.string('SubJet Specific Variables'),
group = cms.string('SubJetSpecific'),
store = cms.bool(False),
variables = cms.vstring('Jet_FatJetIdx')
),
cms.PSet(
description = cms.string('FatJet Specific Variables'),
group = cms.string('FatJetSpecific'),
store = cms.bool(False),
variables = cms.vstring(
'Jet_ptSoftDrop',
'Jet_etaSoftDrop',
'Jet_phiSoftDrop',
'Jet_massSoftDrop',
'Jet_jecF0SoftDrop',
'Jet_ptPruned',
'Jet_etaPruned',
'Jet_phiPruned',
'Jet_massPruned',
'Jet_jecF0Pruned',
'Jet_tau1',
'Jet_tau2',
'Jet_tauAxis1_px',
'Jet_tauAxis1_py',
'Jet_tauAxis1_pz',
'Jet_tauAxis2_px',
'Jet_tauAxis2_py',
'Jet_tauAxis2_pz',
'Jet_z_ratio',
'Jet_nTracks_fat',
'Jet_nSV_fat',
'Jet_trackSip3dSig_3',
'Jet_trackSip3dSig_2',
'Jet_trackSip3dSig_1',
'Jet_trackSip3dSig_0',
'Jet_trackSip2dSigAboveCharm_0',
'Jet_trackSip2dSigAboveCharm_1',
'Jet_trackSip2dSigAboveBottom_0',
'Jet_trackSip2dSigAboveBottom_1',
'Jet_tau1_trackSip3dSig_0',
'Jet_tau1_trackSip3dSig_1',
'Jet_tau2_trackSip3dSig_0',
'Jet_tau2_trackSip3dSig_1',
'Jet_tau1_trackEtaRel_0',
'Jet_tau1_trackEtaRel_1',
'Jet_tau1_trackEtaRel_2',
'Jet_tau2_trackEtaRel_0',
'Jet_tau2_trackEtaRel_1',
'Jet_tau2_trackEtaRel_2',
'Jet_tau1_nSecondaryVertices',
'Jet_tau2_nSecondaryVertices',
'Jet_tau1_flightDistance2dSig',
'Jet_tau2_flightDistance2dSig',
'Jet_tau1_vertexDeltaR',
'Jet_tau2_vertexDeltaR',
'Jet_tau1_vertexEnergyRatio',
'Jet_tau2_vertexEnergyRatio',
'Jet_tau1_vertexMass',
'Jet_tau2_vertexMass',
'Jet_tau1_vertexMass_corrected',
'Jet_tau2_vertexMass_corrected',
'Jet_tau1_vertexNTracks',
'Jet_tau2_vertexNTracks',
'Jet_nFirstTrkTagVar',
'Jet_nLastTrkTagVar',
'Jet_nFirstSVTagVar',
'Jet_nLastSVTagVar',
'Jet_nFirstTrkTagVarCSV',
'Jet_nLastTrkTagVarCSV',
'Jet_nFirstTrkEtaRelTagVarCSV',
'Jet_nLastTrkEtaRelTagVarCSV',
'Jet_DeepDoubleBvLQCD',
'Jet_DeepDoubleBvLHbb',
'Jet_DeepDoubleCvLQCD',
'Jet_DeepDoubleCvLHcc',
'Jet_DeepDoubleCvBHcc',
'Jet_DeepDoubleCvBHbb',
'Jet_MassIndDeepDoubleBvLQCD',
'Jet_MassIndDeepDoubleBvLHbb',
'Jet_MassIndDeepDoubleCvLQCD',
'Jet_MassIndDeepDoubleCvLHcc',
'Jet_MassIndDeepDoubleCvBHcc',
'Jet_MassIndDeepDoubleCvBHbb'
)
),
cms.PSet(
description = cms.string('Sub Jet Info Variables'),
group = cms.string('SubJetInfo'),
store = cms.bool(False),
variables = cms.vstring(
'Jet_nSubJets',
'Jet_nFirstSJ',
'Jet_nLastSJ',
'Jet_nsharedtracks',
'Jet_nsubjettracks',
'Jet_nsharedsubjettracks',
'nSubJet',
'SubJetIdx'
)
),
cms.PSet(
description = cms.string('DoubleBCommissioning'),
group = cms.string('DoubleBCommissioning'),
store = cms.bool(False),
variables = cms.vstring(
'FatJetInfo.nJet',
'FatJetInfo.Jet_pt',
'FatJetInfo.Jet_genpt',
'FatJetInfo.Jet_jes',
'FatJetInfo.Jet_eta',
'FatJetInfo.Jet_phi',
'FatJetInfo.Jet_mass',
'FatJetInfo.Jet_ntracks',
'FatJetInfo.Jet_flavour',
'FatJetInfo.Jet_nbHadrons',
'FatJetInfo.Jet_ncHadrons',
'FatJetInfo.Jet_massSoftDrop',
'FatJetInfo.Jet_massPruned',
'FatJetInfo.Jet_tau1',
'FatJetInfo.Jet_tau2',
'FatJetInfo.Jet_tau1_vertexMass_corrected',
'FatJetInfo.Jet_tau1_vertexMass',
'FatJetInfo.Jet_nSV_fat',
'FatJetInfo.Jet_Ip2P',
'FatJetInfo.Jet_Ip3P',
'FatJetInfo.Jet_Proba',
'FatJetInfo.Jet_Bprob',
'FatJetInfo.Jet_SvxHP',
'FatJetInfo.Jet_Svx',
'FatJetInfo.Jet_CombIVF',
'FatJetInfo.Jet_cMVAv2',
'FatJetInfo.Jet_SV_multi',
'FatJetInfo.Jet_tightID',
'FatJetInfo.nPFMuon',
'FatJetInfo.Jet_DeepDoubleBvLQCD',
'FatJetInfo.Jet_DeepDoubleBvLHbb',
'FatJetInfo.Jet_DeepDoubleCvLQCD',
'FatJetInfo.Jet_DeepDoubleCvLHcc',
'FatJetInfo.Jet_DeepDoubleCvBHcc',
'FatJetInfo.Jet_DeepDoubleCvBHbb',
'FatJetInfo.Jet_MassIndDeepDoubleBvLQCD',
'FatJetInfo.Jet_MassIndDeepDoubleBvLHbb',
'FatJetInfo.Jet_MassIndDeepDoubleCvLQCD',
'FatJetInfo.Jet_MassIndDeepDoubleCvLHcc',
'FatJetInfo.Jet_MassIndDeepDoubleCvBHcc',
'FatJetInfo.Jet_MassIndDeepDoubleCvBHbb',
'FatJetInfo.Jet_DeepBoostedJetbbvsLight',
'FatJetInfo.Jet_DeepBoostedJetccvsLight',
'FatJetInfo.Jet_DeepBoostedJetTvsQCD',
'FatJetInfo.Jet_DeepBoostedJetZHccvsQCD',
'FatJetInfo.Jet_DeepBoostedJetWvsQCD',
'FatJetInfo.Jet_DeepBoostedJetZHbbvsQCD',
'FatJetInfo.DeepDoubleXInput_jetNTracks',
'FatJetInfo.DeepDoubleXInput_jetNSecondaryVertices',
'FatJetInfo.DeepDoubleXInput_trackSip3dSig_0',
'FatJetInfo.DeepDoubleXInput_trackSip3dSig_1',
'FatJetInfo.DeepDoubleXInput_trackSip3dSig_2',
'FatJetInfo.DeepDoubleXInput_trackSip3dSig_3',
'FatJetInfo.DeepDoubleXInput_tau1_trackSip3dSig_0',
'FatJetInfo.DeepDoubleXInput_tau1_trackSip3dSig_1',
'FatJetInfo.DeepDoubleXInput_tau2_trackSip3dSig_0',
'FatJetInfo.DeepDoubleXInput_tau2_trackSip3dSig_1',
'FatJetInfo.DeepDoubleXInput_trackSip2dSigAboveBottom_0',
'FatJetInfo.DeepDoubleXInput_trackSip2dSigAboveBottom_1',
'FatJetInfo.DeepDoubleXInput_trackSip2dSigAboveCharm',
'FatJetInfo.DeepDoubleXInput_tau1_trackEtaRel_0',
'FatJetInfo.DeepDoubleXInput_tau1_trackEtaRel_1',
'FatJetInfo.DeepDoubleXInput_tau1_trackEtaRel_2',
'FatJetInfo.DeepDoubleXInput_tau2_trackEtaRel_0',
'FatJetInfo.DeepDoubleXInput_tau2_trackEtaRel_1',
'FatJetInfo.DeepDoubleXInput_tau2_trackEtaRel_2',
'FatJetInfo.DeepDoubleXInput_tau1_vertexMass',
'FatJetInfo.DeepDoubleXInput_tau1_vertexEnergyRatio',
'FatJetInfo.DeepDoubleXInput_tau1_flightDistance2dSig',
'FatJetInfo.DeepDoubleXInput_tau1_vertexDeltaR',
'FatJetInfo.DeepDoubleXInput_tau2_vertexMass',
'FatJetInfo.DeepDoubleXInput_tau2_vertexEnergyRatio',
'FatJetInfo.DeepDoubleXInput_tau2_flightDistance2dSig',
'FatJetInfo.DeepDoubleXInput_tau2_vertexDeltaR',
'FatJetInfo.DeepDoubleXInput_z_ratio',
'FatJetInfo.nTrkDeepDoubleX',
'FatJetInfo.Jet_DeepDoubleX_nFirstTrkTagVar',
'FatJetInfo.Jet_DeepDoubleX_nLastTrkTagVar',
'FatJetInfo.DeepDoubleXInput_charged_EtaRel',
'FatJetInfo.DeepDoubleXInput_charged_PtRatio',
'FatJetInfo.DeepDoubleXInput_charged_PParRatio',
'FatJetInfo.DeepDoubleXInput_charged_Sip2dVal',
'FatJetInfo.DeepDoubleXInput_charged_Sip2dSig',
'FatJetInfo.DeepDoubleXInput_charged_Sip3dVal',
'FatJetInfo.DeepDoubleXInput_charged_Sip3dSig',
'FatJetInfo.DeepDoubleXInput_charged_JetDistVal',
'FatJetInfo.nSVDeepDoubleX',
'FatJetInfo.Jet_DeepDoubleX_nFirstSVTagVar',
'FatJetInfo.Jet_DeepDoubleX_nLastSVTagVar',
'FatJetInfo.DeepDoubleXInput_sv_d3d',
'FatJetInfo.DeepDoubleXInput_sv_d3dsig',
'FatJetInfo.nTrkDeepBoostedJet',
'FatJetInfo.Jet_DeepBoostedJet_nFirstTrkTagVar',
'FatJetInfo.Jet_DeepBoostedJet_nLastTrkTagVar',
'FatJetInfo.DeepBoostedJetInput_pf_puppiw',
'FatJetInfo.DeepBoostedJetInput_pf_hcalFrac',
'FatJetInfo.DeepBoostedJetInput_pf_VTX_ass',
'FatJetInfo.DeepBoostedJetInput_pf_lostInnerHits',
'FatJetInfo.DeepBoostedJetInput_pf_quality',
'FatJetInfo.DeepBoostedJetInput_pf_charge',
'FatJetInfo.DeepBoostedJetInput_pf_isEl',
'FatJetInfo.DeepBoostedJetInput_pf_isMu',
'FatJetInfo.DeepBoostedJetInput_pf_isChargedHad',
'FatJetInfo.DeepBoostedJetInput_pf_isGamma',
'FatJetInfo.DeepBoostedJetInput_pf_isNeutralHad',
'FatJetInfo.DeepBoostedJetInput_pf_phirel',
'FatJetInfo.DeepBoostedJetInput_pf_etarel',
'FatJetInfo.DeepBoostedJetInput_pf_deltaR',
'FatJetInfo.DeepBoostedJetInput_pf_abseta',
'FatJetInfo.DeepBoostedJetInput_pf_ptrel_log',
'FatJetInfo.DeepBoostedJetInput_pf_erel_log',
'FatJetInfo.DeepBoostedJetInput_pf_pt_log',
'FatJetInfo.DeepBoostedJetInput_pf_drminsv',
'FatJetInfo.DeepBoostedJetInput_pf_drsubjet1',
'FatJetInfo.DeepBoostedJetInput_pf_drsubjet2',
'FatJetInfo.DeepBoostedJetInput_pf_normchi2',
'FatJetInfo.DeepBoostedJetInput_pf_dz',
'FatJetInfo.DeepBoostedJetInput_pf_dzsig',
'FatJetInfo.DeepBoostedJetInput_pf_dxy',
'FatJetInfo.DeepBoostedJetInput_pf_dxysig',
'FatJetInfo.DeepBoostedJetInput_pf_dptdpt',
'FatJetInfo.DeepBoostedJetInput_pf_detadeta',
'FatJetInfo.DeepBoostedJetInput_pf_dphidphi',
'FatJetInfo.DeepBoostedJetInput_pf_dxydxy',
'FatJetInfo.DeepBoostedJetInput_pf_dzdz',
'FatJetInfo.DeepBoostedJetInput_pf_dxydz',
'FatJetInfo.DeepBoostedJetInput_pf_dphidxy',
'FatJetInfo.DeepBoostedJetInput_pf_dlambdadz',
'FatJetInfo.DeepBoostedJetInput_pf_btagEtaRel',
'FatJetInfo.DeepBoostedJetInput_pf_btagPtRatio',
'FatJetInfo.DeepBoostedJetInput_pf_btagPParRatio',
'FatJetInfo.DeepBoostedJetInput_pf_btagSip2dVal',
'FatJetInfo.DeepBoostedJetInput_pf_btagSip2dSig',
'FatJetInfo.DeepBoostedJetInput_pf_btagSip3dVal',
'FatJetInfo.DeepBoostedJetInput_pf_btagSip3dSig',
'FatJetInfo.DeepBoostedJetInput_pf_btagJetDistVal',
'FatJetInfo.nSVDeepBoostedJet',
'FatJetInfo.Jet_DeepBoostedJet_nFirstSVTagVar',
'FatJetInfo.Jet_DeepBoostedJet_nLastSVTagVar',
'FatJetInfo.DeepBoostedJetInput_sv_phirel',
'FatJetInfo.DeepBoostedJetInput_sv_etarel',
'FatJetInfo.DeepBoostedJetInput_sv_deltaR',
'FatJetInfo.DeepBoostedJetInput_sv_abseta',
'FatJetInfo.DeepBoostedJetInput_sv_mass',
'FatJetInfo.DeepBoostedJetInput_sv_ptrel_log',
'FatJetInfo.DeepBoostedJetInput_sv_erel_log',
'FatJetInfo.DeepBoostedJetInput_sv_pt_log',
'FatJetInfo.DeepBoostedJetInput_sv_ntracks',
'FatJetInfo.DeepBoostedJetInput_sv_normchi2',
'FatJetInfo.DeepBoostedJetInput_sv_dxy',
'FatJetInfo.DeepBoostedJetInput_sv_dxysig',
'FatJetInfo.DeepBoostedJetInput_sv_d3d',
'FatJetInfo.DeepBoostedJetInput_sv_d3dsig',
'FatJetInfo.DeepBoostedJetInput_sv_costhetasvpv'
)
)
),
hepMC = cms.untracked.InputTag("generatorSmeared"),
hitAssociator = cms.PSet(
ROUList = cms.vstring(
'TrackerHitsTIBLowTof',
'TrackerHitsTIBHighTof',
'TrackerHitsTIDLowTof',
'TrackerHitsTIDHighTof',
'TrackerHitsTOBLowTof',
'TrackerHitsTOBHighTof',
'TrackerHitsTECLowTof',
'TrackerHitsTECHighTof',
'TrackerHitsPixelBarrelLowTof',
'TrackerHitsPixelBarrelHighTof',
'TrackerHitsPixelEndcapLowTof',
'TrackerHitsPixelEndcapHighTof'
),
associatePixel = cms.bool(True),
associateRecoTracks = cms.bool(True),
associateStrip = cms.bool(True),
pixelSimLinkSrc = cms.InputTag("simSiPixelDigis"),
stripSimLinkSrc = cms.InputTag("simSiStripDigis")
),
ipCaloTagInfos = cms.string('hltImpactParameterPat'),
ipPuppiTagInfos = cms.string('hltDeepBLifetimePFPuppiPat'),
ipTagInfos = cms.string('hltDeepBLifetimePFPat'),
longLivedDecayLength = cms.untracked.double(1e-14),
maxDeltaR = cms.double(0.4),
maxSVDeltaRToJet = cms.double(0.7),
minTrackerSimHits = cms.untracked.uint32(3),
muonCollectionName = cms.InputTag("hltMuonsROIForBTag"),
numberOfInnerLayers = cms.untracked.uint32(2),
primaryVertexColl = cms.InputTag("hltVerticesPFFilterROIForBTag"),
produceAllTrackTree = cms.bool(False),
produceJetTrackTruthTree = cms.bool(False),
prunedGenParticles = cms.InputTag("prunedGenParticlesBoost"),
rho = cms.InputTag("hltFixedGridRhoFastjetAllROIForBTag"),
runCSVTagTrackVariables = cms.bool(True),
runCSVTagVariables = cms.bool(True),
runCaloJetVariables = cms.bool(True),
runDeepFlavourTagVariables = cms.bool(True),
runEventInfo = cms.bool(True),
runGenVariables = cms.bool(False),
runHadronVariables = cms.bool(False),
runJetVariables = cms.bool(True),
runOnData = cms.bool(True),
runPFElectronVariables = cms.bool(True),
runPFMuonVariables = cms.bool(True),
runPuppiJetVariables = cms.bool(False),
runQuarkVariables = cms.bool(False),
runTagVariables = cms.bool(True),
selTagger = cms.int32(2),
src = cms.InputTag("generator"),
svCaloTagInfos = cms.string('hltInclusiveSecondaryVertexFinderPat'),
svComputer = cms.string('candidateCombinedSecondaryVertexV2Computer'),
svPuppiTagInfos = cms.string('hltDeepSecondaryVertexPFPuppiPat'),
svTagInfos = cms.string('hltDeepSecondaryVertexPFPat'),
trackAssociator = cms.untracked.InputTag("quickTrackAssociatorByHits"),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackProducer = cms.untracked.InputTag("generalTracks"),
trackingTruth = cms.untracked.InputTag("mix","MergedTrackTruth"),
tracksColl = cms.InputTag("hltMergedTracksROIForBTag"),
triggerTable = cms.InputTag("TriggerResults","","@currentProcess"),
useTrackHistory = cms.bool(False),
variables = cms.VPSet( (
cms.PSet(
description = cms.string('nBitTrigger'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nBitTrigger')
),
cms.PSet(
description = cms.string('trigger info'),
mconly = cms.bool(False),
requires = cms.vstring('nBitTrigger'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('BitTrigger')
),
cms.PSet(
description = cms.string('run number'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Run')
),
cms.PSet(
description = cms.string('event number'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Evt')
),
cms.PSet(
description = cms.string('lumi-block number'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('LumiBlock')
),
cms.PSet(
description = cms.string('Z position of first PV'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PVz')
),
cms.PSet(
description = cms.string('PVez'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PVez')
),
cms.PSet(
description = cms.string('GenPVx'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('GenPVx')
),
cms.PSet(
description = cms.string('GenPVy'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('GenPVy')
),
cms.PSet(
description = cms.string('GenPVz'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('GenPVz')
),
cms.PSet(
description = cms.string('ptHat for pythia'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('pthat')
),
cms.PSet(
description = cms.string('mcweight'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('mcweight')
),
cms.PSet(
description = cms.string('rho'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('rho')
),
cms.PSet(
description = cms.string('number of PV'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nPV')
),
cms.PSet(
description = cms.string('BX'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('BX')
),
cms.PSet(
description = cms.string('PV x position'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_x')
),
cms.PSet(
description = cms.string('PV y position'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_y')
),
cms.PSet(
description = cms.string('PV z position'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_z')
),
cms.PSet(
description = cms.string('PV error on x position'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_ex')
),
cms.PSet(
description = cms.string('PV error on y position'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_ey')
),
cms.PSet(
description = cms.string('PV error on z position'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_ez')
),
cms.PSet(
description = cms.string('PV chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_chi2')
),
cms.PSet(
description = cms.string('PV number of degree of freedom'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_ndf')
),
cms.PSet(
description = cms.string('is a good PV'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_isgood')
),
cms.PSet(
description = cms.string('is a fake PV'),
mconly = cms.bool(False),
requires = cms.vstring('nPV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('PV_isfake')
),
cms.PSet(
description = cms.string('the true number of pileup interactions that have been added to the event'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nPUtrue')
),
cms.PSet(
description = cms.string('the number of pileup interactions that have been added to the event'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nPU')
),
cms.PSet(
description = cms.string('0 if on time pileup, -1 or +1 if out-of-time'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('PU_bunch')
),
cms.PSet(
description = cms.string('the true primary vertex position along the z axis for each added interaction'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('PU_z')
),
cms.PSet(
description = cms.string('the sum of the transverse momentum of the tracks originating from each interaction, where track pT > low_cut'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('PU_sumpT_low')
),
cms.PSet(
description = cms.string('the sum of the transverse momentum of the tracks originating from each interaction, where track pT > high_cut'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('PU_sumpT_high')
),
cms.PSet(
description = cms.string('the number of tracks originating from each interaction, where track pT > low_cu'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('PU_ntrks_low')
),
cms.PSet(
description = cms.string('the number of tracks originating from each interaction, where track pT > high_cut'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'fillPU',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('PU_ntrks_high')
),
cms.PSet(
description = cms.string('ncQuarks'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('ncQuarks')
),
cms.PSet(
description = cms.string('cQuark_pT'),
mconly = cms.bool(True),
requires = cms.vstring('ncQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('cQuark_pT')
),
cms.PSet(
description = cms.string('cQuark_eta'),
mconly = cms.bool(True),
requires = cms.vstring('ncQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('cQuark_eta')
),
cms.PSet(
description = cms.string('cQuark_phi'),
mconly = cms.bool(True),
requires = cms.vstring('ncQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('cQuark_phi')
),
cms.PSet(
description = cms.string('cQuark_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('ncQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('cQuark_pdgID')
),
cms.PSet(
description = cms.string('cQuark_status'),
mconly = cms.bool(True),
requires = cms.vstring('ncQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('cQuark_status')
),
cms.PSet(
description = cms.string('cQuark_fromGSP'),
mconly = cms.bool(True),
requires = cms.vstring('ncQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('cQuark_fromGSP')
),
cms.PSet(
description = cms.string('nbQuarks'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nbQuarks')
),
cms.PSet(
description = cms.string('bQuark_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nbQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('bQuark_pT')
),
cms.PSet(
description = cms.string('bQuark_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nbQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('bQuark_eta')
),
cms.PSet(
description = cms.string('bQuark_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nbQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('bQuark_phi')
),
cms.PSet(
description = cms.string('bQuark_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nbQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('bQuark_pdgID')
),
cms.PSet(
description = cms.string('bQuark_status'),
mconly = cms.bool(True),
requires = cms.vstring('nbQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('bQuark_status')
),
cms.PSet(
description = cms.string('bQuark_fromGSP'),
mconly = cms.bool(True),
requires = cms.vstring('nbQuarks'),
runOptions = cms.vstring(
'runQuarkVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('bQuark_fromGSP')
),
cms.PSet(
description = cms.string('nBHadrons'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nBHadrons')
),
cms.PSet(
description = cms.string('BHadron_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_pT')
),
cms.PSet(
description = cms.string('BHadron_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_eta')
),
cms.PSet(
description = cms.string('BHadron_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_phi')
),
cms.PSet(
description = cms.string('BHadron_mass'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_mass')
),
cms.PSet(
description = cms.string('BHadron_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_pdgID')
),
cms.PSet(
description = cms.string('BHadron_mother'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_mother')
),
cms.PSet(
description = cms.string('BHadron_hasBdaughter'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_hasBdaughter')
),
cms.PSet(
description = cms.string('BHadron_SVx'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_SVx')
),
cms.PSet(
description = cms.string('BHadron_SVy'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_SVy')
),
cms.PSet(
description = cms.string('BHadron_SVz'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_SVz')
),
cms.PSet(
description = cms.string('BHadron_nCharged'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_nCharged')
),
cms.PSet(
description = cms.string('BHadron_DHadron1'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_DHadron1')
),
cms.PSet(
description = cms.string('BHadron_DHadron2'),
mconly = cms.bool(True),
requires = cms.vstring('nBHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('BHadron_DHadron2')
),
cms.PSet(
description = cms.string('nDHadrons'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nDHadrons')
),
cms.PSet(
description = cms.string('nDaughters'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nDaughters')
),
cms.PSet(
description = cms.string('DHadron_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_pT')
),
cms.PSet(
description = cms.string('DHadron_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_eta')
),
cms.PSet(
description = cms.string('DHadron_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_phi')
),
cms.PSet(
description = cms.string('DHadron_mass'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_mass')
),
cms.PSet(
description = cms.string('DHadron_SVx'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_SVx')
),
cms.PSet(
description = cms.string('DHadron_SVy'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_SVy')
),
cms.PSet(
description = cms.string('DHadron_SVz'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_SVz')
),
cms.PSet(
description = cms.string('DHadron_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_pdgID')
),
cms.PSet(
description = cms.string('DHadron_nDaughters'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_nDaughters')
),
cms.PSet(
description = cms.string('sum(DHadron_nDaughters[i]): needed for daughter pdgIDs'),
mconly = cms.bool(True),
requires = cms.vstring('nDaughters'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_DaughtersPdgID')
),
cms.PSet(
description = cms.string('DHadron_nChargedDaughters'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_nChargedDaughters')
),
cms.PSet(
description = cms.string('DHadron_nCharged'),
mconly = cms.bool(True),
requires = cms.vstring('nDHadrons'),
runOptions = cms.vstring(
'runHadronVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('DHadron_nCharged')
),
cms.PSet(
description = cms.string('nGenlep'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nGenlep')
),
cms.PSet(
description = cms.string('Genlep_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nGenlep'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('Genlep_pT')
),
cms.PSet(
description = cms.string('Genlep_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nGenlep'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('Genlep_eta')
),
cms.PSet(
description = cms.string('Genlep_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nGenlep'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('Genlep_phi')
),
cms.PSet(
description = cms.string('Genlep_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nGenlep'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('Genlep_pdgID')
),
cms.PSet(
description = cms.string('Genlep_status'),
mconly = cms.bool(True),
requires = cms.vstring('nGenlep'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('Genlep_status')
),
cms.PSet(
description = cms.string('Genlep_mother'),
mconly = cms.bool(True),
requires = cms.vstring('nGenlep'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('Genlep_mother')
),
cms.PSet(
description = cms.string('nGenquark'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('nGenquark')
),
cms.PSet(
description = cms.string('Genquark_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nGenquark'),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('Genquark_pT')
),
cms.PSet(
description = cms.string('Genquark_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nGenquark'),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('Genquark_eta')
),
cms.PSet(
description = cms.string('Genquark_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nGenquark'),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('Genquark_phi')
),
cms.PSet(
description = cms.string('Genquark_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nGenquark'),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('Genquark_pdgID')
),
cms.PSet(
description = cms.string('Genquark_mother'),
mconly = cms.bool(True),
requires = cms.vstring('nGenquark'),
runOptions = cms.vstring('runEventInfo'),
store = cms.bool(False),
variable = cms.string('Genquark_mother')
),
cms.PSet(
description = cms.string('nGenV0'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nGenV0')
),
cms.PSet(
description = cms.string('GenV0_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_pT')
),
cms.PSet(
description = cms.string('GenV0_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_eta')
),
cms.PSet(
description = cms.string('GenV0_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_phi')
),
cms.PSet(
description = cms.string('GenV0_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_pdgID')
),
cms.PSet(
description = cms.string('GenV0_SVx'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_SVx')
),
cms.PSet(
description = cms.string('GenV0_SVy'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_SVy')
),
cms.PSet(
description = cms.string('GenV0_SVz'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_SVz')
),
cms.PSet(
description = cms.string('GenV0_nCharged'),
mconly = cms.bool(True),
requires = cms.vstring('nGenV0'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenV0_nCharged')
),
cms.PSet(
description = cms.string('nGenPruned'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nGenPruned')
),
cms.PSet(
description = cms.string('GenPruned_pT'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_pT')
),
cms.PSet(
description = cms.string('GenPruned_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_eta')
),
cms.PSet(
description = cms.string('GenPruned_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_phi')
),
cms.PSet(
description = cms.string('GenPruned_mass'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_mass')
),
cms.PSet(
description = cms.string('GenPruned_status'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_status')
),
cms.PSet(
description = cms.string('GenPruned_pdgID'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_pdgID')
),
cms.PSet(
description = cms.string('GenPruned_mother'),
mconly = cms.bool(True),
requires = cms.vstring('nGenPruned'),
runOptions = cms.vstring(
'runGenVariables',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('GenPruned_mother')
),
cms.PSet(
description = cms.string('nTrkAll'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('nTrkAll')
),
cms.PSet(
description = cms.string('TrkAll_d0'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_d0')
),
cms.PSet(
description = cms.string('TrkAll_dz'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_dz')
),
cms.PSet(
description = cms.string('TrkAll_p'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_p')
),
cms.PSet(
description = cms.string('TrkAll_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_pt')
),
cms.PSet(
description = cms.string('TrkAll_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_eta')
),
cms.PSet(
description = cms.string('TrkAll_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_phi')
),
cms.PSet(
description = cms.string('TrkAll_chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_chi2')
),
cms.PSet(
description = cms.string('TrkAll_charge'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_charge')
),
cms.PSet(
description = cms.string('TrkAll_nHitAll'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitAll')
),
cms.PSet(
description = cms.string('TrkAll_nHitPixel'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitPixel')
),
cms.PSet(
description = cms.string('TrkAll_nHitStrip'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitStrip')
),
cms.PSet(
description = cms.string('TrkAll_nHitTIB'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitTIB')
),
cms.PSet(
description = cms.string('TrkAll_nHitTID'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitTID')
),
cms.PSet(
description = cms.string('TrkAll_nHitTOB'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitTOB')
),
cms.PSet(
description = cms.string('TrkAll_nHitTEC'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitTEC')
),
cms.PSet(
description = cms.string('TrkAll_nHitPXB'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitPXB')
),
cms.PSet(
description = cms.string('TrkAll_nHitPXF'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nHitPXF')
),
cms.PSet(
description = cms.string('TrkAll_isHitL1'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_isHitL1')
),
cms.PSet(
description = cms.string('TrkAll_nSiLayers'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nSiLayers')
),
cms.PSet(
description = cms.string('TrkAll_nPxLayers'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_nPxLayers')
),
cms.PSet(
description = cms.string('TrkAll_PV'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_PV')
),
cms.PSet(
description = cms.string('TrkAll_PVweight'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkAll'),
runOptions = cms.vstring(
'produceAllTrackTree',
'runEventInfo'
),
store = cms.bool(False),
variable = cms.string('TrkAll_PVweight')
),
cms.PSet(
description = cms.string('nPatMuon'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('nPatMuon')
),
cms.PSet(
description = cms.string('PatMuon_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_pt')
),
cms.PSet(
description = cms.string('PatMuon_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_eta')
),
cms.PSet(
description = cms.string('PatMuon_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_phi')
),
cms.PSet(
description = cms.string('PatMuon_isSoftMuon'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_isSoftMuon')
),
cms.PSet(
description = cms.string('PatMuon_isMediumMuon'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_isMediumMuon')
),
cms.PSet(
description = cms.string('PatMuon_isTightMuon'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_isTightMuon')
),
cms.PSet(
description = cms.string('PatMuon_iso'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_iso')
),
cms.PSet(
description = cms.string('PatMuon_isoTrackerOnly'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_isoTrackerOnly')
),
cms.PSet(
description = cms.string('PatMuon_IP'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_IP')
),
cms.PSet(
description = cms.string('PatMuon_IPsig'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_IPsig')
),
cms.PSet(
description = cms.string('PatMuon_IP2D'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_IP2D')
),
cms.PSet(
description = cms.string('PatMuon_IP2Dsig'),
mconly = cms.bool(False),
requires = cms.vstring('nPatMuon'),
runOptions = cms.vstring('runPatMuons'),
store = cms.bool(False),
variable = cms.string('PatMuon_IP2Dsig')
),
cms.PSet(
description = cms.string('0 = ee, 1 = mumu, 2=emu'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_chan')
),
cms.PSet(
description = cms.string('ttbar_trigWord'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_trigWord')
),
cms.PSet(
description = cms.string('ttbar_metfilterWord'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_metfilterWord')
),
cms.PSet(
description = cms.string('ttbar_allmepartons'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_allmepartons')
),
cms.PSet(
description = cms.string('ttbar_matchmepartons'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_matchmepartons')
),
cms.PSet(
description = cms.string('ttbar_ng'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_ng')
),
cms.PSet(
description = cms.string('ttbar_gid'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_gid')
),
cms.PSet(
description = cms.string('ttbar_nl'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_nl')
),
cms.PSet(
description = cms.string('ttbar_lid'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_lid')
),
cms.PSet(
description = cms.string('ttbar_lgid'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_lgid')
),
cms.PSet(
description = cms.string('ttbar_lch'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_lch')
),
cms.PSet(
description = cms.string('ttbar_nw'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_nw')
),
cms.PSet(
description = cms.string('ttbar_gpt'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_gpt')
),
cms.PSet(
description = cms.string('ttbar_geta'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_geta')
),
cms.PSet(
description = cms.string('ttbar_gphi'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_gphi')
),
cms.PSet(
description = cms.string('ttbar_gm'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_gm')
),
cms.PSet(
description = cms.string('ttbar_lpt'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_lpt')
),
cms.PSet(
description = cms.string('ttbar_leta'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_leta')
),
cms.PSet(
description = cms.string('ttbar_lphi'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_lphi')
),
cms.PSet(
description = cms.string('ttbar_lm'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_lm')
),
cms.PSet(
description = cms.string('ttbar_metpt'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_metpt')
),
cms.PSet(
description = cms.string('ttbar_metphi'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_metphi')
),
cms.PSet(
description = cms.string('ttbar_w'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_w')
),
cms.PSet(
description = cms.string('ttbar_ptweight'),
mconly = cms.bool(False),
requires = cms.vstring('ttbar_ng'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('ttbar_ptweight')
),
cms.PSet(
description = cms.string('nJet'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nJet')
),
cms.PSet(
description = cms.string('jet pT'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_pt')
),
cms.PSet(
description = cms.string('Jet_uncorrpt'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_uncorrpt')
),
cms.PSet(
description = cms.string('Jet_genpt'),
mconly = cms.bool(True),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_genpt')
),
cms.PSet(
description = cms.string('residulat corr (obsolete)'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_residual')
),
cms.PSet(
description = cms.string('Jet_area'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_area')
),
cms.PSet(
description = cms.string('jet energy scale (obsolete)'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_jes')
),
cms.PSet(
description = cms.string('Jet_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_eta')
),
cms.PSet(
description = cms.string('Jet_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_phi')
),
cms.PSet(
description = cms.string('Jet_mass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_mass')
),
cms.PSet(
description = cms.string('Jet_Ip1N'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip1N')
),
cms.PSet(
description = cms.string('Jet_Ip1P'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip1P')
),
cms.PSet(
description = cms.string('IP/sigma of the 2nd negative track'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip2N')
),
cms.PSet(
description = cms.string('IP/sigma of the 2nd positive track'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip2P')
),
cms.PSet(
description = cms.string('IP/sigma of the 3rd negative track'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip3N')
),
cms.PSet(
description = cms.string('IP/sigma of the 3rd positive track'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip3P')
),
cms.PSet(
description = cms.string('Jet_Ip4N'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip4N')
),
cms.PSet(
description = cms.string('Jet_Ip4P'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Ip4P')
),
cms.PSet(
description = cms.string('Jet_Mass4N'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Mass4N')
),
cms.PSet(
description = cms.string('Jet_Mass4P'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Mass4P')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourBDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourBDisc')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourCvsLDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourCvsLDisc')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourCvsBDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourCvsBDisc')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourB')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourBB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourBB')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourLEPB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourLEPB')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourC'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourC')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourUDS'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourUDS')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourG'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourG')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourBDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('useNegativeDeepFlavourTags'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourBDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourCvsLDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('useNegativeDeepFlavourTags'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourCvsLDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourCvsBDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('useNegativeDeepFlavourTags'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourCvsBDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedBDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedBDisc')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedCvsLDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedCvsLDisc')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedCvsBDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedCvsBDisc')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedB')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedBB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedBB')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedLEPB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedLEPB')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedC'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedC')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedUDS'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedUDS')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedG'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runPrunedDeepFlavourTaggers'),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedG')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedBDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runPrunedDeepFlavourTaggers',
'useNegativeDeepFlavourTags'
),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedBDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedCvsLDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runPrunedDeepFlavourTaggers',
'useNegativeDeepFlavourTags'
),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedCvsLDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepFlavourPrunedCvsBDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runPrunedDeepFlavourTaggers',
'useNegativeDeepFlavourTags'
),
store = cms.bool(False),
variable = cms.string('Jet_DeepFlavourPrunedCvsBDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVBDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVBDisc')
),
cms.PSet(
description = cms.string('Jet_DeepCSVBDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVBDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVBDiscP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVBDiscP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVCvsLDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVCvsLDisc')
),
cms.PSet(
description = cms.string('Jet_DeepCSVCvsLDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVCvsLDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVCvsLDiscP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVCvsLDiscP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVCvsBDisc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVCvsBDisc')
),
cms.PSet(
description = cms.string('Jet_DeepCSVCvsBDiscN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVCvsBDiscN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVCvsBDiscP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVCvsBDiscP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVb'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVb')
),
cms.PSet(
description = cms.string('Jet_DeepCSVc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVc')
),
cms.PSet(
description = cms.string('Jet_DeepCSVl'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVl')
),
cms.PSet(
description = cms.string('Jet_DeepCSVbb'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVbb')
),
cms.PSet(
description = cms.string('Jet_DeepCSVcc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVcc')
),
cms.PSet(
description = cms.string('Jet_DeepCSVbN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVbN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVcN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVcN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVlN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVlN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVbbN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVbbN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVccN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVccN')
),
cms.PSet(
description = cms.string('Jet_DeepCSVbP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVbP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVcP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVcP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVlP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVlP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVbbP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVbbP')
),
cms.PSet(
description = cms.string('Jet_DeepCSVccP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepCSVccP')
),
cms.PSet(
description = cms.string('negative jet probability'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_ProbaN')
),
cms.PSet(
description = cms.string('positive jet probability'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_ProbaP')
),
cms.PSet(
description = cms.string('jet probability'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Proba')
),
cms.PSet(
description = cms.string("negative \'B\' jet probability"),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_BprobN')
),
cms.PSet(
description = cms.string("positive \'B\' jet probability"),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_BprobP')
),
cms.PSet(
description = cms.string("\'B\' jet probability"),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Bprob')
),
cms.PSet(
description = cms.string('negative SSVHE '),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SvxN')
),
cms.PSet(
description = cms.string('SSVHE'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_Svx')
),
cms.PSet(
description = cms.string('negative SSVHP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SvxNHP')
),
cms.PSet(
description = cms.string('SSHP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SvxHP')
),
cms.PSet(
description = cms.string('Jet_CombSvxN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_CombSvxN')
),
cms.PSet(
description = cms.string('Jet_CombSvxP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_CombSvxP')
),
cms.PSet(
description = cms.string('Jet_CombSvx'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_CombSvx')
),
cms.PSet(
description = cms.string('CSVv2 w/ IVF'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_CombIVF')
),
cms.PSet(
description = cms.string('positive CSVv2 w/ IVF'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_CombIVF_P')
),
cms.PSet(
description = cms.string('negative CSVv2 w/ IVF'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_CombIVF_N')
),
cms.PSet(
description = cms.string('negative SoftMu'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SoftMuN')
),
cms.PSet(
description = cms.string('positive SoftMu'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SoftMuP')
),
cms.PSet(
description = cms.string('soft muon'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SoftMu')
),
cms.PSet(
description = cms.string('negative SoftEl'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SoftElN')
),
cms.PSet(
description = cms.string('positive SoftEl'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SoftElP')
),
cms.PSet(
description = cms.string('SoftEl'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SoftEl')
),
cms.PSet(
description = cms.string('Jet_DoubleSV'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DoubleSV')
),
cms.PSet(
description = cms.string('Jet_cMVA'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_cMVA')
),
cms.PSet(
description = cms.string('Jet_cMVAv2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_cMVAv2')
),
cms.PSet(
description = cms.string('Jet_cMVAv2N'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_cMVAv2N')
),
cms.PSet(
description = cms.string('Jet_cMVAv2P'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_cMVAv2P')
),
cms.PSet(
description = cms.string('Jet_trackSip2dSig_AboveBottom_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip2dSig_AboveBottom_0')
),
cms.PSet(
description = cms.string('Jet_trackSip2dSig_AboveBottom_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip2dSig_AboveBottom_1')
),
cms.PSet(
description = cms.string('Jet_hist1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_hist1')
),
cms.PSet(
description = cms.string('Jet_hist2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_hist2')
),
cms.PSet(
description = cms.string('Jet_hist3'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_hist3')
),
cms.PSet(
description = cms.string('Jet_histJet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_histJet')
),
cms.PSet(
description = cms.string('Jet_histSvx'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_histSvx')
),
cms.PSet(
description = cms.string('Jet_ntracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_ntracks')
),
cms.PSet(
description = cms.string('Jet_nseltracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nseltracks')
),
cms.PSet(
description = cms.string('Jet_flavour'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_flavour')
),
cms.PSet(
description = cms.string('Jet_flavourCleaned'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_flavourCleaned')
),
cms.PSet(
description = cms.string('Jet_partonFlavour'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_partonFlavour')
),
cms.PSet(
description = cms.string('Jet_hadronFlavour'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_hadronFlavour')
),
cms.PSet(
description = cms.string('Jet_partonid'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_partonid')
),
cms.PSet(
description = cms.string('Jet_nbHadrons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nbHadrons')
),
cms.PSet(
description = cms.string('Jet_ncHadrons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_ncHadrons')
),
cms.PSet(
description = cms.string('Jet_isB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isB')
),
cms.PSet(
description = cms.string('Jet_isLeptonicB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isLeptonicB')
),
cms.PSet(
description = cms.string('Jet_isLeptonicB_C'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isLeptonicB_C')
),
cms.PSet(
description = cms.string('Jet_isGBB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isGBB')
),
cms.PSet(
description = cms.string('Jet_isBB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isBB')
),
cms.PSet(
description = cms.string('Jet_isC'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isC')
),
cms.PSet(
description = cms.string('Jet_isGCC'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isGCC')
),
cms.PSet(
description = cms.string('Jet_isCC'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isCC')
),
cms.PSet(
description = cms.string('Jet_isTau'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isTau')
),
cms.PSet(
description = cms.string('Jet_isG'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isG')
),
cms.PSet(
description = cms.string('Jet_isUD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isUD')
),
cms.PSet(
description = cms.string('Jet_isS'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isS')
),
cms.PSet(
description = cms.string('Jet_isUndefined'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_isUndefined')
),
cms.PSet(
description = cms.string('Jet_GenJetHasMatch'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_GenJetHasMatch')
),
cms.PSet(
description = cms.string('Jet_GenJet_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_GenJet_pt')
),
cms.PSet(
description = cms.string('Jet_GenJet_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_GenJet_eta')
),
cms.PSet(
description = cms.string('Jet_GenJet_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_GenJet_phi')
),
cms.PSet(
description = cms.string('Jet_GenJet_mass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_GenJet_mass')
),
cms.PSet(
description = cms.string('index of the first tracks associated to the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrack')
),
cms.PSet(
description = cms.string('index of the last tracks associated to the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrack')
),
cms.PSet(
description = cms.string('Jet_nFirstTrackTruth'),
mconly = cms.bool(True),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrackTruth')
),
cms.PSet(
description = cms.string('Jet_nLastTrackTruth'),
mconly = cms.bool(True),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrackTruth')
),
cms.PSet(
description = cms.string('index of the first SV associated to the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstSV')
),
cms.PSet(
description = cms.string('index of the last SV associated to the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastSV')
),
cms.PSet(
description = cms.string('Jet_SV_multi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_SV_multi')
),
cms.PSet(
description = cms.string('Jet_nFirstTrkInc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrkInc')
),
cms.PSet(
description = cms.string('Jet_nLastTrkInc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrkInc')
),
cms.PSet(
description = cms.string('Jet_nSM'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nSM')
),
cms.PSet(
description = cms.string('Jet_nFirstSM'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstSM')
),
cms.PSet(
description = cms.string('Jet_nLastSM'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastSM')
),
cms.PSet(
description = cms.string('Jet_nSE'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nSE')
),
cms.PSet(
description = cms.string('Jet_nFirstSE'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstSE')
),
cms.PSet(
description = cms.string('Jet_nLastSE'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastSE')
),
cms.PSet(
description = cms.string('Jet_looseID'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_looseID')
),
cms.PSet(
description = cms.string('Jet_tightID'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_tightID')
),
cms.PSet(
description = cms.string('Jet_tightlepvetoID'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_tightlepvetoID')
),
cms.PSet(
description = cms.string('Jet_pileup_looseID'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_pileup_looseID')
),
cms.PSet(
description = cms.string('Jet_pileup_mediumID'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_pileup_mediumID')
),
cms.PSet(
description = cms.string('Jet_pileup_tightID'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runJetVariables'),
store = cms.bool(False),
variable = cms.string('Jet_pileup_tightID')
),
cms.PSet(
description = cms.string('Jet_FatJetIdx'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_FatJetIdx')
),
cms.PSet(
description = cms.string('Jet_ptSoftDrop'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_ptSoftDrop')
),
cms.PSet(
description = cms.string('Jet_etaSoftDrop'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_etaSoftDrop')
),
cms.PSet(
description = cms.string('Jet_phiSoftDrop'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_phiSoftDrop')
),
cms.PSet(
description = cms.string('Jet_massSoftDrop'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_massSoftDrop')
),
cms.PSet(
description = cms.string('Jet_jecF0SoftDrop'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_jecF0SoftDrop')
),
cms.PSet(
description = cms.string('Jet_ptPruned'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_ptPruned')
),
cms.PSet(
description = cms.string('Jet_etaPruned'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_etaPruned')
),
cms.PSet(
description = cms.string('Jet_phiPruned'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_phiPruned')
),
cms.PSet(
description = cms.string('Jet_massPruned'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_massPruned')
),
cms.PSet(
description = cms.string('Jet_jecF0Pruned'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_jecF0Pruned')
),
cms.PSet(
description = cms.string('Jet_tau1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1')
),
cms.PSet(
description = cms.string('Jet_tau2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2')
),
cms.PSet(
description = cms.string('Jet_tauAxis1_px'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tauAxis1_px')
),
cms.PSet(
description = cms.string('Jet_tauAxis1_py'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tauAxis1_py')
),
cms.PSet(
description = cms.string('Jet_tauAxis1_pz'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tauAxis1_pz')
),
cms.PSet(
description = cms.string('Jet_tauAxis2_px'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tauAxis2_px')
),
cms.PSet(
description = cms.string('Jet_tauAxis2_py'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tauAxis2_py')
),
cms.PSet(
description = cms.string('Jet_tauAxis2_pz'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tauAxis2_pz')
),
cms.PSet(
description = cms.string('Jet_z_ratio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_z_ratio')
),
cms.PSet(
description = cms.string('Jet_nTracks_fat'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nTracks_fat')
),
cms.PSet(
description = cms.string('Jet_nSV_fat'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nSV_fat')
),
cms.PSet(
description = cms.string('Jet_trackSip3dSig_3'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip3dSig_3')
),
cms.PSet(
description = cms.string('Jet_trackSip3dSig_2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip3dSig_2')
),
cms.PSet(
description = cms.string('Jet_trackSip3dSig_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip3dSig_1')
),
cms.PSet(
description = cms.string('Jet_trackSip3dSig_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip3dSig_0')
),
cms.PSet(
description = cms.string('Jet_trackSip2dSigAboveCharm_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip2dSigAboveCharm_0')
),
cms.PSet(
description = cms.string('Jet_trackSip2dSigAboveCharm_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip2dSigAboveCharm_1')
),
cms.PSet(
description = cms.string('Jet_trackSip2dSigAboveBottom_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip2dSigAboveBottom_0')
),
cms.PSet(
description = cms.string('Jet_trackSip2dSigAboveBottom_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_trackSip2dSigAboveBottom_1')
),
cms.PSet(
description = cms.string('Jet_tau1_trackSip3dSig_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_trackSip3dSig_0')
),
cms.PSet(
description = cms.string('Jet_tau1_trackSip3dSig_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_trackSip3dSig_1')
),
cms.PSet(
description = cms.string('Jet_tau2_trackSip3dSig_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_trackSip3dSig_0')
),
cms.PSet(
description = cms.string('Jet_tau2_trackSip3dSig_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_trackSip3dSig_1')
),
cms.PSet(
description = cms.string('Jet_tau1_trackEtaRel_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_trackEtaRel_0')
),
cms.PSet(
description = cms.string('Jet_tau1_trackEtaRel_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_trackEtaRel_1')
),
cms.PSet(
description = cms.string('Jet_tau1_trackEtaRel_2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_trackEtaRel_2')
),
cms.PSet(
description = cms.string('Jet_tau2_trackEtaRel_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_trackEtaRel_0')
),
cms.PSet(
description = cms.string('Jet_tau2_trackEtaRel_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_trackEtaRel_1')
),
cms.PSet(
description = cms.string('Jet_tau2_trackEtaRel_2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_trackEtaRel_2')
),
cms.PSet(
description = cms.string('Jet_tau1_nSecondaryVertices'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_nSecondaryVertices')
),
cms.PSet(
description = cms.string('Jet_tau2_nSecondaryVertices'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_nSecondaryVertices')
),
cms.PSet(
description = cms.string('Jet_tau1_flightDistance2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_flightDistance2dSig')
),
cms.PSet(
description = cms.string('Jet_tau2_flightDistance2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_flightDistance2dSig')
),
cms.PSet(
description = cms.string('Jet_tau1_vertexDeltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_vertexDeltaR')
),
cms.PSet(
description = cms.string('Jet_tau2_vertexDeltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_vertexDeltaR')
),
cms.PSet(
description = cms.string('Jet_tau1_vertexEnergyRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_vertexEnergyRatio')
),
cms.PSet(
description = cms.string('Jet_tau2_vertexEnergyRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_vertexEnergyRatio')
),
cms.PSet(
description = cms.string('Jet_tau1_vertexMass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_vertexMass')
),
cms.PSet(
description = cms.string('Jet_tau2_vertexMass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_vertexMass')
),
cms.PSet(
description = cms.string('Jet_tau1_vertexMass_corrected'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_vertexMass_corrected')
),
cms.PSet(
description = cms.string('Jet_tau2_vertexMass_corrected'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_vertexMass_corrected')
),
cms.PSet(
description = cms.string('Jet_tau1_vertexNTracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau1_vertexNTracks')
),
cms.PSet(
description = cms.string('Jet_tau2_vertexNTracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_tau2_vertexNTracks')
),
cms.PSet(
description = cms.string('Jet_nFirstTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrkTagVar')
),
cms.PSet(
description = cms.string('Jet_nLastTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrkTagVar')
),
cms.PSet(
description = cms.string('Jet_nFirstSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstSVTagVar')
),
cms.PSet(
description = cms.string('Jet_nLastSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastSVTagVar')
),
cms.PSet(
description = cms.string('Jet_nFirstTrkTagVarCSV'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrkTagVarCSV')
),
cms.PSet(
description = cms.string('Jet_nLastTrkTagVarCSV'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrkTagVarCSV')
),
cms.PSet(
description = cms.string('Jet_nFirstTrkEtaRelTagVarCSV'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrkEtaRelTagVarCSV')
),
cms.PSet(
description = cms.string('Jet_nLastTrkEtaRelTagVarCSV'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrkEtaRelTagVarCSV')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleBvLQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleBvLQCD')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleBvLHbb'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleBvLHbb')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleCvLQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleCvLQCD')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleCvLHcc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleCvLHcc')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleCvBHcc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleCvBHcc')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleCvBHbb'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleCvBHbb')
),
cms.PSet(
description = cms.string('Jet_MassIndDeepDoubleBvLQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_MassIndDeepDoubleBvLQCD')
),
cms.PSet(
description = cms.string('Jet_MassIndDeepDoubleBvLHbb'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_MassIndDeepDoubleBvLHbb')
),
cms.PSet(
description = cms.string('Jet_MassIndDeepDoubleCvLQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_MassIndDeepDoubleCvLQCD')
),
cms.PSet(
description = cms.string('Jet_MassIndDeepDoubleCvLHcc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_MassIndDeepDoubleCvLHcc')
),
cms.PSet(
description = cms.string('Jet_MassIndDeepDoubleCvBHcc'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_MassIndDeepDoubleCvBHcc')
),
cms.PSet(
description = cms.string('Jet_MassIndDeepDoubleCvBHbb'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_MassIndDeepDoubleCvBHbb')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJetbbvsLight'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJetbbvsLight')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJetccvsLight'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJetccvsLight')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJetTvsQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJetTvsQCD')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJetZHccvsQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJetZHccvsQCD')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJetWvsQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJetWvsQCD')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJetZHbbvsQCD'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJetZHbbvsQCD')
),
cms.PSet(
description = cms.string('numbre of tracks'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nTrack')
),
cms.PSet(
description = cms.string('track d0'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_dxy')
),
cms.PSet(
description = cms.string('track dz'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_dz')
),
cms.PSet(
description = cms.string('Track_dxyError'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_dxyError')
),
cms.PSet(
description = cms.string('Track_dzError'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_dzError')
),
cms.PSet(
description = cms.string('Track_sign2D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_sign2D')
),
cms.PSet(
description = cms.string('Track_sign3D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_sign3D')
),
cms.PSet(
description = cms.string('Track_LongIP'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_LongIP')
),
cms.PSet(
description = cms.string('track decay length'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_length')
),
cms.PSet(
description = cms.string('track distance to jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_dist')
),
cms.PSet(
description = cms.string('IP in 2D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_IP2D')
),
cms.PSet(
description = cms.string('IP/sigma in 2D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_IP2Dsig')
),
cms.PSet(
description = cms.string('error on track IP 2D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_IP2Derr')
),
cms.PSet(
description = cms.string('IP in 3D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_IP')
),
cms.PSet(
description = cms.string('IP/sigma in 3D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_IPsig')
),
cms.PSet(
description = cms.string('error on track IP 3D'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_IPerr')
),
cms.PSet(
description = cms.string('track probability'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_Proba')
),
cms.PSet(
description = cms.string('track momentum'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_p')
),
cms.PSet(
description = cms.string('tracks pT'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_pt')
),
cms.PSet(
description = cms.string('track eta'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_eta')
),
cms.PSet(
description = cms.string('track phi'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_phi')
),
cms.PSet(
description = cms.string('track normalized chi2 of the fit'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_chi2')
),
cms.PSet(
description = cms.string('track charge'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_charge')
),
cms.PSet(
description = cms.string('history of tracks'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_history')
),
cms.PSet(
description = cms.string('number of associated Strip hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitStrip')
),
cms.PSet(
description = cms.string('number of associated pixel hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitPixel')
),
cms.PSet(
description = cms.string('total number of associated hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitAll')
),
cms.PSet(
description = cms.string('number of associated hits in TIB'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitTIB')
),
cms.PSet(
description = cms.string('number of associated hits in TID'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitTID')
),
cms.PSet(
description = cms.string('number of associated hits in TOB'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitTOB')
),
cms.PSet(
description = cms.string('number of associated hits in TEC'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitTEC')
),
cms.PSet(
description = cms.string('number of associated pixel-barrel hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitPXB')
),
cms.PSet(
description = cms.string('number of associated pixel-endcaps hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_nHitPXF')
),
cms.PSet(
description = cms.string('number of associated pixel hits in L1'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_isHitL1')
),
cms.PSet(
description = cms.string('index of the PV on which the track is associated'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_PV')
),
cms.PSet(
description = cms.string('index of the cV on which the track is associated'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_SV')
),
cms.PSet(
description = cms.string('the tracks is from SV '),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_isfromSV')
),
cms.PSet(
description = cms.string('weight on the tracks on the PV calculation'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_PVweight')
),
cms.PSet(
description = cms.string('weight on the tracks on the SV calculation'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_SVweight')
),
cms.PSet(
description = cms.string('Track_isfromV0'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_isfromV0')
),
cms.PSet(
description = cms.string('Track_lengthTau'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_lengthTau')
),
cms.PSet(
description = cms.string('Track_distTau'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_distTau')
),
cms.PSet(
description = cms.string('jet proba category for the track'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_category')
),
cms.PSet(
description = cms.string('Track_TPAssociationQuality'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_TPAssociationQuality')
),
cms.PSet(
description = cms.string('Track_idxMatchedTP'),
mconly = cms.bool(False),
requires = cms.vstring('nTrack'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Track_idxMatchedTP')
),
cms.PSet(
description = cms.string('nTrackTruth'),
mconly = cms.bool(True),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nTrackTruth')
),
cms.PSet(
description = cms.string('TrackTruth_idxMatchedTrack'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_idxMatchedTrack')
),
cms.PSet(
description = cms.string('TrackTruth_p'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_p')
),
cms.PSet(
description = cms.string('TrackTruth_pt'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_pt')
),
cms.PSet(
description = cms.string('TrackTruth_eta'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_eta')
),
cms.PSet(
description = cms.string('TrackTruth_phi'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_phi')
),
cms.PSet(
description = cms.string('TrackTruth_charge'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_charge')
),
cms.PSet(
description = cms.string('TrackTruth_pdgid'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_pdgid')
),
cms.PSet(
description = cms.string('TrackTruth_dxy'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_dxy')
),
cms.PSet(
description = cms.string('TrackTruth_dz'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_dz')
),
cms.PSet(
description = cms.string('TrackTruth_nHitAll'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_nHitAll')
),
cms.PSet(
description = cms.string('TrackTruth_nHitPixel'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_nHitPixel')
),
cms.PSet(
description = cms.string('TrackTruth_nHitStrip'),
mconly = cms.bool(True),
requires = cms.vstring('nTrackTruth'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('TrackTruth_nHitStrip')
),
cms.PSet(
description = cms.string('nTrkInc'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nTrkInc')
),
cms.PSet(
description = cms.string('TrkInc_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkInc'),
runOptions = cms.vstring('producePtRelTemplate'),
store = cms.bool(False),
variable = cms.string('TrkInc_pt')
),
cms.PSet(
description = cms.string('TrkInc_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkInc'),
runOptions = cms.vstring('producePtRelTemplate'),
store = cms.bool(False),
variable = cms.string('TrkInc_eta')
),
cms.PSet(
description = cms.string('TrkInc_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkInc'),
runOptions = cms.vstring('producePtRelTemplate'),
store = cms.bool(False),
variable = cms.string('TrkInc_phi')
),
cms.PSet(
description = cms.string('TrkInc_ptrel'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkInc'),
runOptions = cms.vstring('producePtRelTemplate'),
store = cms.bool(False),
variable = cms.string('TrkInc_ptrel')
),
cms.PSet(
description = cms.string('TrkInc_IPsig'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkInc'),
runOptions = cms.vstring(
'producePtRelTemplate',
'useSelectedTracks'
),
store = cms.bool(False),
variable = cms.string('TrkInc_IPsig')
),
cms.PSet(
description = cms.string('TrkInc_IP'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkInc'),
runOptions = cms.vstring(
'producePtRelTemplate',
'useSelectedTracks'
),
store = cms.bool(False),
variable = cms.string('TrkInc_IP')
),
cms.PSet(
description = cms.string('nPFElectron'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('nPFElectron')
),
cms.PSet(
description = cms.string('PFElectron_IdxJet'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_IdxJet')
),
cms.PSet(
description = cms.string('PFElectron_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_pt')
),
cms.PSet(
description = cms.string('PFElectron_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_eta')
),
cms.PSet(
description = cms.string('PFElectron_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_phi')
),
cms.PSet(
description = cms.string('PFElectron_ptrel'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_ptrel')
),
cms.PSet(
description = cms.string('PFElectron_ratio'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_ratio')
),
cms.PSet(
description = cms.string('PFElectron_ratioRel'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_ratioRel')
),
cms.PSet(
description = cms.string('PFElectron_deltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_deltaR')
),
cms.PSet(
description = cms.string('PFElectron_IP'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_IP')
),
cms.PSet(
description = cms.string('PFElectron_IP2D'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_IP2D')
),
cms.PSet(
description = cms.string('PFElectron_mva_e_pi'),
mconly = cms.bool(False),
requires = cms.vstring('nPFElectron'),
runOptions = cms.vstring('runPFElectronVariables'),
store = cms.bool(False),
variable = cms.string('PFElectron_mva_e_pi')
),
cms.PSet(
description = cms.string('nPFMuon'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('nPFMuon')
),
cms.PSet(
description = cms.string('PFMuon_IdxJet'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_IdxJet')
),
cms.PSet(
description = cms.string('PFMuon_nMuHit'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nMuHit')
),
cms.PSet(
description = cms.string('PFMuon_nTkHit'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nTkHit')
),
cms.PSet(
description = cms.string('PFMuon_nPixHit'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nPixHit')
),
cms.PSet(
description = cms.string('PFMuon_nOutHit'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nOutHit')
),
cms.PSet(
description = cms.string('PFMuon_nTkLwM'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nTkLwM')
),
cms.PSet(
description = cms.string('PFMuon_nPixLwM'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nPixLwM')
),
cms.PSet(
description = cms.string('PFMuon_nMatched'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_nMatched')
),
cms.PSet(
description = cms.string('PFMuon_chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_chi2')
),
cms.PSet(
description = cms.string('PFMuon_chi2Tk'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_chi2Tk')
),
cms.PSet(
description = cms.string('PFMuon_isGlobal'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_isGlobal')
),
cms.PSet(
description = cms.string('PFMuon_hist'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_hist')
),
cms.PSet(
description = cms.string('PFMuon_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_pt')
),
cms.PSet(
description = cms.string('PFMuon_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_eta')
),
cms.PSet(
description = cms.string('PFMuon_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_phi')
),
cms.PSet(
description = cms.string('PFMuon_ptrel'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_ptrel')
),
cms.PSet(
description = cms.string('PFMuon_ratio'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_ratio')
),
cms.PSet(
description = cms.string('PFMuon_ratioRel'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_ratioRel')
),
cms.PSet(
description = cms.string('PFMuon_deltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_deltaR')
),
cms.PSet(
description = cms.string('PFMuon_IP'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_IP')
),
cms.PSet(
description = cms.string('PFMuon_IP2D'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_IP2D')
),
cms.PSet(
description = cms.string('PFMuon_IPsig'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_IPsig')
),
cms.PSet(
description = cms.string('PFMuon_IP2Dsig'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_IP2Dsig')
),
cms.PSet(
description = cms.string('PFMuon_dz'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_dz')
),
cms.PSet(
description = cms.string('PFMuon_GoodQuality'),
mconly = cms.bool(False),
requires = cms.vstring('nPFMuon'),
runOptions = cms.vstring('runPFMuonVariables'),
store = cms.bool(False),
variable = cms.string('PFMuon_GoodQuality')
),
cms.PSet(
description = cms.string('number of SV'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nSV')
),
cms.PSet(
description = cms.string('SV x position'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_x')
),
cms.PSet(
description = cms.string('SV y position'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_y')
),
cms.PSet(
description = cms.string('SV z position'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_z')
),
cms.PSet(
description = cms.string('SV error on x position'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_ex')
),
cms.PSet(
description = cms.string('SV error on y position'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_ey')
),
cms.PSet(
description = cms.string('SV error on z position'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_ez')
),
cms.PSet(
description = cms.string('SV chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_chi2')
),
cms.PSet(
description = cms.string('SV number of degree of freedom'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_ndf')
),
cms.PSet(
description = cms.string('SV flight distance'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_flight')
),
cms.PSet(
description = cms.string('SV error on fligt distance'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_flightErr')
),
cms.PSet(
description = cms.string('deltaR SV - jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_deltaR_jet')
),
cms.PSet(
description = cms.string("deltaR SV \'sum\' - jet"),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_deltaR_sum_jet')
),
cms.PSet(
description = cms.string("deltaR SV \'sum\' -SV \'flight direction\'"),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_deltaR_sum_dir')
),
cms.PSet(
description = cms.string('pT of the SV'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_vtx_pt')
),
cms.PSet(
description = cms.string('2D flight distance of the SV'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_flight2D')
),
cms.PSet(
description = cms.string('error on the 2D fligth distance of the SV'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_flight2DErr')
),
cms.PSet(
description = cms.string('total charged associated to the SV'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_totCharge')
),
cms.PSet(
description = cms.string('closest distance between the SV and the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_vtxDistJetAxis')
),
cms.PSet(
description = cms.string('number of tracks associated to the SV'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_nTrk')
),
cms.PSet(
description = cms.string('SV invaraint mass'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_mass')
),
cms.PSet(
description = cms.string('SV_vtx_eta'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_vtx_eta')
),
cms.PSet(
description = cms.string('SV_vtx_phi'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_vtx_phi')
),
cms.PSet(
description = cms.string('SV_EnergyRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_EnergyRatio')
),
cms.PSet(
description = cms.string('SV_dir_x'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_dir_x')
),
cms.PSet(
description = cms.string('SV_dir_y'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_dir_y')
),
cms.PSet(
description = cms.string('SV_dir_z'),
mconly = cms.bool(False),
requires = cms.vstring('nSV'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SV_dir_z')
),
cms.PSet(
description = cms.string('tracks associated to jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_jetNTracks')
),
cms.PSet(
description = cms.string('number of reconstructed possible secondary vertices in jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_jetNSecondaryVertices')
),
cms.PSet(
description = cms.string('fraction of the jet energy coming from charged hadrons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_chargedHadronEnergyFraction')
),
cms.PSet(
description = cms.string('fraction of the jet energy coming from neutral hadrons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_neutralHadronEnergyFraction')
),
cms.PSet(
description = cms.string('fraction of the jet energy coming from photons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_photonEnergyFraction')
),
cms.PSet(
description = cms.string('fraction of the jet energy coming from electrons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_electronEnergyFraction')
),
cms.PSet(
description = cms.string('fraction of the jet energy coming from muons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_muonEnergyFraction')
),
cms.PSet(
description = cms.string('number of charged hadrons in the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_chargedHadronMultiplicity')
),
cms.PSet(
description = cms.string('number of neutral hadrons in the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_neutralHadronMultiplicity')
),
cms.PSet(
description = cms.string('number of photons in the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_photonMultiplicity')
),
cms.PSet(
description = cms.string('number of electrons in the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_electronMultiplicity')
),
cms.PSet(
description = cms.string('number of muons in the jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_muonMultiplicity')
),
cms.PSet(
description = cms.string('TagVar_neutralEmEnergyFraction'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_neutralEmEnergyFraction')
),
cms.PSet(
description = cms.string('TagVar_numberOfDaughters'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_numberOfDaughters')
),
cms.PSet(
description = cms.string('TagVar_chargedMultiplicity'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_chargedMultiplicity')
),
cms.PSet(
description = cms.string('TagVar_chargedEmEnergyFraction'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_chargedEmEnergyFraction')
),
cms.PSet(
description = cms.string('TagVar_neutralMultiplicity'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_neutralMultiplicity')
),
cms.PSet(
description = cms.string('nTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring(''),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('nTrkTagVar')
),
cms.PSet(
description = cms.string('track momentum'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackMomentum')
),
cms.PSet(
description = cms.string('track pseudorapidity'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackEta')
),
cms.PSet(
description = cms.string('track polar angle'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackPhi')
),
cms.PSet(
description = cms.string('track transverse momentum, relative to the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackPtRel')
),
cms.PSet(
description = cms.string('track parallel momentum, along the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackPPar')
),
cms.PSet(
description = cms.string('track pseudorapidity, relative to the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackEtaRel')
),
cms.PSet(
description = cms.string('track pseudoangular distance from the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackDeltaR')
),
cms.PSet(
description = cms.string('track transverse momentum, relative to the jet axis, normalized to its energy'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackPtRatio')
),
cms.PSet(
description = cms.string('track parallel momentum, along the jet axis, normalized to its energy'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackPParRatio')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackSip2dVal')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackSip2dSig')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackSip3dVal')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackSip3dSig')
),
cms.PSet(
description = cms.string('track decay length'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackDecayLenVal')
),
cms.PSet(
description = cms.string('track decay length significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackDecayLenSig')
),
cms.PSet(
description = cms.string('minimum track approach distance to jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackJetDistVal')
),
cms.PSet(
description = cms.string('minimum track approach distance to jet axis significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackJetDistSig')
),
cms.PSet(
description = cms.string('track fit chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackChi2')
),
cms.PSet(
description = cms.string('number of valid total hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackNTotalHits')
),
cms.PSet(
description = cms.string('number of valid pixel hits'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_trackNPixelHits')
),
cms.PSet(
description = cms.string('nSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('nSVTagVar')
),
cms.PSet(
description = cms.string('mass of track sum at secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_vertexMass')
),
cms.PSet(
description = cms.string('number of tracks at secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_vertexNTracks')
),
cms.PSet(
description = cms.string('pseudoangular distance between jet axis and secondary vertex direction'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_vertexJetDeltaR')
),
cms.PSet(
description = cms.string('transverse distance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_flightDistance2dVal')
),
cms.PSet(
description = cms.string('transverse distance significance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_flightDistance2dSig')
),
cms.PSet(
description = cms.string('distance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_flightDistance3dVal')
),
cms.PSet(
description = cms.string('distance significance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nSVTagVar'),
runOptions = cms.vstring(
'runTagVariables',
'runTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVar_flightDistance3dSig')
),
cms.PSet(
description = cms.string('DeepFlavourInput_nPVS'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_nPVS')
),
cms.PSet(
description = cms.string('DeepFlavourInput_n_charged'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_n_charged')
),
cms.PSet(
description = cms.string('DeepFlavourInput_NFirst_charged'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_NFirst_charged')
),
cms.PSet(
description = cms.string('DeepFlavourInput_NLast_charged'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_NLast_charged')
),
cms.PSet(
description = cms.string('DeepFlavourInput_multi_charged'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_multi_charged')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_Sip3dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_Sip3dVal')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_Sip3dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_Sip3dSig')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_quality'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_quality')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_chi2')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackEtaRel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackEtaRel')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackPtRel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackPtRel')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackPPar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackPPar')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackDeltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackDeltaR')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackPParRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackPParRatio')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackSip2dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackSip2dVal')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackSip2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackSip2dSig')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackSip3dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackSip3dVal')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackSip3dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackSip3dSig')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_btagpf_trackJetDistVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_btagpf_trackJetDistVal')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_ptrel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_ptrel')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_drminsv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_drminsv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_VTX_ass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_VTX_ass')
),
cms.PSet(
description = cms.string('DeepFlavourInput_charged_puppiw'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_charged_puppiw')
),
cms.PSet(
description = cms.string('DeepFlavourInput_n_neutral'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_n_neutral')
),
cms.PSet(
description = cms.string('DeepFlavourInput_NFirst_neutral'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_NFirst_neutral')
),
cms.PSet(
description = cms.string('DeepFlavourInput_NLast_neutral'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_NLast_neutral')
),
cms.PSet(
description = cms.string('DeepFlavourInput_multi_neutral'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_multi_neutral')
),
cms.PSet(
description = cms.string('DeepFlavourInput_neutral_drminsv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_neutral_drminsv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_neutral_hadFrac'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_neutral_hadFrac')
),
cms.PSet(
description = cms.string('DeepFlavourInput_neutral_ptrel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_neutral_ptrel')
),
cms.PSet(
description = cms.string('DeepFlavourInput_neutral_deltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_neutral_deltaR')
),
cms.PSet(
description = cms.string('DeepFlavourInput_neutral_isGamma'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_neutral_isGamma')
),
cms.PSet(
description = cms.string('DeepFlavourInput_neutral_puppiw'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_neutral_puppiw')
),
cms.PSet(
description = cms.string('DeepFlavourInput_n_sv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_n_sv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_NFirst_sv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_NFirst_sv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_NLast_sv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_NLast_sv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_multi_sv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_multi_sv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_d3d'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_d3d')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_d3dsig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_d3dsig')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_normchi2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_normchi2')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_pt'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_pt')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_deltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_deltaR')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_mass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_mass')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_ntracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_ntracks')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_chi2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_chi2')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_dxy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_dxy')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_dxysig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_dxysig')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_costhetasvpv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_costhetasvpv')
),
cms.PSet(
description = cms.string('DeepFlavourInput_sv_enratio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepFlavourTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepFlavourInput_sv_enratio')
),
cms.PSet(
description = cms.string('track-based jet transverse momentum'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackJetPt')
),
cms.PSet(
description = cms.string('tracks associated to jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_jetNTracks')
),
cms.PSet(
description = cms.string('tracks associated to jet for which trackEtaRel is calculated'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_jetNTracksEtaRel')
),
cms.PSet(
description = cms.string('ratio of track sum transverse energy over jet energy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSumJetEtRatio')
),
cms.PSet(
description = cms.string('pseudoangular distance between jet axis and track fourvector sum'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSumJetDeltaR')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter of first track lifting mass above charm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip2dValAboveCharm')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter significance of first track lifting mass above charm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip2dSigAboveCharm')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter of first track lifting mass above charm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip3dValAboveCharm')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter significance of first track lifting mass above charm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip3dSigAboveCharm')
),
cms.PSet(
description = cms.string('category of secondary vertex (Reco, Pseudo, No)'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_vertexCategory')
),
cms.PSet(
description = cms.string('number of reconstructed possible secondary vertices in jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_jetNSecondaryVertices')
),
cms.PSet(
description = cms.string('mass of track sum at secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_vertexMass')
),
cms.PSet(
description = cms.string('number of tracks at secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_vertexNTracks')
),
cms.PSet(
description = cms.string('ratio of energy at secondary vertex over total energy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_vertexEnergyRatio')
),
cms.PSet(
description = cms.string('pseudoangular distance between jet axis and secondary vertex direction'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_vertexJetDeltaR')
),
cms.PSet(
description = cms.string('transverse distance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_flightDistance2dVal')
),
cms.PSet(
description = cms.string('transverse distance significance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_flightDistance2dSig')
),
cms.PSet(
description = cms.string('distance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_flightDistance3dVal')
),
cms.PSet(
description = cms.string('distance significance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(
'runCSVTagVariables',
'runCSVTagVariablesSubJets'
),
store = cms.bool(False),
variable = cms.string('TagVarCSV_flightDistance3dSig')
),
cms.PSet(
description = cms.string('nTrkTagVarCSV'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('nTrkTagVarCSV')
),
cms.PSet(
description = cms.string('nTrkEtaRelTagVarCSV'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('nTrkEtaRelTagVarCSV')
),
cms.PSet(
description = cms.string('track momentum'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackMomentum')
),
cms.PSet(
description = cms.string('track pseudorapidity'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackEta')
),
cms.PSet(
description = cms.string('track polar angle'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackPhi')
),
cms.PSet(
description = cms.string('track transverse momentum, relative to the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackPtRel')
),
cms.PSet(
description = cms.string('track parallel momentum, along the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackPPar')
),
cms.PSet(
description = cms.string('track pseudoangular distance from the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackDeltaR')
),
cms.PSet(
description = cms.string('track transverse momentum, relative to the jet axis, normalized to its energy'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackPtRatio')
),
cms.PSet(
description = cms.string('track parallel momentum, along the jet axis, normalized to its energy'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackPParRatio')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip2dVal')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip2dSig')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip3dVal')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackSip3dSig')
),
cms.PSet(
description = cms.string('track decay length'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackDecayLenVal')
),
cms.PSet(
description = cms.string('track decay length significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackDecayLenSig')
),
cms.PSet(
description = cms.string('minimum track approach distance to jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackJetDistVal')
),
cms.PSet(
description = cms.string('minimum track approach distance to jet axis significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackJetDistSig')
),
cms.PSet(
description = cms.string('track pseudorapidity, relative to the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkTagVarCSV'),
runOptions = cms.vstring('runCSVTagTrackVariables'),
store = cms.bool(False),
variable = cms.string('TagVarCSV_trackEtaRel')
),
cms.PSet(
description = cms.string('Jet_nFirstTrkCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrkCTagVar')
),
cms.PSet(
description = cms.string('Jet_nLastTrkCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrkCTagVar')
),
cms.PSet(
description = cms.string('Jet_nFirstTrkEtaRelCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstTrkEtaRelCTagVar')
),
cms.PSet(
description = cms.string('Jet_nLastTrkEtaRelCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastTrkEtaRelCTagVar')
),
cms.PSet(
description = cms.string('Jet_nFirstLepCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nFirstLepCTagVar')
),
cms.PSet(
description = cms.string('Jet_nLastLepCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_nLastLepCTagVar')
),
cms.PSet(
description = cms.string('CTag_Jet_CvsB'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_Jet_CvsB')
),
cms.PSet(
description = cms.string('CTag_Jet_CvsBN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_Jet_CvsBN')
),
cms.PSet(
description = cms.string('CTag_Jet_CvsBP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_Jet_CvsBP')
),
cms.PSet(
description = cms.string('CTag_Jet_CvsL'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_Jet_CvsL')
),
cms.PSet(
description = cms.string('CTag_Jet_CvsLN'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_Jet_CvsLN')
),
cms.PSet(
description = cms.string('CTag_Jet_CvsLP'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_Jet_CvsLP')
),
cms.PSet(
description = cms.string('tracks associated to jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_jetNTracks')
),
cms.PSet(
description = cms.string('tracks associated to jet for which trackEtaRel is calculated'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_jetNTracksEtaRel')
),
cms.PSet(
description = cms.string('CTag_jetNLeptons'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_jetNLeptons')
),
cms.PSet(
description = cms.string('ratio of track sum transverse energy over jet energy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackSumJetEtRatio')
),
cms.PSet(
description = cms.string('pseudoangular distance between jet axis and track fourvector sum'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackSumJetDeltaR')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter significance of first track lifting mass above charm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackSip2dSigAboveCharm')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter significance of first track lifting mass above charm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackSip3dSigAboveCharm')
),
cms.PSet(
description = cms.string('category of secondary vertex (Reco, Pseudo, No)'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexCategory')
),
cms.PSet(
description = cms.string('number of reconstructed possible secondary vertices in jet'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_jetNSecondaryVertices')
),
cms.PSet(
description = cms.string('mass of track sum at secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexMass')
),
cms.PSet(
description = cms.string('number of tracks at secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexNTracks')
),
cms.PSet(
description = cms.string('ratio of energy at secondary vertex over total energy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexEnergyRatio')
),
cms.PSet(
description = cms.string('pseudoangular distance between jet axis and secondary vertex direction'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexJetDeltaR')
),
cms.PSet(
description = cms.string('transverse distance significance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_flightDistance2dSig')
),
cms.PSet(
description = cms.string('distance significance between primary and secondary vertex'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_flightDistance3dSig')
),
cms.PSet(
description = cms.string('vertex mass times the fraction of the vertex energy with respect to the jet energy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_massVertexEnergyFraction')
),
cms.PSet(
description = cms.string('variable related to the boost of the vertex system in flight direction'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexBoostOverSqrtJetPt')
),
cms.PSet(
description = cms.string('CTag_vertexLeptonCategory'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_vertexLeptonCategory')
),
cms.PSet(
description = cms.string('nTrkCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('nTrkCTagVar')
),
cms.PSet(
description = cms.string('nTrkEtaRelCTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('nTrkEtaRelCTagVar')
),
cms.PSet(
description = cms.string('track transverse momentum, relative to the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackPtRel')
),
cms.PSet(
description = cms.string('track parallel momentum, along the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackPPar')
),
cms.PSet(
description = cms.string('track pseudoangular distance from the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackDeltaR')
),
cms.PSet(
description = cms.string('track transverse momentum, relative to the jet axis, normalized to its energy'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackPtRatio')
),
cms.PSet(
description = cms.string('track parallel momentum, along the jet axis, normalized to its energy'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackPParRatio')
),
cms.PSet(
description = cms.string('track 2D signed impact parameter significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackSip2dSig')
),
cms.PSet(
description = cms.string('track 3D signed impact parameter significance'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackSip3dSig')
),
cms.PSet(
description = cms.string('track decay length'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackDecayLenVal')
),
cms.PSet(
description = cms.string('minimum track approach distance to jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackJetDistVal')
),
cms.PSet(
description = cms.string('track pseudorapidity, relative to the jet axis'),
mconly = cms.bool(False),
requires = cms.vstring('nTrkEtaRelCTagVar'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_trackEtaRel')
),
cms.PSet(
description = cms.string('nLeptons'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('nLeptons')
),
cms.PSet(
description = cms.string('CTag_leptonPtRel'),
mconly = cms.bool(False),
requires = cms.vstring('nLeptons'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_leptonPtRel')
),
cms.PSet(
description = cms.string('CTag_leptonSip3d'),
mconly = cms.bool(False),
requires = cms.vstring('nLeptons'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_leptonSip3d')
),
cms.PSet(
description = cms.string('CTag_leptonDeltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nLeptons'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_leptonDeltaR')
),
cms.PSet(
description = cms.string('CTag_leptonRatioRel'),
mconly = cms.bool(False),
requires = cms.vstring('nLeptons'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_leptonRatioRel')
),
cms.PSet(
description = cms.string('CTag_leptonEtaRel'),
mconly = cms.bool(False),
requires = cms.vstring('nLeptons'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_leptonEtaRel')
),
cms.PSet(
description = cms.string('CTag_leptonRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nLeptons'),
runOptions = cms.vstring('runCTagVariables'),
store = cms.bool(False),
variable = cms.string('CTag_leptonRatio')
),
cms.PSet(
description = cms.string('Jet_nSubJets'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nSubJets')
),
cms.PSet(
description = cms.string('Jet_nFirstSJ'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstSJ')
),
cms.PSet(
description = cms.string('Jet_nLastSJ'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastSJ')
),
cms.PSet(
description = cms.string('Jet_nsharedtracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nsharedtracks')
),
cms.PSet(
description = cms.string('Jet_nsubjettracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nsubjettracks')
),
cms.PSet(
description = cms.string('Jet_nsharedsubjettracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nsharedsubjettracks')
),
cms.PSet(
description = cms.string('nSubJet'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nSubJet')
),
cms.PSet(
description = cms.string('SubJetIdx'),
mconly = cms.bool(False),
requires = cms.vstring('nSubJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SubJetIdx')
),
cms.PSet(
description = cms.string('Jet_nSubJets_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nSubJets_SoftDropPuppi')
),
cms.PSet(
description = cms.string('Jet_nFirstSJ_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nFirstSJ_SoftDropPuppi')
),
cms.PSet(
description = cms.string('Jet_nLastSJ_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nLastSJ_SoftDropPuppi')
),
cms.PSet(
description = cms.string('Jet_nsharedtracks_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nsharedtracks_SoftDropPuppi')
),
cms.PSet(
description = cms.string('Jet_nsubjettracks_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nsubjettracks_SoftDropPuppi')
),
cms.PSet(
description = cms.string('Jet_nsharedsubjettracks_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('Jet_nsharedsubjettracks_SoftDropPuppi')
),
cms.PSet(
description = cms.string('nSubJet_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('nSubJet_SoftDropPuppi')
),
cms.PSet(
description = cms.string('SubJetIdx_SoftDropPuppi'),
mconly = cms.bool(False),
requires = cms.vstring('nSubJet_SoftDropPuppi'),
runOptions = cms.vstring(),
store = cms.bool(False),
variable = cms.string('SubJetIdx_SoftDropPuppi')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_jetNTracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_jetNTracks')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_jetNSecondaryVertices'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_jetNSecondaryVertices')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip3dSig_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip3dSig_0')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip3dSig_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip3dSig_1')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip3dSig_2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip3dSig_2')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip3dSig_3'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip3dSig_3')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_trackSip3dSig_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_trackSip3dSig_0')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_trackSip3dSig_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_trackSip3dSig_1')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_trackSip3dSig_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_trackSip3dSig_0')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_trackSip3dSig_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_trackSip3dSig_1')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip2dSigAboveBottom_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip2dSigAboveBottom_0')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip2dSigAboveBottom_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip2dSigAboveBottom_1')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_trackSip2dSigAboveCharm'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_trackSip2dSigAboveCharm')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_trackEtaRel_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_trackEtaRel_0')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_trackEtaRel_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_trackEtaRel_1')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_trackEtaRel_2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_trackEtaRel_2')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_trackEtaRel_0'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_trackEtaRel_0')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_trackEtaRel_1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_trackEtaRel_1')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_trackEtaRel_2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_trackEtaRel_2')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_vertexMass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_vertexMass')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_vertexEnergyRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_vertexEnergyRatio')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_flightDistance2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_flightDistance2dSig')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau1_vertexDeltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau1_vertexDeltaR')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_vertexMass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_vertexMass')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_vertexEnergyRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_vertexEnergyRatio')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_flightDistance2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_flightDistance2dSig')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_tau2_vertexDeltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_tau2_vertexDeltaR')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_z_ratio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_z_ratio')
),
cms.PSet(
description = cms.string('nTrkDeepDoubleX'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('nTrkDeepDoubleX')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleX_nFirstTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleX_nFirstTrkTagVar')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleX_nLastTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleX_nLastTrkTagVar')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_EtaRel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_EtaRel')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_PtRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_PtRatio')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_PParRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_PParRatio')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_Sip2dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_Sip2dVal')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_Sip2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_Sip2dSig')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_Sip3dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_Sip3dVal')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_Sip3dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_Sip3dSig')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_charged_JetDistVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_charged_JetDistVal')
),
cms.PSet(
description = cms.string('nSVDeepDoubleX'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('nSVDeepDoubleX')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleX_nFirstSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleX_nFirstSVTagVar')
),
cms.PSet(
description = cms.string('Jet_DeepDoubleX_nLastSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepDoubleX_nLastSVTagVar')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_sv_d3d'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_sv_d3d')
),
cms.PSet(
description = cms.string('DeepDoubleXInput_sv_d3dsig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepDoubleXTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepDoubleXInput_sv_d3dsig')
),
cms.PSet(
description = cms.string('nTrkDeepBoostedJet'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('nTrkDeepBoostedJet')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJet_nFirstTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJet_nFirstTrkTagVar')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJet_nLastTrkTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJet_nLastTrkTagVar')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_puppiw'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_puppiw')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_hcalFrac'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_hcalFrac')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_VTX_ass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_VTX_ass')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_lostInnerHits'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_lostInnerHits')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_quality'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_quality')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_charge'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_charge')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_isEl'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_isEl')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_isMu'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_isMu')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_isChargedHad'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_isChargedHad')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_isGamma'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_isGamma')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_isNeutralHad'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_isNeutralHad')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_phirel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_phirel')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_etarel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_etarel')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_deltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_deltaR')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_abseta'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_abseta')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_ptrel_log'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_ptrel_log')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_erel_log'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_erel_log')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_pt_log'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_pt_log')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_drminsv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_drminsv')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_drsubjet1'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_drsubjet1')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_drsubjet2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_drsubjet2')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_normchi2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_normchi2')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dz'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dz')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dzsig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dzsig')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dxy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dxy')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dxysig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dxysig')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dptdpt'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dptdpt')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_detadeta'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_detadeta')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dphidphi'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dphidphi')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dxydxy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dxydxy')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dzdz'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dzdz')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dxydz'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dxydz')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dphidxy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dphidxy')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_dlambdadz'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_dlambdadz')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagEtaRel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagEtaRel')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagPtRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagPtRatio')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagPParRatio'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagPParRatio')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagSip2dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagSip2dVal')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagSip2dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagSip2dSig')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagSip3dVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagSip3dVal')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagSip3dSig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagSip3dSig')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_pf_btagJetDistVal'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_pf_btagJetDistVal')
),
cms.PSet(
description = cms.string('nSVDeepBoostedJet'),
mconly = cms.bool(False),
requires = cms.vstring(),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('nSVDeepBoostedJet')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJet_nFirstSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJet_nFirstSVTagVar')
),
cms.PSet(
description = cms.string('Jet_DeepBoostedJet_nLastSVTagVar'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('Jet_DeepBoostedJet_nLastSVTagVar')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_phirel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_phirel')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_etarel'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_etarel')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_deltaR'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_deltaR')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_abseta'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_abseta')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_mass'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_mass')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_ptrel_log'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_ptrel_log')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_erel_log'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_erel_log')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_pt_log'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_pt_log')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_ntracks'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_ntracks')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_normchi2'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_normchi2')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_dxy'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_dxy')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_dxysig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_dxysig')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_d3d'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_d3d')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_d3dsig'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_d3dsig')
),
cms.PSet(
description = cms.string('DeepBoostedJetInput_sv_costhetasvpv'),
mconly = cms.bool(False),
requires = cms.vstring('nJet'),
runOptions = cms.vstring('runDeepBoostedJetTagVariables'),
store = cms.bool(False),
variable = cms.string('DeepBoostedJetInput_sv_costhetasvpv')
)
) ),
vertexClusteringDistance = cms.untracked.double(0.0001)
)
process.hltGetRaw = cms.EDAnalyzer("HLTGetRaw",
RawDataCollection = cms.InputTag("rawDataCollector")
)
process.hltL1TGlobalSummary = cms.EDAnalyzer("L1TGlobalSummary",
AlgInputTag = cms.InputTag("hltGtStage2Digis"),
DumpRecord = cms.bool(False),
DumpTrigResults = cms.bool(False),
DumpTrigSummary = cms.bool(True),
ExtInputTag = cms.InputTag("hltGtStage2Digis"),
MaxBx = cms.int32(0),
MinBx = cms.int32(0),
ReadPrescalesFromFile = cms.bool(False),
psColumn = cms.int32(0),
psFileName = cms.string('prescale_L1TGlobal.csv')
)
process.hltTrigReport = cms.EDAnalyzer("HLTrigReport",
HLTriggerResults = cms.InputTag("TriggerResults","","@currentProcess"),
ReferencePath = cms.untracked.string('HLTriggerFinalPath'),
ReferenceRate = cms.untracked.double(100.0),
reportBy = cms.untracked.string('job'),
resetBy = cms.untracked.string('never'),
serviceBy = cms.untracked.string('never')
)
process.selectedEvents = cms.EDAnalyzer("EventCounter")
process.CUDAService = cms.Service("CUDAService",
allocator = cms.untracked.PSet(
devicePreallocate = cms.untracked.vuint32(),
hostPreallocate = cms.untracked.vuint32()
),
enabled = cms.untracked.bool(True),
limits = cms.untracked.PSet(
cudaLimitDevRuntimePendingLaunchCount = cms.untracked.int32(-1),
cudaLimitDevRuntimeSyncDepth = cms.untracked.int32(-1),
cudaLimitMallocHeapSize = cms.untracked.int32(-1),
cudaLimitPrintfFifoSize = cms.untracked.int32(-1),
cudaLimitStackSize = cms.untracked.int32(-1)
),
verbose = cms.untracked.bool(False)
)
process.DQMStore = cms.Service("DQMStore",
MEsToSave = cms.untracked.vstring(
'Muons/MuonRecoAnalyzer/',
'Muons/MuonIdDQM/GlobalMuons/hDT1Pullx'
),
assertLegacySafe = cms.untracked.bool(False),
enableMultiThread = cms.untracked.bool(True),
saveByLumi = cms.untracked.bool(False),
trackME = cms.untracked.string(''),
verbose = cms.untracked.int32(0)
)
process.MessageLogger = cms.Service("MessageLogger",
cerr = cms.untracked.PSet(
FwkReport = cms.untracked.PSet(
limit = cms.untracked.int32(10000000),
reportEvery = cms.untracked.int32(10)
),
FwkSummary = cms.untracked.PSet(
limit = cms.untracked.int32(10000000),
reportEvery = cms.untracked.int32(1)
),
INFO = cms.untracked.PSet(
limit = cms.untracked.int32(0)
),
Root_NoDictionary = cms.untracked.PSet(
limit = cms.untracked.int32(0)
),
default = cms.untracked.PSet(
limit = cms.untracked.int32(10000000)
),
enable = cms.untracked.bool(True),
enableStatistics = cms.untracked.bool(True),
lineLength = cms.optional.untracked.int32,
noLineBreaks = cms.optional.untracked.bool,
noTimeStamps = cms.untracked.bool(False),
resetStatistics = cms.untracked.bool(False),
statisticsThreshold = cms.untracked.string('WARNING'),
threshold = cms.untracked.string('DEBUG'),
allowAnyLabel_=cms.optional.untracked.PSetTemplate(
limit = cms.optional.untracked.int32,
reportEvery = cms.untracked.int32(1),
timespan = cms.optional.untracked.int32
)
),
cout = cms.untracked.PSet(
enable = cms.untracked.bool(False),
enableStatistics = cms.untracked.bool(False),
lineLength = cms.optional.untracked.int32,
noLineBreaks = cms.optional.untracked.bool,
noTimeStamps = cms.optional.untracked.bool,
resetStatistics = cms.untracked.bool(False),
statisticsThreshold = cms.optional.untracked.string,
threshold = cms.optional.untracked.string,
allowAnyLabel_=cms.optional.untracked.PSetTemplate(
limit = cms.optional.untracked.int32,
reportEvery = cms.untracked.int32(1),
timespan = cms.optional.untracked.int32
)
),
debugModules = cms.untracked.vstring(),
default = cms.untracked.PSet(
limit = cms.optional.untracked.int32,
lineLength = cms.untracked.int32(80),
noLineBreaks = cms.untracked.bool(False),
noTimeStamps = cms.untracked.bool(False),
reportEvery = cms.untracked.int32(1),
statisticsThreshold = cms.untracked.string('INFO'),
threshold = cms.untracked.string('INFO'),
timespan = cms.optional.untracked.int32,
allowAnyLabel_=cms.optional.untracked.PSetTemplate(
limit = cms.optional.untracked.int32,
reportEvery = cms.untracked.int32(1),
timespan = cms.optional.untracked.int32
)
),
files = cms.untracked.PSet(
allowAnyLabel_=cms.optional.untracked.PSetTemplate(
enableStatistics = cms.untracked.bool(False),
extension = cms.optional.untracked.string,
filename = cms.optional.untracked.string,
lineLength = cms.optional.untracked.int32,
noLineBreaks = cms.optional.untracked.bool,
noTimeStamps = cms.optional.untracked.bool,
output = cms.optional.untracked.string,
resetStatistics = cms.untracked.bool(False),
statisticsThreshold = cms.optional.untracked.string,
threshold = cms.optional.untracked.string,
allowAnyLabel_=cms.optional.untracked.PSetTemplate(
limit = cms.optional.untracked.int32,
reportEvery = cms.untracked.int32(1),
timespan = cms.optional.untracked.int32
)
)
),
suppressDebug = cms.untracked.vstring(),
suppressError = cms.untracked.vstring(
'hltPatJetFlavourAssociationCalo',
'hltCTPPSPixelDigis',
'VertexHistograms_hltPixelVertices',
'VertexHistograms_hltTrimmedPixelVertices',
'VertexHistograms_hltVerticesPF',
'VertexHistograms_hltVerticesPFFilter',
'VertexHistograms_hltVerticesL3FilterROIForBTag',
'VertexHistograms_hltVerticesL3SelectorROIForBTag',
'VertexHistograms_hltVerticesL3ROIForBTag',
'VertexHistograms_hltVerticesPFROIForBTag',
'VertexHistograms_hltVerticesPFSelectorROIForBTag',
'VertexHistograms_hltVerticesPFFilterROIForBTag'
),
suppressFwkInfo = cms.untracked.vstring(),
suppressInfo = cms.untracked.vstring(),
suppressWarning = cms.untracked.vstring(
'hltPatJetFlavourAssociationCalo',
'hltCTPPSPixelDigis',
'VertexHistograms_hltPixelVertices',
'VertexHistograms_hltTrimmedPixelVertices',
'VertexHistograms_hltVerticesPF',
'VertexHistograms_hltVerticesPFFilter',
'VertexHistograms_hltVerticesL3FilterROIForBTag',
'VertexHistograms_hltVerticesL3SelectorROIForBTag',
'VertexHistograms_hltVerticesL3ROIForBTag',
'VertexHistograms_hltVerticesPFROIForBTag',
'VertexHistograms_hltVerticesPFSelectorROIForBTag',
'VertexHistograms_hltVerticesPFFilterROIForBTag'
),
allowAnyLabel_=cms.optional.untracked.PSetTemplate(
limit = cms.optional.untracked.int32,
reportEvery = cms.untracked.int32(1),
timespan = cms.optional.untracked.int32
)
)
process.TFileService = cms.Service("TFileService",
fileName = cms.string('outFull_HLT_Run3TRK_ROICaloROIPF_Mu_oldJECs_data323775_lumijson.root')
)
process.ThroughputService = cms.Service("ThroughputService",
dqmPath = cms.untracked.string('HLT/Throughput'),
dqmPathByProcesses = cms.untracked.bool(False),
enableDQM = cms.untracked.bool(True),
eventRange = cms.untracked.uint32(10000),
eventResolution = cms.untracked.uint32(1),
printEventSummary = cms.untracked.bool(False),
timeRange = cms.untracked.double(60000.0),
timeResolution = cms.untracked.double(5.828)
)
process.AnyDirectionAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer",
ComponentName = cms.string('AnyDirectionAnalyticalPropagator'),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('anyDirection')
)
process.CSCChannelMapperESProducer = cms.ESProducer("CSCChannelMapperESProducer",
AlgoName = cms.string('CSCChannelMapperPostls1')
)
process.CSCGeometryESModule = cms.ESProducer("CSCGeometryESModule",
alignmentsLabel = cms.string(''),
appendToDataLabel = cms.string(''),
applyAlignment = cms.bool(True),
debugV = cms.untracked.bool(False),
fromDD4hep = cms.bool(False),
fromDDD = cms.bool(False),
useCentreTIOffsets = cms.bool(False),
useGangedStripsInME1a = cms.bool(False),
useOnlyWiresInME1a = cms.bool(False),
useRealWireGeometry = cms.bool(True)
)
process.CSCIndexerESProducer = cms.ESProducer("CSCIndexerESProducer",
AlgoName = cms.string('CSCIndexerPostls1')
)
process.CSCObjectMapESProducer = cms.ESProducer("CSCObjectMapESProducer",
appendToDataLabel = cms.string('')
)
process.CaloGeometryBuilder = cms.ESProducer("CaloGeometryBuilder",
SelectedCalos = cms.vstring(
'HCAL',
'ZDC',
'EcalBarrel',
'EcalEndcap',
'EcalPreshower',
'TOWER'
)
)
process.CaloTopologyBuilder = cms.ESProducer("CaloTopologyBuilder")
process.CaloTowerConstituentsMapBuilder = cms.ESProducer("CaloTowerConstituentsMapBuilder",
MapAuto = cms.untracked.bool(False),
MapFile = cms.untracked.string('Geometry/CaloTopology/data/CaloTowerEEGeometric.map.gz'),
SkipHE = cms.untracked.bool(False),
appendToDataLabel = cms.string('')
)
process.CaloTowerGeometryFromDBEP = cms.ESProducer("CaloTowerGeometryFromDBEP",
applyAlignment = cms.bool(False)
)
process.CaloTowerTopologyEP = cms.ESProducer("CaloTowerTopologyEP",
appendToDataLabel = cms.string('')
)
process.CastorDbProducer = cms.ESProducer("CastorDbProducer",
appendToDataLabel = cms.string('')
)
process.ClusterShapeHitFilterESProducer = cms.ESProducer("ClusterShapeHitFilterESProducer",
ComponentName = cms.string('ClusterShapeHitFilter'),
PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'),
PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
)
)
process.DTGeometryESModule = cms.ESProducer("DTGeometryESModule",
DDDetector = cms.ESInputTag("",""),
alignmentsLabel = cms.string(''),
appendToDataLabel = cms.string(''),
applyAlignment = cms.bool(True),
attribute = cms.string('MuStructure'),
fromDD4hep = cms.bool(False),
fromDDD = cms.bool(False),
value = cms.string('MuonBarrelDT')
)
process.DTObjectMapESProducer = cms.ESProducer("DTObjectMapESProducer",
appendToDataLabel = cms.string('')
)
process.EcalBarrelGeometryFromDBEP = cms.ESProducer("EcalBarrelGeometryFromDBEP",
applyAlignment = cms.bool(True)
)
process.EcalElectronicsMappingBuilder = cms.ESProducer("EcalElectronicsMappingBuilder")
process.EcalEndcapGeometryFromDBEP = cms.ESProducer("EcalEndcapGeometryFromDBEP",
applyAlignment = cms.bool(True)
)
process.EcalLaserCorrectionService = cms.ESProducer("EcalLaserCorrectionService",
appendToDataLabel = cms.string(''),
maxExtrapolationTimeInSec = cms.uint32(0)
)
process.EcalPreshowerGeometryFromDBEP = cms.ESProducer("EcalPreshowerGeometryFromDBEP",
applyAlignment = cms.bool(True)
)
process.GEMGeometryESModule = cms.ESProducer("GEMGeometryESModule",
alignmentsLabel = cms.string(''),
appendToDataLabel = cms.string(''),
applyAlignment = cms.bool(False),
fromDD4hep = cms.bool(False),
fromDDD = cms.bool(False)
)
process.GlobalParameters = cms.ESProducer("StableParametersTrivialProducer",
IfCaloEtaNumberBits = cms.uint32(4),
IfMuEtaNumberBits = cms.uint32(6),
NumberChips = cms.uint32(1),
NumberConditionChips = cms.uint32(1),
NumberL1CenJet = cms.uint32(4),
NumberL1EGamma = cms.uint32(12),
NumberL1ForJet = cms.uint32(4),
NumberL1IsoEG = cms.uint32(4),
NumberL1Jet = cms.uint32(12),
NumberL1JetCounts = cms.uint32(12),
NumberL1Mu = cms.uint32(4),
NumberL1Muon = cms.uint32(8),
NumberL1NoIsoEG = cms.uint32(4),
NumberL1Tau = cms.uint32(12),
NumberL1TauJet = cms.uint32(4),
NumberPhysTriggers = cms.uint32(512),
NumberPhysTriggersExtended = cms.uint32(64),
NumberPsbBoards = cms.int32(7),
NumberTechnicalTriggers = cms.uint32(64),
OrderConditionChip = cms.vint32(1),
OrderOfChip = cms.vint32(1),
PinsOnChip = cms.uint32(512),
PinsOnConditionChip = cms.uint32(512),
TotalBxInEvent = cms.int32(5),
UnitLength = cms.int32(8),
WordLength = cms.int32(64),
appendToDataLabel = cms.string('')
)
process.HcalGeometryFromDBEP = cms.ESProducer("HcalGeometryFromDBEP",
applyAlignment = cms.bool(False)
)
process.HcalTopologyIdealEP = cms.ESProducer("HcalTopologyIdealEP",
Exclude = cms.untracked.string(''),
MergePosition = cms.untracked.bool(True),
appendToDataLabel = cms.string('')
)
process.MaterialPropagator = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterial'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string(''),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.MaterialPropagatorForHI = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialForHI'),
Mass = cms.double(0.139),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.MaterialPropagatorParabolicMF = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialParabolicMf'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.OppositeMaterialPropagator = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialOpposite'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('oppositeToMomentum'),
SimpleMagneticField = cms.string(''),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.OppositeMaterialPropagatorForHI = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialOppositeForHI'),
Mass = cms.double(0.139),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('oppositeToMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.OppositeMaterialPropagatorParabolicMF = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialParabolicMfOpposite'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('oppositeToMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.OppositePropagatorWithMaterialForMixedStep = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialForMixedStepOpposite'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('oppositeToMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(0.1),
useRungeKutta = cms.bool(False)
)
process.ParametrizedMagneticFieldProducer = cms.ESProducer("AutoParametrizedMagneticFieldProducer",
label = cms.untracked.string('ParabolicMf'),
valueOverride = cms.int32(-1),
version = cms.string('Parabolic')
)
process.PixelCPEFastESProducer = cms.ESProducer("PixelCPEFastESProducer",
Alpha2Order = cms.bool(True),
ClusterProbComputationFlag = cms.int32(0),
ComponentName = cms.string('PixelCPEFast'),
EdgeClusterErrorX = cms.double(50),
EdgeClusterErrorY = cms.double(85),
LoadTemplatesFromDB = cms.bool(True),
MagneticFieldRecord = cms.ESInputTag("",""),
TruncatePixelCharge = cms.bool(True),
UseErrorsFromTemplates = cms.bool(True),
appendToDataLabel = cms.string(''),
doLorentzFromAlignment = cms.bool(False),
lAOffset = cms.double(0),
lAWidthBPix = cms.double(0),
lAWidthFPix = cms.double(0),
useLAFromDB = cms.bool(True),
useLAWidthFromDB = cms.bool(True),
xerr_barrel_l1 = cms.vdouble(0.00115, 0.0012, 0.00088),
xerr_barrel_l1_def = cms.double(0.0103),
xerr_barrel_ln = cms.vdouble(0.00115, 0.0012, 0.00088),
xerr_barrel_ln_def = cms.double(0.0103),
xerr_endcap = cms.vdouble(0.002, 0.002),
xerr_endcap_def = cms.double(0.002),
yerr_barrel_l1 = cms.vdouble(
0.00375, 0.0023, 0.0025, 0.0025, 0.0023,
0.0023, 0.0021, 0.0021, 0.0024
),
yerr_barrel_l1_def = cms.double(0.0021),
yerr_barrel_ln = cms.vdouble(
0.00375, 0.0023, 0.0025, 0.0025, 0.0023,
0.0023, 0.0021, 0.0021, 0.0024
),
yerr_barrel_ln_def = cms.double(0.0021),
yerr_endcap = cms.vdouble(0.0021),
yerr_endcap_def = cms.double(0.00075)
)
process.PropagatorWithMaterialForLoopers = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialForLoopers'),
Mass = cms.double(0.1396),
MaxDPhi = cms.double(4.0),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.PropagatorWithMaterialForMixedStep = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('PropagatorWithMaterialForMixedStep'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string('ParabolicMf'),
ptMin = cms.double(0.1),
useRungeKutta = cms.bool(False)
)
process.RPCGeometryESModule = cms.ESProducer("RPCGeometryESModule",
appendToDataLabel = cms.string(''),
fromDD4hep = cms.untracked.bool(False),
fromDDD = cms.untracked.bool(False)
)
process.SiStripClusterizerConditionsESProducer = cms.ESProducer("SiStripClusterizerConditionsESProducer",
Label = cms.string(''),
QualityLabel = cms.string(''),
appendToDataLabel = cms.string('')
)
process.SiStripGainESProducer = cms.ESProducer("SiStripGainESProducer",
APVGain = cms.VPSet(
cms.PSet(
Label = cms.untracked.string(''),
NormalizationFactor = cms.untracked.double(1.0),
Record = cms.string('SiStripApvGainRcd')
),
cms.PSet(
Label = cms.untracked.string(''),
NormalizationFactor = cms.untracked.double(1.0),
Record = cms.string('SiStripApvGain2Rcd')
)
),
AutomaticNormalization = cms.bool(False),
appendToDataLabel = cms.string(''),
printDebug = cms.untracked.bool(False)
)
process.SiStripQualityESProducer = cms.ESProducer("SiStripQualityESProducer",
ListOfRecordToMerge = cms.VPSet(
cms.PSet(
record = cms.string('SiStripDetVOffRcd'),
tag = cms.string('')
),
cms.PSet(
record = cms.string('SiStripDetCablingRcd'),
tag = cms.string('')
),
cms.PSet(
record = cms.string('SiStripBadChannelRcd'),
tag = cms.string('')
),
cms.PSet(
record = cms.string('SiStripBadFiberRcd'),
tag = cms.string('')
),
cms.PSet(
record = cms.string('SiStripBadModuleRcd'),
tag = cms.string('')
)
),
PrintDebugOutput = cms.bool(False),
ReduceGranularity = cms.bool(False),
ThresholdForReducedGranularity = cms.double(0.3),
UseEmptyRunInfo = cms.bool(False),
appendToDataLabel = cms.string('')
)
process.SiStripRecHitMatcherESProducer = cms.ESProducer("SiStripRecHitMatcherESProducer",
ComponentName = cms.string('StandardMatcher'),
NSigmaInside = cms.double(3.0),
PreFilter = cms.bool(False)
)
process.SiStripRegionConnectivity = cms.ESProducer("SiStripRegionConnectivity",
EtaDivisions = cms.untracked.uint32(20),
EtaMax = cms.untracked.double(2.5),
PhiDivisions = cms.untracked.uint32(20)
)
process.SimpleSecondaryVertex3TrkComputer = cms.ESProducer("SimpleSecondaryVertexESProducer",
minTracks = cms.uint32(3),
minVertices = cms.uint32(1),
unBoost = cms.bool(False),
use3d = cms.bool(True),
useSignificance = cms.bool(True)
)
process.SteppingHelixPropagatorAny = cms.ESProducer("SteppingHelixPropagatorESProducer",
ApplyRadX0Correction = cms.bool(True),
AssumeNoMaterial = cms.bool(False),
ComponentName = cms.string('SteppingHelixPropagatorAny'),
NoErrorPropagation = cms.bool(False),
PropagationDirection = cms.string('anyDirection'),
SetVBFPointer = cms.bool(False),
VBFName = cms.string('VolumeBasedMagneticField'),
debug = cms.bool(False),
endcapShiftInZNeg = cms.double(0.0),
endcapShiftInZPos = cms.double(0.0),
returnTangentPlane = cms.bool(True),
sendLogWarning = cms.bool(False),
useEndcapShiftsInZ = cms.bool(False),
useInTeslaFromMagField = cms.bool(False),
useIsYokeFlag = cms.bool(True),
useMagVolumes = cms.bool(True),
useMatVolumes = cms.bool(True),
useTuningForL2Speed = cms.bool(False)
)
process.TrackerAdditionalParametersPerDetESModule = cms.ESProducer("TrackerAdditionalParametersPerDetESModule",
appendToDataLabel = cms.string('')
)
process.TrackerDigiGeometryESModule = cms.ESProducer("TrackerDigiGeometryESModule",
alignmentsLabel = cms.string(''),
appendToDataLabel = cms.string(''),
applyAlignment = cms.bool(True),
fromDDD = cms.bool(False)
)
process.TrackerGeometricDetESModule = cms.ESProducer("TrackerGeometricDetESModule",
appendToDataLabel = cms.string(''),
fromDD4hep = cms.bool(False),
fromDDD = cms.bool(False)
)
process.TransientTrackBuilderESProducer = cms.ESProducer("TransientTrackBuilderESProducer",
ComponentName = cms.string('TransientTrackBuilder')
)
process.VolumeBasedMagneticFieldESProducer = cms.ESProducer("VolumeBasedMagneticFieldESProducerFromDB",
debugBuilder = cms.untracked.bool(False),
label = cms.untracked.string(''),
valueOverride = cms.int32(-1)
)
process.ZdcGeometryFromDBEP = cms.ESProducer("ZdcGeometryFromDBEP",
applyAlignment = cms.bool(False)
)
process.caloDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer",
ComponentName = cms.string('CaloDetIdAssociator'),
etaBinSize = cms.double(0.087),
hcalRegion = cms.int32(2),
includeBadChambers = cms.bool(False),
includeGEM = cms.bool(False),
includeME0 = cms.bool(False),
nEta = cms.int32(70),
nPhi = cms.int32(72)
)
process.candidateCombinedSecondaryVertexV2Computer = cms.ESProducer("CandidateCombinedSecondaryVertexESProducer",
SoftLeptonFlip = cms.bool(False),
calibrationRecords = cms.vstring(
'CombinedSVIVFV2RecoVertex',
'CombinedSVIVFV2PseudoVertex',
'CombinedSVIVFV2NoVertex'
),
categoryVariableName = cms.string('vertexCategory'),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
recordLabel = cms.string(''),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(2),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3),
min_pT = cms.double(120),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3),
min_pT = cms.double(120),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useCategories = cms.bool(True),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
)
process.cosmicsNavigationSchoolESProducer = cms.ESProducer("NavigationSchoolESProducer",
ComponentName = cms.string('CosmicNavigationSchool'),
SimpleMagneticField = cms.string('')
)
process.ctppsGeometryESModule = cms.ESProducer("CTPPSGeometryESModule",
appendToDataLabel = cms.string(''),
buildMisalignedGeometry = cms.bool(False),
compactViewTag = cms.string(''),
dbTag = cms.string(''),
fromDD4hep = cms.untracked.bool(False),
fromPreprocessedDB = cms.untracked.bool(True),
isRun2 = cms.bool(False),
verbosity = cms.untracked.uint32(1)
)
process.ctppsInterpolatedOpticalFunctionsESSource = cms.ESProducer("CTPPSInterpolatedOpticalFunctionsESSource",
appendToDataLabel = cms.string(''),
lhcInfoLabel = cms.string(''),
opticsLabel = cms.string('')
)
process.ecalDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer",
ComponentName = cms.string('EcalDetIdAssociator'),
etaBinSize = cms.double(0.02),
hcalRegion = cms.int32(2),
includeBadChambers = cms.bool(False),
includeGEM = cms.bool(False),
includeME0 = cms.bool(False),
nEta = cms.int32(300),
nPhi = cms.int32(360)
)
process.ecalElectronicsMappingGPUESProducer = cms.ESProducer("EcalElectronicsMappingGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalGainRatiosGPUESProducer = cms.ESProducer("EcalGainRatiosGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalIntercalibConstantsGPUESProducer = cms.ESProducer("EcalIntercalibConstantsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalLaserAPDPNRatiosGPUESProducer = cms.ESProducer("EcalLaserAPDPNRatiosGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalLaserAPDPNRatiosRefGPUESProducer = cms.ESProducer("EcalLaserAPDPNRatiosRefGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalLaserAlphasGPUESProducer = cms.ESProducer("EcalLaserAlphasGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalLinearCorrectionsGPUESProducer = cms.ESProducer("EcalLinearCorrectionsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalPedestalsGPUESProducer = cms.ESProducer("EcalPedestalsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalPulseCovariancesGPUESProducer = cms.ESProducer("EcalPulseCovariancesGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalPulseShapesGPUESProducer = cms.ESProducer("EcalPulseShapesGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalRechitADCToGeVConstantGPUESProducer = cms.ESProducer("EcalRechitADCToGeVConstantGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalRechitChannelStatusGPUESProducer = cms.ESProducer("EcalRechitChannelStatusGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalSamplesCorrelationGPUESProducer = cms.ESProducer("EcalSamplesCorrelationGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalSeverityLevel = cms.ESProducer("EcalSeverityLevelESProducer",
dbstatusMask = cms.PSet(
kBad = cms.vstring(
'kNonRespondingIsolated',
'kDeadVFE',
'kDeadFE',
'kNoDataNoTP'
),
kGood = cms.vstring('kOk'),
kProblematic = cms.vstring(
'kDAC',
'kNoLaser',
'kNoisy',
'kNNoisy',
'kNNNoisy',
'kNNNNoisy',
'kNNNNNoisy',
'kFixedG6',
'kFixedG1',
'kFixedG0'
),
kRecovered = cms.vstring(),
kTime = cms.vstring(),
kWeird = cms.vstring()
),
flagMask = cms.PSet(
kBad = cms.vstring(
'kFaultyHardware',
'kDead',
'kKilled'
),
kGood = cms.vstring('kGood'),
kProblematic = cms.vstring(
'kPoorReco',
'kPoorCalib',
'kNoisy',
'kSaturated'
),
kRecovered = cms.vstring(
'kLeadingEdgeRecovered',
'kTowerRecovered'
),
kTime = cms.vstring('kOutOfTime'),
kWeird = cms.vstring(
'kWeird',
'kDiWeird'
)
),
timeThresh = cms.double(2.0)
)
process.ecalTimeBiasCorrectionsGPUESProducer = cms.ESProducer("EcalTimeBiasCorrectionsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.ecalTimeCalibConstantsGPUESProducer = cms.ESProducer("EcalTimeCalibConstantsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalChannelPropertiesESProd = cms.ESProducer("HcalChannelPropertiesEP")
process.hcalChannelQualityGPUESProducer = cms.ESProducer("HcalChannelQualityGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalConvertedEffectivePedestalWidthsGPUESProducer = cms.ESProducer("HcalConvertedEffectivePedestalWidthsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label0 = cms.string('withTopoEff'),
label1 = cms.string('withTopoEff'),
label2 = cms.string(''),
label3 = cms.string('')
)
process.hcalConvertedEffectivePedestalsGPUESProducer = cms.ESProducer("HcalConvertedEffectivePedestalsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label0 = cms.string('withTopoEff'),
label1 = cms.string(''),
label2 = cms.string('')
)
process.hcalConvertedPedestalWidthsGPUESProducer = cms.ESProducer("HcalConvertedPedestalWidthsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label0 = cms.string(''),
label1 = cms.string(''),
label2 = cms.string(''),
label3 = cms.string('')
)
process.hcalConvertedPedestalsGPUESProducer = cms.ESProducer("HcalConvertedPedestalsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label0 = cms.string(''),
label1 = cms.string(''),
label2 = cms.string('')
)
process.hcalDDDRecConstants = cms.ESProducer("HcalDDDRecConstantsESModule",
appendToDataLabel = cms.string('')
)
process.hcalDDDSimConstants = cms.ESProducer("HcalDDDSimConstantsESModule",
appendToDataLabel = cms.string('')
)
process.hcalDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer",
ComponentName = cms.string('HcalDetIdAssociator'),
etaBinSize = cms.double(0.087),
hcalRegion = cms.int32(2),
includeBadChambers = cms.bool(False),
includeGEM = cms.bool(False),
includeME0 = cms.bool(False),
nEta = cms.int32(70),
nPhi = cms.int32(72)
)
process.hcalElectronicsMappingGPUESProducer = cms.ESProducer("HcalElectronicsMappingGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalGainWidthsGPUESProducer = cms.ESProducer("HcalGainWidthsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalGainsGPUESProducer = cms.ESProducer("HcalGainsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalLUTCorrsGPUESProducer = cms.ESProducer("HcalLUTCorrsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalQIECodersGPUESProducer = cms.ESProducer("HcalQIECodersGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalQIETypesGPUESProducer = cms.ESProducer("HcalQIETypesGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalRecAlgos = cms.ESProducer("HcalRecAlgoESProducer",
DropChannelStatusBits = cms.vstring(
'HcalCellMask',
'HcalCellOff',
'HcalCellDead'
),
RecoveredRecHitBits = cms.vstring(),
SeverityLevels = cms.VPSet(
cms.PSet(
ChannelStatus = cms.vstring(),
Level = cms.int32(0),
RecHitFlags = cms.vstring('TimingFromTDC')
),
cms.PSet(
ChannelStatus = cms.vstring('HcalCellCaloTowerProb'),
Level = cms.int32(1),
RecHitFlags = cms.vstring()
),
cms.PSet(
ChannelStatus = cms.vstring('HcalCellExcludeFromHBHENoiseSummary'),
Level = cms.int32(5),
RecHitFlags = cms.vstring()
),
cms.PSet(
ChannelStatus = cms.vstring(),
Level = cms.int32(8),
RecHitFlags = cms.vstring(
'HBHEHpdHitMultiplicity',
'HBHEIsolatedNoise',
'HBHEFlatNoise',
'HBHESpikeNoise',
'HBHETS4TS5Noise',
'HBHENegativeNoise',
'HBHEPulseFitBit',
'HBHEOOTPU'
)
),
cms.PSet(
ChannelStatus = cms.vstring(),
Level = cms.int32(11),
RecHitFlags = cms.vstring(
'HFLongShort',
'HFS8S1Ratio',
'HFPET',
'HFSignalAsymmetry'
)
),
cms.PSet(
ChannelStatus = cms.vstring('HcalCellHot'),
Level = cms.int32(15),
RecHitFlags = cms.vstring()
),
cms.PSet(
ChannelStatus = cms.vstring(
'HcalCellOff',
'HcalCellDead'
),
Level = cms.int32(20),
RecHitFlags = cms.vstring()
)
),
appendToDataLabel = cms.string(''),
phase = cms.uint32(1)
)
process.hcalRecoParamsWithPulseShapesGPUESProducer = cms.ESProducer("HcalRecoParamsWithPulseShapesGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalRespCorrsGPUESProducer = cms.ESProducer("HcalRespCorrsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalSiPMCharacteristicsGPUESProducer = cms.ESProducer("HcalSiPMCharacteristicsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalSiPMParametersGPUESProducer = cms.ESProducer("HcalSiPMParametersGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcalTimeCorrsGPUESProducer = cms.ESProducer("HcalTimeCorrsGPUESProducer",
ComponentName = cms.string(''),
appendToDataLabel = cms.string(''),
label = cms.string('')
)
process.hcal_db_producer = cms.ESProducer("HcalDbProducer")
process.hltBoostedDoubleSecondaryVertexAK8Computer = cms.ESProducer("CandidateBoostedDoubleSecondaryVertexESProducer",
useAdaBoost = cms.bool(False),
useCondDB = cms.bool(False),
useGBRForest = cms.bool(True),
weightFile = cms.FileInPath('RecoBTag/SecondaryVertex/data/BoostedDoubleSV_AK8_BDT_v4.weights.xml.gz')
)
process.hltCombinedSecondaryVertex = cms.ESProducer("CombinedSecondaryVertexESProducer",
SoftLeptonFlip = cms.bool(False),
calibrationRecords = cms.vstring(
'CombinedSVRecoVertex',
'CombinedSVPseudoVertex',
'CombinedSVNoVertex'
),
categoryVariableName = cms.string('vertexCategory'),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
recordLabel = cms.string('HLT'),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(3),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0)
),
trackSelection = cms.PSet(
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0)
),
trackSort = cms.string('sip2dSig'),
useCategories = cms.bool(True),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
)
process.hltCombinedSecondaryVertexV2 = cms.ESProducer("CombinedSecondaryVertexESProducer",
SoftLeptonFlip = cms.bool(False),
calibrationRecords = cms.vstring(
'CombinedSVIVFV2RecoVertex',
'CombinedSVIVFV2PseudoVertex',
'CombinedSVIVFV2NoVertex'
),
categoryVariableName = cms.string('vertexCategory'),
charmCut = cms.double(1.5),
correctVertexMass = cms.bool(True),
minimumTrackWeight = cms.double(0.5),
pseudoMultiplicityMin = cms.uint32(2),
pseudoVertexV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.05)
),
recordLabel = cms.string('HLT'),
trackFlip = cms.bool(False),
trackMultiplicityMin = cms.uint32(3),
trackPairV0Filter = cms.PSet(
k0sMassWindow = cms.double(0.03)
),
trackPseudoSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(2.0),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSelection = cms.PSet(
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
jetDeltaRMax = cms.double(0.3),
maxDecayLen = cms.double(5.0),
maxDistToAxis = cms.double(0.07),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
normChi2Max = cms.double(99999.9),
pixelHitsMin = cms.uint32(0),
ptMin = cms.double(0.0),
qualityClass = cms.string('any'),
sip2dSigMax = cms.double(99999.9),
sip2dSigMin = cms.double(-99999.9),
sip2dValMax = cms.double(99999.9),
sip2dValMin = cms.double(-99999.9),
sip3dSigMax = cms.double(99999.9),
sip3dSigMin = cms.double(-99999.9),
sip3dValMax = cms.double(99999.9),
sip3dValMin = cms.double(-99999.9),
totalHitsMin = cms.uint32(0),
useVariableJTA = cms.bool(False)
),
trackSort = cms.string('sip2dSig'),
useCategories = cms.bool(True),
useTrackWeights = cms.bool(True),
vertexFlip = cms.bool(False)
)
process.hltDisplacedDijethltESPPromptTrackCountingESProducer = cms.ESProducer("PromptTrackCountingESProducer",
deltaR = cms.double(-1.0),
deltaRmin = cms.double(0.0),
impactParameterType = cms.int32(1),
maxImpactParameter = cms.double(0.1),
maxImpactParameterSig = cms.double(999999.0),
maximumDecayLength = cms.double(999999.0),
maximumDistanceToJetAxis = cms.double(999999.0),
minimumImpactParameter = cms.double(-1.0),
nthTrack = cms.int32(-1),
trackQualityClass = cms.string('any'),
useSignedImpactParameterSig = cms.bool(True)
)
process.hltDisplacedDijethltESPTrackCounting2D1st = cms.ESProducer("TrackCountingESProducer",
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
deltaR = cms.double(-1.0),
impactParameterType = cms.int32(1),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
maximumDecayLength = cms.double(999999.0),
maximumDistanceToJetAxis = cms.double(9999999.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
minimumImpactParameter = cms.double(0.05),
nthTrack = cms.int32(1),
trackQualityClass = cms.string('any'),
useSignedImpactParameterSig = cms.bool(False),
useVariableJTA = cms.bool(False)
)
process.hltESPAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer",
ComponentName = cms.string('hltESPAnalyticalPropagator'),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum')
)
process.hltESPBwdAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer",
ComponentName = cms.string('hltESPBwdAnalyticalPropagator'),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('oppositeToMomentum')
)
process.hltESPBwdElectronPropagator = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('hltESPBwdElectronPropagator'),
Mass = cms.double(0.000511),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('oppositeToMomentum'),
SimpleMagneticField = cms.string(''),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.hltESPChi2ChargeLooseMeasurementEstimator16 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeLooseMeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPChi2ChargeMeasurementEstimator16 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeMeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPChi2ChargeMeasurementEstimator2000 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeMeasurementEstimator2000'),
MaxChi2 = cms.double(2000.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPChi2ChargeMeasurementEstimator30 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeMeasurementEstimator30'),
MaxChi2 = cms.double(30.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutNone')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPChi2ChargeMeasurementEstimator9 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeMeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(15.0)
)
process.hltESPChi2ChargeMeasurementEstimator9ForHI = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeMeasurementEstimator9ForHI'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutForHI')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(15.0)
)
process.hltESPChi2ChargeTightMeasurementEstimator16 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2ChargeTightMeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPChi2MeasurementEstimator100 = cms.ESProducer("Chi2MeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2MeasurementEstimator100'),
MaxChi2 = cms.double(40.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
nSigma = cms.double(4.0)
)
process.hltESPChi2MeasurementEstimator16 = cms.ESProducer("Chi2MeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2MeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
nSigma = cms.double(3.0)
)
process.hltESPChi2MeasurementEstimator30 = cms.ESProducer("Chi2MeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2MeasurementEstimator30'),
MaxChi2 = cms.double(30.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
nSigma = cms.double(3.0)
)
process.hltESPChi2MeasurementEstimator9 = cms.ESProducer("Chi2MeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPChi2MeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
nSigma = cms.double(3.0)
)
process.hltESPCloseComponentsMerger5D = cms.ESProducer("CloseComponentsMergerESProducer5D",
ComponentName = cms.string('hltESPCloseComponentsMerger5D'),
DistanceMeasure = cms.string('hltESPKullbackLeiblerDistance5D'),
MaxComponents = cms.int32(12)
)
process.hltESPDetachedQuadStepChi2ChargeMeasurementEstimator9 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPDetachedQuadStepChi2ChargeMeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPDetachedQuadStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPDetachedQuadStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.13)
)
process.hltESPDetachedStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPDetachedStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.13)
)
process.hltESPDetachedTripletStepChi2ChargeMeasurementEstimator9 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPDetachedTripletStepChi2ChargeMeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPDetachedTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPDetachedTripletStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.13)
)
process.hltESPDisplacedDijethltPromptTrackCountingESProducer = cms.ESProducer("PromptTrackCountingESProducer",
deltaR = cms.double(-1.0),
deltaRmin = cms.double(0.0),
impactParameterType = cms.int32(1),
maxImpactParameter = cms.double(0.1),
maxImpactParameterSig = cms.double(999999.0),
maximumDecayLength = cms.double(999999.0),
maximumDistanceToJetAxis = cms.double(999999.0),
minimumImpactParameter = cms.double(-1.0),
nthTrack = cms.int32(-1),
trackQualityClass = cms.string('any'),
useSignedImpactParameterSig = cms.bool(True)
)
process.hltESPDisplacedDijethltPromptTrackCountingESProducerLong = cms.ESProducer("PromptTrackCountingESProducer",
deltaR = cms.double(-1.0),
deltaRmin = cms.double(0.0),
impactParameterType = cms.int32(1),
maxImpactParameter = cms.double(0.2),
maxImpactParameterSig = cms.double(999999.0),
maximumDecayLength = cms.double(999999.0),
maximumDistanceToJetAxis = cms.double(999999.0),
minimumImpactParameter = cms.double(-1.0),
nthTrack = cms.int32(-1),
trackQualityClass = cms.string('any'),
useSignedImpactParameterSig = cms.bool(True)
)
process.hltESPDisplacedDijethltTrackCounting2D1st = cms.ESProducer("TrackCountingESProducer",
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
deltaR = cms.double(-1.0),
impactParameterType = cms.int32(1),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
maximumDecayLength = cms.double(999999.0),
maximumDistanceToJetAxis = cms.double(9999999.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
minimumImpactParameter = cms.double(0.05),
nthTrack = cms.int32(1),
trackQualityClass = cms.string('any'),
useSignedImpactParameterSig = cms.bool(False),
useVariableJTA = cms.bool(False)
)
process.hltESPDisplacedDijethltTrackCounting2D2ndLong = cms.ESProducer("TrackCountingESProducer",
a_dR = cms.double(-0.001053),
a_pT = cms.double(0.005263),
b_dR = cms.double(0.6263),
b_pT = cms.double(0.3684),
deltaR = cms.double(-1.0),
impactParameterType = cms.int32(1),
max_pT = cms.double(500.0),
max_pT_dRcut = cms.double(0.1),
max_pT_trackPTcut = cms.double(3.0),
maximumDecayLength = cms.double(999999.0),
maximumDistanceToJetAxis = cms.double(9999999.0),
min_pT = cms.double(120.0),
min_pT_dRcut = cms.double(0.5),
minimumImpactParameter = cms.double(0.2),
nthTrack = cms.int32(2),
trackQualityClass = cms.string('any'),
useSignedImpactParameterSig = cms.bool(True),
useVariableJTA = cms.bool(False)
)
process.hltESPDummyDetLayerGeometry = cms.ESProducer("DetLayerGeometryESProducer",
ComponentName = cms.string('hltESPDummyDetLayerGeometry')
)
process.hltESPEcalTrigTowerConstituentsMapBuilder = cms.ESProducer("EcalTrigTowerConstituentsMapBuilder",
MapFile = cms.untracked.string('Geometry/EcalMapping/data/EndCap_TTMap.txt')
)
process.hltESPElectronMaterialEffects = cms.ESProducer("GsfMaterialEffectsESProducer",
BetheHeitlerCorrection = cms.int32(2),
BetheHeitlerParametrization = cms.string('BetheHeitler_cdfmom_nC6_O5.par'),
ComponentName = cms.string('hltESPElectronMaterialEffects'),
EnergyLossUpdator = cms.string('GsfBetheHeitlerUpdator'),
Mass = cms.double(0.000511),
MultipleScatteringUpdator = cms.string('MultipleScatteringUpdator')
)
process.hltESPFastSteppingHelixPropagatorAny = cms.ESProducer("SteppingHelixPropagatorESProducer",
ApplyRadX0Correction = cms.bool(True),
AssumeNoMaterial = cms.bool(False),
ComponentName = cms.string('hltESPFastSteppingHelixPropagatorAny'),
NoErrorPropagation = cms.bool(False),
PropagationDirection = cms.string('anyDirection'),
SetVBFPointer = cms.bool(False),
VBFName = cms.string('VolumeBasedMagneticField'),
debug = cms.bool(False),
endcapShiftInZNeg = cms.double(0.0),
endcapShiftInZPos = cms.double(0.0),
returnTangentPlane = cms.bool(True),
sendLogWarning = cms.bool(False),
useEndcapShiftsInZ = cms.bool(False),
useInTeslaFromMagField = cms.bool(False),
useIsYokeFlag = cms.bool(True),
useMagVolumes = cms.bool(True),
useMatVolumes = cms.bool(True),
useTuningForL2Speed = cms.bool(True)
)
process.hltESPFastSteppingHelixPropagatorOpposite = cms.ESProducer("SteppingHelixPropagatorESProducer",
ApplyRadX0Correction = cms.bool(True),
AssumeNoMaterial = cms.bool(False),
ComponentName = cms.string('hltESPFastSteppingHelixPropagatorOpposite'),
NoErrorPropagation = cms.bool(False),
PropagationDirection = cms.string('oppositeToMomentum'),
SetVBFPointer = cms.bool(False),
VBFName = cms.string('VolumeBasedMagneticField'),
debug = cms.bool(False),
endcapShiftInZNeg = cms.double(0.0),
endcapShiftInZPos = cms.double(0.0),
returnTangentPlane = cms.bool(True),
sendLogWarning = cms.bool(False),
useEndcapShiftsInZ = cms.bool(False),
useInTeslaFromMagField = cms.bool(False),
useIsYokeFlag = cms.bool(True),
useMagVolumes = cms.bool(True),
useMatVolumes = cms.bool(True),
useTuningForL2Speed = cms.bool(True)
)
process.hltESPFittingSmootherIT = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(True),
ComponentName = cms.string('hltESPFittingSmootherIT'),
EstimateCut = cms.double(-1.0),
Fitter = cms.string('hltESPTrajectoryFitterRK'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(3),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(True),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPTrajectorySmootherRK'),
appendToDataLabel = cms.string('')
)
process.hltESPFittingSmootherRK = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(False),
ComponentName = cms.string('hltESPFittingSmootherRK'),
EstimateCut = cms.double(-1.0),
Fitter = cms.string('hltESPTrajectoryFitterRK'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(5),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(False),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPTrajectorySmootherRK'),
appendToDataLabel = cms.string('')
)
process.hltESPFlexibleKFFittingSmoother = cms.ESProducer("FlexibleKFFittingSmootherESProducer",
ComponentName = cms.string('hltESPFlexibleKFFittingSmoother'),
appendToDataLabel = cms.string(''),
looperFitter = cms.string('hltESPKFFittingSmootherForLoopers'),
standardFitter = cms.string('hltESPKFFittingSmootherWithOutliersRejectionAndRK')
)
process.hltESPFwdElectronPropagator = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('hltESPFwdElectronPropagator'),
Mass = cms.double(0.000511),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string(''),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(False)
)
process.hltESPGlobalDetLayerGeometry = cms.ESProducer("GlobalDetLayerGeometryESProducer",
ComponentName = cms.string('hltESPGlobalDetLayerGeometry')
)
process.hltESPGlobalTrackingGeometryESProducer = cms.ESProducer("GlobalTrackingGeometryESProducer")
process.hltESPGsfElectronFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(True),
ComponentName = cms.string('hltESPGsfElectronFittingSmoother'),
EstimateCut = cms.double(-1.0),
Fitter = cms.string('hltESPGsfTrajectoryFitter'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(5),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(True),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPGsfTrajectorySmoother'),
appendToDataLabel = cms.string('')
)
process.hltESPGsfTrajectoryFitter = cms.ESProducer("GsfTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPGsfTrajectoryFitter'),
GeometricalPropagator = cms.string('hltESPAnalyticalPropagator'),
MaterialEffectsUpdator = cms.string('hltESPElectronMaterialEffects'),
Merger = cms.string('hltESPCloseComponentsMerger5D'),
RecoGeometry = cms.string('hltESPGlobalDetLayerGeometry')
)
process.hltESPGsfTrajectorySmoother = cms.ESProducer("GsfTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPGsfTrajectorySmoother'),
ErrorRescaling = cms.double(100.0),
GeometricalPropagator = cms.string('hltESPBwdAnalyticalPropagator'),
MaterialEffectsUpdator = cms.string('hltESPElectronMaterialEffects'),
Merger = cms.string('hltESPCloseComponentsMerger5D'),
RecoGeometry = cms.string('hltESPGlobalDetLayerGeometry')
)
process.hltESPHighPtTripletStepChi2ChargeMeasurementEstimator30 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPHighPtTripletStepChi2ChargeMeasurementEstimator30'),
MaxChi2 = cms.double(30.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(15.0)
)
process.hltESPInitialStepChi2ChargeMeasurementEstimator30 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPInitialStepChi2ChargeMeasurementEstimator30'),
MaxChi2 = cms.double(30.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(15.0)
)
process.hltESPInitialStepChi2MeasurementEstimator36 = cms.ESProducer("Chi2MeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPInitialStepChi2MeasurementEstimator36'),
MaxChi2 = cms.double(36.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
nSigma = cms.double(3.0)
)
process.hltESPKFFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(False),
ComponentName = cms.string('hltESPKFFittingSmoother'),
EstimateCut = cms.double(-1.0),
Fitter = cms.string('hltESPKFTrajectoryFitter'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(5),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(False),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmoother'),
appendToDataLabel = cms.string('')
)
process.hltESPKFFittingSmootherForL2Muon = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(False),
ComponentName = cms.string('hltESPKFFittingSmootherForL2Muon'),
EstimateCut = cms.double(-1.0),
Fitter = cms.string('hltESPKFTrajectoryFitterForL2Muon'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(5),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(False),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForL2Muon'),
appendToDataLabel = cms.string('')
)
process.hltESPKFFittingSmootherForLoopers = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(True),
ComponentName = cms.string('hltESPKFFittingSmootherForLoopers'),
EstimateCut = cms.double(20.0),
Fitter = cms.string('hltESPKFTrajectoryFitterForLoopers'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-14.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(3),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(True),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPKFTrajectorySmootherForLoopers'),
appendToDataLabel = cms.string('')
)
process.hltESPKFFittingSmootherWithOutliersRejectionAndRK = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(True),
ComponentName = cms.string('hltESPKFFittingSmootherWithOutliersRejectionAndRK'),
EstimateCut = cms.double(20.0),
Fitter = cms.string('hltESPRKTrajectoryFitter'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-14.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(3),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(True),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPRKTrajectorySmoother'),
appendToDataLabel = cms.string('')
)
process.hltESPKFTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPKFTrajectoryFitter'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialParabolicMf'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(3)
)
process.hltESPKFTrajectoryFitterForL2Muon = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPKFTrajectoryFitterForL2Muon'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorAny'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(3)
)
process.hltESPKFTrajectoryFitterForLoopers = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPKFTrajectoryFitterForLoopers'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialForLoopers'),
RecoGeometry = cms.string('hltESPGlobalDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(3)
)
process.hltESPKFTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPKFTrajectorySmoother'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialParabolicMf'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(100.0),
minHits = cms.int32(3)
)
process.hltESPKFTrajectorySmootherForL2Muon = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPKFTrajectorySmootherForL2Muon'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPFastSteppingHelixPropagatorOpposite'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(100.0),
minHits = cms.int32(3)
)
process.hltESPKFTrajectorySmootherForLoopers = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPKFTrajectorySmootherForLoopers'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialForLoopers'),
RecoGeometry = cms.string('hltESPGlobalDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(10.0),
minHits = cms.int32(3)
)
process.hltESPKFTrajectorySmootherForMuonTrackLoader = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPKFTrajectorySmootherForMuonTrackLoader'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPSmartPropagatorAnyOpposite'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(10.0),
minHits = cms.int32(3)
)
process.hltESPKFUpdator = cms.ESProducer("KFUpdatorESProducer",
ComponentName = cms.string('hltESPKFUpdator')
)
process.hltESPKullbackLeiblerDistance5D = cms.ESProducer("DistanceBetweenComponentsESProducer5D",
ComponentName = cms.string('hltESPKullbackLeiblerDistance5D'),
DistanceMeasure = cms.string('KullbackLeibler')
)
process.hltESPL3MuKFTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPL3MuKFTrajectoryFitter'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPSmartPropagatorAny'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(3)
)
process.hltESPLowPtQuadStepChi2ChargeMeasurementEstimator9 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPLowPtQuadStepChi2ChargeMeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPLowPtQuadStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPLowPtQuadStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.16)
)
process.hltESPLowPtStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPLowPtStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.16)
)
process.hltESPLowPtTripletStepChi2ChargeMeasurementEstimator9 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPLowPtTripletStepChi2ChargeMeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPLowPtTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPLowPtTripletStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.16)
)
process.hltESPMeasurementTracker = cms.ESProducer("MeasurementTrackerESProducer",
ComponentName = cms.string('hltESPMeasurementTracker'),
DebugPixelModuleQualityDB = cms.untracked.bool(False),
DebugPixelROCQualityDB = cms.untracked.bool(False),
DebugStripAPVFiberQualityDB = cms.untracked.bool(False),
DebugStripModuleQualityDB = cms.untracked.bool(False),
DebugStripStripQualityDB = cms.untracked.bool(False),
HitMatcher = cms.string('StandardMatcher'),
MaskBadAPVFibers = cms.bool(True),
Phase2StripCPE = cms.string(''),
PixelCPE = cms.string('hltESPPixelCPEGeneric'),
SiStripQualityLabel = cms.string(''),
StripCPE = cms.string('hltESPStripCPEfromTrackAngle'),
UsePixelModuleQualityDB = cms.bool(True),
UsePixelROCQualityDB = cms.bool(True),
UseStripAPVFiberQualityDB = cms.bool(True),
UseStripModuleQualityDB = cms.bool(True),
UseStripStripQualityDB = cms.bool(True),
appendToDataLabel = cms.string(''),
badStripCuts = cms.PSet(
TEC = cms.PSet(
maxBad = cms.uint32(4),
maxConsecutiveBad = cms.uint32(2)
),
TIB = cms.PSet(
maxBad = cms.uint32(4),
maxConsecutiveBad = cms.uint32(2)
),
TID = cms.PSet(
maxBad = cms.uint32(4),
maxConsecutiveBad = cms.uint32(2)
),
TOB = cms.PSet(
maxBad = cms.uint32(4),
maxConsecutiveBad = cms.uint32(2)
)
)
)
process.hltESPMixedStepClusterShapeHitFilter = cms.ESProducer("ClusterShapeHitFilterESProducer",
ComponentName = cms.string('hltESPMixedStepClusterShapeHitFilter'),
PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'),
PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
)
)
process.hltESPMixedStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPMixedStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.11)
)
process.hltESPMixedTripletStepChi2ChargeMeasurementEstimator16 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPMixedTripletStepChi2ChargeMeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPMixedTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPMixedTripletStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.11)
)
process.hltESPMuonDetLayerGeometryESProducer = cms.ESProducer("MuonDetLayerGeometryESProducer")
process.hltESPMuonTransientTrackingRecHitBuilder = cms.ESProducer("MuonTransientTrackingRecHitBuilderESProducer",
ComponentName = cms.string('hltESPMuonTransientTrackingRecHitBuilder')
)
process.hltESPPixelCPEGeneric = cms.ESProducer("PixelCPEGenericESProducer",
Alpha2Order = cms.bool(True),
ClusterProbComputationFlag = cms.int32(0),
ComponentName = cms.string('hltESPPixelCPEGeneric'),
DoCosmics = cms.bool(False),
EdgeClusterErrorX = cms.double(50.0),
EdgeClusterErrorY = cms.double(85.0),
IrradiationBiasCorrection = cms.bool(True),
LoadTemplatesFromDB = cms.bool(True),
MagneticFieldRecord = cms.ESInputTag("",""),
NoTemplateErrorsWhenNoTrkAngles = cms.bool(False),
SmallPitch = cms.bool(False),
TruncatePixelCharge = cms.bool(True),
Upgrade = cms.bool(False),
UseErrorsFromTemplates = cms.bool(True),
appendToDataLabel = cms.string(''),
doLorentzFromAlignment = cms.bool(False),
eff_charge_cut_highX = cms.double(1.0),
eff_charge_cut_highY = cms.double(1.0),
eff_charge_cut_lowX = cms.double(0.0),
eff_charge_cut_lowY = cms.double(0.0),
inflate_all_errors_no_trk_angle = cms.bool(False),
inflate_errors = cms.bool(False),
lAOffset = cms.double(0.0),
lAWidthBPix = cms.double(0.0),
lAWidthFPix = cms.double(0.0),
size_cutX = cms.double(3.0),
size_cutY = cms.double(3.0),
useLAFromDB = cms.bool(True),
useLAWidthFromDB = cms.bool(False),
xerr_barrel_l1 = cms.vdouble(0.00115, 0.0012, 0.00088),
xerr_barrel_l1_def = cms.double(0.0103),
xerr_barrel_ln = cms.vdouble(0.00115, 0.0012, 0.00088),
xerr_barrel_ln_def = cms.double(0.0103),
xerr_endcap = cms.vdouble(0.002, 0.002),
xerr_endcap_def = cms.double(0.002),
yerr_barrel_l1 = cms.vdouble(
0.00375, 0.0023, 0.0025, 0.0025, 0.0023,
0.0023, 0.0021, 0.0021, 0.0024
),
yerr_barrel_l1_def = cms.double(0.0021),
yerr_barrel_ln = cms.vdouble(
0.00375, 0.0023, 0.0025, 0.0025, 0.0023,
0.0023, 0.0021, 0.0021, 0.0024
),
yerr_barrel_ln_def = cms.double(0.0021),
yerr_endcap = cms.vdouble(0.0021),
yerr_endcap_def = cms.double(0.00075)
)
process.hltESPPixelCPETemplateReco = cms.ESProducer("PixelCPETemplateRecoESProducer",
Alpha2Order = cms.bool(True),
ClusterProbComputationFlag = cms.int32(0),
ComponentName = cms.string('hltESPPixelCPETemplateReco'),
LoadTemplatesFromDB = cms.bool(True),
UseClusterSplitter = cms.bool(False),
appendToDataLabel = cms.string(''),
barrelTemplateID = cms.int32(0),
directoryWithTemplates = cms.int32(0),
doLorentzFromAlignment = cms.bool(False),
forwardTemplateID = cms.int32(0),
lAOffset = cms.double(0.0),
lAWidthBPix = cms.double(0.0),
lAWidthFPix = cms.double(0.0),
speed = cms.int32(-2),
useLAFromDB = cms.bool(True),
useLAWidthFromDB = cms.bool(True)
)
process.hltESPPixelLessStepChi2ChargeMeasurementEstimator16 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPPixelLessStepChi2ChargeMeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPPixelLessStepClusterShapeHitFilter = cms.ESProducer("ClusterShapeHitFilterESProducer",
ComponentName = cms.string('hltESPPixelLessStepClusterShapeHitFilter'),
PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'),
PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
)
)
process.hltESPPixelLessStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPPixelLessStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.11)
)
process.hltESPPixelPairStepChi2ChargeMeasurementEstimator9 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPPixelPairStepChi2ChargeMeasurementEstimator9'),
MaxChi2 = cms.double(9.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutLoose')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(15.0)
)
process.hltESPPixelPairStepChi2MeasurementEstimator25 = cms.ESProducer("Chi2MeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPPixelPairStepChi2MeasurementEstimator25'),
MaxChi2 = cms.double(25.0),
MaxDisplacement = cms.double(100.0),
MaxSagitta = cms.double(-1.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(10.0),
appendToDataLabel = cms.string(''),
nSigma = cms.double(3.0)
)
process.hltESPPixelPairTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPPixelPairTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.19)
)
process.hltESPRKTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPRKTrajectoryFitter'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
RecoGeometry = cms.string('hltESPGlobalDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(3)
)
process.hltESPRKTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPRKTrajectorySmoother'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
RecoGeometry = cms.string('hltESPGlobalDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(100.0),
minHits = cms.int32(3)
)
process.hltESPRungeKuttaTrackerPropagator = cms.ESProducer("PropagatorWithMaterialESProducer",
ComponentName = cms.string('hltESPRungeKuttaTrackerPropagator'),
Mass = cms.double(0.105),
MaxDPhi = cms.double(1.6),
PropagationDirection = cms.string('alongMomentum'),
SimpleMagneticField = cms.string(''),
ptMin = cms.double(-1.0),
useRungeKutta = cms.bool(True)
)
process.hltESPSmartPropagator = cms.ESProducer("SmartPropagatorESProducer",
ComponentName = cms.string('hltESPSmartPropagator'),
Epsilon = cms.double(5.0),
MuonPropagator = cms.string('hltESPSteppingHelixPropagatorAlong'),
PropagationDirection = cms.string('alongMomentum'),
TrackerPropagator = cms.string('PropagatorWithMaterial')
)
process.hltESPSmartPropagatorAny = cms.ESProducer("SmartPropagatorESProducer",
ComponentName = cms.string('hltESPSmartPropagatorAny'),
Epsilon = cms.double(5.0),
MuonPropagator = cms.string('SteppingHelixPropagatorAny'),
PropagationDirection = cms.string('alongMomentum'),
TrackerPropagator = cms.string('PropagatorWithMaterial')
)
process.hltESPSmartPropagatorAnyOpposite = cms.ESProducer("SmartPropagatorESProducer",
ComponentName = cms.string('hltESPSmartPropagatorAnyOpposite'),
Epsilon = cms.double(5.0),
MuonPropagator = cms.string('SteppingHelixPropagatorAny'),
PropagationDirection = cms.string('oppositeToMomentum'),
TrackerPropagator = cms.string('PropagatorWithMaterialOpposite')
)
process.hltESPSoftLeptonByDistance = cms.ESProducer("LeptonTaggerByDistanceESProducer",
distance = cms.double(0.5)
)
process.hltESPSteppingHelixPropagatorAlong = cms.ESProducer("SteppingHelixPropagatorESProducer",
ApplyRadX0Correction = cms.bool(True),
AssumeNoMaterial = cms.bool(False),
ComponentName = cms.string('hltESPSteppingHelixPropagatorAlong'),
NoErrorPropagation = cms.bool(False),
PropagationDirection = cms.string('alongMomentum'),
SetVBFPointer = cms.bool(False),
VBFName = cms.string('VolumeBasedMagneticField'),
debug = cms.bool(False),
endcapShiftInZNeg = cms.double(0.0),
endcapShiftInZPos = cms.double(0.0),
returnTangentPlane = cms.bool(True),
sendLogWarning = cms.bool(False),
useEndcapShiftsInZ = cms.bool(False),
useInTeslaFromMagField = cms.bool(False),
useIsYokeFlag = cms.bool(True),
useMagVolumes = cms.bool(True),
useMatVolumes = cms.bool(True),
useTuningForL2Speed = cms.bool(False)
)
process.hltESPSteppingHelixPropagatorOpposite = cms.ESProducer("SteppingHelixPropagatorESProducer",
ApplyRadX0Correction = cms.bool(True),
AssumeNoMaterial = cms.bool(False),
ComponentName = cms.string('hltESPSteppingHelixPropagatorOpposite'),
NoErrorPropagation = cms.bool(False),
PropagationDirection = cms.string('oppositeToMomentum'),
SetVBFPointer = cms.bool(False),
VBFName = cms.string('VolumeBasedMagneticField'),
debug = cms.bool(False),
endcapShiftInZNeg = cms.double(0.0),
endcapShiftInZPos = cms.double(0.0),
returnTangentPlane = cms.bool(True),
sendLogWarning = cms.bool(False),
useEndcapShiftsInZ = cms.bool(False),
useInTeslaFromMagField = cms.bool(False),
useIsYokeFlag = cms.bool(True),
useMagVolumes = cms.bool(True),
useMatVolumes = cms.bool(True),
useTuningForL2Speed = cms.bool(False)
)
process.hltESPStripCPEfromTrackAngle = cms.ESProducer("StripCPEESProducer",
ComponentName = cms.string('hltESPStripCPEfromTrackAngle'),
ComponentType = cms.string('StripCPEfromTrackAngle'),
parameters = cms.PSet(
mLC_P0 = cms.double(-0.326),
mLC_P1 = cms.double(0.618),
mLC_P2 = cms.double(0.3),
mTEC_P0 = cms.double(-1.885),
mTEC_P1 = cms.double(0.471),
mTIB_P0 = cms.double(-0.742),
mTIB_P1 = cms.double(0.202),
mTID_P0 = cms.double(-1.427),
mTID_P1 = cms.double(0.433),
mTOB_P0 = cms.double(-1.026),
mTOB_P1 = cms.double(0.253),
maxChgOneMIP = cms.double(6000.0),
useLegacyError = cms.bool(False)
)
)
process.hltESPTTRHBWithTrackAngle = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer",
ComponentName = cms.string('hltESPTTRHBWithTrackAngle'),
ComputeCoarseLocalPositionFromDisk = cms.bool(False),
Matcher = cms.string('StandardMatcher'),
PixelCPE = cms.string('hltESPPixelCPEGeneric'),
StripCPE = cms.string('hltESPStripCPEfromTrackAngle')
)
process.hltESPTTRHBuilderAngleAndTemplate = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer",
ComponentName = cms.string('hltESPTTRHBuilderAngleAndTemplate'),
ComputeCoarseLocalPositionFromDisk = cms.bool(False),
Matcher = cms.string('StandardMatcher'),
PixelCPE = cms.string('hltESPPixelCPETemplateReco'),
StripCPE = cms.string('hltESPStripCPEfromTrackAngle')
)
process.hltESPTTRHBuilderPixelOnly = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer",
ComponentName = cms.string('hltESPTTRHBuilderPixelOnly'),
ComputeCoarseLocalPositionFromDisk = cms.bool(False),
Matcher = cms.string('StandardMatcher'),
PixelCPE = cms.string('hltESPPixelCPEGeneric'),
StripCPE = cms.string('Fake')
)
process.hltESPTTRHBuilderWithoutAngle4PixelTriplets = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer",
ComponentName = cms.string('hltESPTTRHBuilderWithoutAngle4PixelTriplets'),
ComputeCoarseLocalPositionFromDisk = cms.bool(False),
Matcher = cms.string('StandardMatcher'),
PixelCPE = cms.string('hltESPPixelCPEGeneric'),
StripCPE = cms.string('Fake')
)
process.hltESPTobTecStepChi2ChargeMeasurementEstimator16 = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer",
ComponentName = cms.string('hltESPTobTecStepChi2ChargeMeasurementEstimator16'),
MaxChi2 = cms.double(16.0),
MaxDisplacement = cms.double(0.5),
MaxSagitta = cms.double(2.0),
MinPtForHitRecoveryInGluedDet = cms.double(1000000.0),
MinimalTolerance = cms.double(0.5),
appendToDataLabel = cms.string(''),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
),
nSigma = cms.double(3.0),
pTChargeCutThreshold = cms.double(-1.0)
)
process.hltESPTobTecStepClusterShapeHitFilter = cms.ESProducer("ClusterShapeHitFilterESProducer",
ComponentName = cms.string('hltESPTobTecStepClusterShapeHitFilter'),
PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'),
PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'),
clusterChargeCut = cms.PSet(
refToPSet_ = cms.string('HLTSiStripClusterChargeCutTight')
)
)
process.hltESPTobTecStepFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(False),
ComponentName = cms.string('hltESPTobTecStepFitterSmoother'),
EstimateCut = cms.double(30.0),
Fitter = cms.string('hltESPTobTecStepRKFitter'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(7),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(False),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPTobTecStepRKSmoother'),
appendToDataLabel = cms.string('')
)
process.hltESPTobTecStepFittingSmootherForLoopers = cms.ESProducer("KFFittingSmootherESProducer",
BreakTrajWith2ConsecutiveMissing = cms.bool(False),
ComponentName = cms.string('hltESPTobTecStepFitterSmootherForLoopers'),
EstimateCut = cms.double(30.0),
Fitter = cms.string('hltESPTobTecStepRKFitterForLoopers'),
HighEtaSwitch = cms.double(5.0),
LogPixelProbabilityCut = cms.double(-16.0),
MaxFractionOutliers = cms.double(0.3),
MaxNumberOfOutliers = cms.int32(3),
MinDof = cms.int32(2),
MinNumberOfHits = cms.int32(7),
MinNumberOfHitsHighEta = cms.int32(5),
NoInvalidHitsBeginEnd = cms.bool(False),
NoOutliersBeginEnd = cms.bool(False),
RejectTracks = cms.bool(True),
Smoother = cms.string('hltESPTobTecStepRKSmootherForLoopers'),
appendToDataLabel = cms.string('')
)
process.hltESPTobTecStepFlexibleKFFittingSmoother = cms.ESProducer("FlexibleKFFittingSmootherESProducer",
ComponentName = cms.string('hltESPTobTecStepFlexibleKFFittingSmoother'),
appendToDataLabel = cms.string(''),
looperFitter = cms.string('hltESPTobTecStepFitterSmootherForLoopers'),
standardFitter = cms.string('hltESPTobTecStepFitterSmoother')
)
process.hltESPTobTecStepRKTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPTobTecStepRKFitter'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialParabolicMf'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(7)
)
process.hltESPTobTecStepRKTrajectoryFitterForLoopers = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPTobTecStepRKFitterForLoopers'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialForLoopers'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(7)
)
process.hltESPTobTecStepRKTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPTobTecStepRKSmoother'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialParabolicMf'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(10.0),
minHits = cms.int32(7)
)
process.hltESPTobTecStepRKTrajectorySmootherForLoopers = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPTobTecStepRKSmootherForLoopers'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('PropagatorWithMaterialForLoopers'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(10.0),
minHits = cms.int32(7)
)
process.hltESPTobTecStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPTobTecStepTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(20.0),
ValidHitBonus = cms.double(5.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.09)
)
process.hltESPTrackAlgoPriorityOrder = cms.ESProducer("TrackAlgoPriorityOrderESProducer",
ComponentName = cms.string('hltESPTrackAlgoPriorityOrder'),
algoOrder = cms.vstring(),
appendToDataLabel = cms.string('')
)
process.hltESPTrackerRecoGeometryESProducer = cms.ESProducer("TrackerRecoGeometryESProducer",
appendToDataLabel = cms.string(''),
trackerGeometryLabel = cms.untracked.string(''),
usePhase2Stacks = cms.bool(False)
)
process.hltESPTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('hltESPTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(0.0),
ValidHitBonus = cms.double(100.0),
allowSharedFirstHit = cms.bool(False),
fractionShared = cms.double(0.5)
)
process.hltESPTrajectoryFitterRK = cms.ESProducer("KFTrajectoryFitterESProducer",
ComponentName = cms.string('hltESPTrajectoryFitterRK'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
minHits = cms.int32(3)
)
process.hltESPTrajectorySmootherRK = cms.ESProducer("KFTrajectorySmootherESProducer",
ComponentName = cms.string('hltESPTrajectorySmootherRK'),
Estimator = cms.string('hltESPChi2MeasurementEstimator30'),
Propagator = cms.string('hltESPRungeKuttaTrackerPropagator'),
RecoGeometry = cms.string('hltESPDummyDetLayerGeometry'),
Updator = cms.string('hltESPKFUpdator'),
appendToDataLabel = cms.string(''),
errorRescaling = cms.double(100.0),
minHits = cms.int32(3)
)
process.hltPixelTracksCleanerBySharedHits = cms.ESProducer("PixelTrackCleanerBySharedHitsESProducer",
ComponentName = cms.string('hltPixelTracksCleanerBySharedHits'),
appendToDataLabel = cms.string(''),
useQuadrupletAlgo = cms.bool(False)
)
process.hltTrackCleaner = cms.ESProducer("TrackCleanerESProducer",
ComponentName = cms.string('hltTrackCleaner'),
appendToDataLabel = cms.string('')
)
process.hoDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer",
ComponentName = cms.string('HODetIdAssociator'),
etaBinSize = cms.double(0.087),
hcalRegion = cms.int32(2),
includeBadChambers = cms.bool(False),
includeGEM = cms.bool(False),
includeME0 = cms.bool(False),
nEta = cms.int32(30),
nPhi = cms.int32(72)
)
process.multipleScatteringParametrisationMakerESProducer = cms.ESProducer("MultipleScatteringParametrisationMakerESProducer",
appendToDataLabel = cms.string('')
)
process.muonDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer",
ComponentName = cms.string('MuonDetIdAssociator'),
etaBinSize = cms.double(0.125),
hcalRegion = cms.int32(2),
includeBadChambers = cms.bool(False),
includeGEM = cms.bool(False),
includeME0 = cms.bool(False),
nEta = cms.int32(48),
nPhi = cms.int32(48)
)
process.muonSeededTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer",
ComponentName = cms.string('muonSeededTrajectoryCleanerBySharedHits'),
ComponentType = cms.string('TrajectoryCleanerBySharedHits'),
MissingHitPenalty = cms.double(1.0),
ValidHitBonus = cms.double(1000.0),
allowSharedFirstHit = cms.bool(True),
fractionShared = cms.double(0.1)
)
process.navigationSchoolESProducer = cms.ESProducer("NavigationSchoolESProducer",
ComponentName = cms.string('SimpleNavigationSchool'),
SimpleMagneticField = cms.string('ParabolicMf')
)
process.preshowerDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer",
ComponentName = cms.string('PreshowerDetIdAssociator'),
etaBinSize = cms.double(0.1),
hcalRegion = cms.int32(2),
includeBadChambers = cms.bool(False),
includeGEM = cms.bool(False),
includeME0 = cms.bool(False),
nEta = cms.int32(60),
nPhi = cms.int32(30)
)
process.siPixelGainCalibrationForHLTGPU = cms.ESProducer("SiPixelGainCalibrationForHLTGPUESProducer",
appendToDataLabel = cms.string('')
)
process.siPixelQualityESProducer = cms.ESProducer("SiPixelQualityESProducer",
siPixelQualityLabel = cms.string('')
)
process.siPixelROCsStatusAndMappingWrapperESProducer = cms.ESProducer("SiPixelROCsStatusAndMappingWrapperESProducer",
CablingMapLabel = cms.string(''),
ComponentName = cms.string(''),
UseQualityInfo = cms.bool(False),
appendToDataLabel = cms.string('')
)
process.siPixelTemplateDBObjectESProducer = cms.ESProducer("SiPixelTemplateDBObjectESProducer")
process.siStripBackPlaneCorrectionDepESProducer = cms.ESProducer("SiStripBackPlaneCorrectionDepESProducer",
BackPlaneCorrectionDeconvMode = cms.PSet(
label = cms.untracked.string('deconvolution'),
record = cms.string('SiStripBackPlaneCorrectionRcd')
),
BackPlaneCorrectionPeakMode = cms.PSet(
label = cms.untracked.string('peak'),
record = cms.string('SiStripBackPlaneCorrectionRcd')
),
LatencyRecord = cms.PSet(
label = cms.untracked.string(''),
record = cms.string('SiStripLatencyRcd')
)
)
process.siStripLorentzAngleDepESProducer = cms.ESProducer("SiStripLorentzAngleDepESProducer",
LatencyRecord = cms.PSet(
label = cms.untracked.string(''),
record = cms.string('SiStripLatencyRcd')
),
LorentzAngleDeconvMode = cms.PSet(
label = cms.untracked.string('deconvolution'),
record = cms.string('SiStripLorentzAngleRcd')
),
LorentzAnglePeakMode = cms.PSet(
label = cms.untracked.string('peak'),
record = cms.string('SiStripLorentzAngleRcd')
)
)
process.sistripconn = cms.ESProducer("SiStripConnectivity")
process.trackerTopology = cms.ESProducer("TrackerTopologyEP",
appendToDataLabel = cms.string('')
)
process.CSCChannelMapperESSource = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('CSCChannelMapperRecord')
)
process.CSCINdexerESSource = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('CSCIndexerRecord')
)
process.GlobalParametersRcdSource = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('L1TGlobalParametersRcd')
)
process.GlobalTag = cms.ESSource("PoolDBESSource",
DBParameters = cms.PSet(
authenticationPath = cms.untracked.string('.'),
connectionRetrialPeriod = cms.untracked.int32(10),
connectionRetrialTimeOut = cms.untracked.int32(60),
connectionTimeOut = cms.untracked.int32(0),
enableConnectionSharing = cms.untracked.bool(True),
enablePoolAutomaticCleanUp = cms.untracked.bool(False),
enableReadOnlySessionOnUpdateConnection = cms.untracked.bool(False),
idleConnectionCleanupPeriod = cms.untracked.int32(10),
messageLevel = cms.untracked.int32(0)
),
DumpStat = cms.untracked.bool(False),
ReconnectEachRun = cms.untracked.bool(False),
RefreshAlways = cms.untracked.bool(False),
RefreshEachRun = cms.untracked.bool(False),
RefreshOpenIOVs = cms.untracked.bool(False),
connect = cms.string('frontier://FrontierProd/CMS_CONDITIONS'),
globaltag = cms.string('122X_dataRun3_HLT_v1'),
pfnPostfix = cms.untracked.string('None'),
snapshotTime = cms.string(''),
toGet = cms.VPSet()
)
process.HcalTimeSlewEP = cms.ESSource("HcalTimeSlewEP",
appendToDataLabel = cms.string('HBHE'),
timeSlewParametersM2 = cms.VPSet(
cms.PSet(
slope = cms.double(-3.178648),
tmax = cms.double(16.0),
tzero = cms.double(23.960177)
),
cms.PSet(
slope = cms.double(-1.5610227),
tmax = cms.double(10.0),
tzero = cms.double(11.977461)
),
cms.PSet(
slope = cms.double(-1.075824),
tmax = cms.double(6.25),
tzero = cms.double(9.109694)
)
),
timeSlewParametersM3 = cms.VPSet(
cms.PSet(
cap = cms.double(6.0),
tspar0 = cms.double(12.2999),
tspar0_siPM = cms.double(0.0),
tspar1 = cms.double(-2.19142),
tspar1_siPM = cms.double(0.0),
tspar2 = cms.double(0.0),
tspar2_siPM = cms.double(0.0)
),
cms.PSet(
cap = cms.double(6.0),
tspar0 = cms.double(15.5),
tspar0_siPM = cms.double(0.0),
tspar1 = cms.double(-3.2),
tspar1_siPM = cms.double(0.0),
tspar2 = cms.double(32.0),
tspar2_siPM = cms.double(0.0)
),
cms.PSet(
cap = cms.double(6.0),
tspar0 = cms.double(12.2999),
tspar0_siPM = cms.double(0.0),
tspar1 = cms.double(-2.19142),
tspar1_siPM = cms.double(0.0),
tspar2 = cms.double(0.0),
tspar2_siPM = cms.double(0.0)
),
cms.PSet(
cap = cms.double(6.0),
tspar0 = cms.double(12.2999),
tspar0_siPM = cms.double(0.0),
tspar1 = cms.double(-2.19142),
tspar1_siPM = cms.double(0.0),
tspar2 = cms.double(0.0),
tspar2_siPM = cms.double(0.0)
)
)
)
process.HepPDTESSource = cms.ESSource("HepPDTESSource",
pdtFileName = cms.FileInPath('SimGeneral/HepPDTESSource/data/pythiaparticle.tbl')
)
process.ecalMultifitParametersGPUESProducer = cms.ESSource("EcalMultifitParametersGPUESProducer",
EBamplitudeFitParameters = cms.vdouble(1.138, 1.652),
EBtimeFitParameters = cms.vdouble(
-2.015452, 3.130702, -12.3473, 41.88921, -82.83944,
91.01147, -50.35761, 11.05621
),
EEamplitudeFitParameters = cms.vdouble(1.89, 1.4),
EEtimeFitParameters = cms.vdouble(
-2.390548, 3.553628, -17.62341, 67.67538, -133.213,
140.7432, -75.41106, 16.20277
),
appendToDataLabel = cms.string(''),
pulseOffsets = cms.vint32(
-3, -2, -1, 0, 1,
2, 3, 4
)
)
process.ecalRecHitParametersGPUESProducer = cms.ESSource("EcalRecHitParametersGPUESProducer",
ChannelStatusToBeExcluded = cms.vstring(
'kDAC',
'kNoisy',
'kNNoisy',
'kFixedG6',
'kFixedG1',
'kFixedG0',
'kNonRespondingIsolated',
'kDeadVFE',
'kDeadFE',
'kNoDataNoTP'
),
appendToDataLabel = cms.string(''),
flagsMapDBReco = cms.PSet(
kDead = cms.vstring('kNoDataNoTP'),
kGood = cms.vstring(
'kOk',
'kDAC',
'kNoLaser',
'kNoisy'
),
kNeighboursRecovered = cms.vstring(
'kFixedG0',
'kNonRespondingIsolated',
'kDeadVFE'
),
kNoisy = cms.vstring(
'kNNoisy',
'kFixedG6',
'kFixedG1'
),
kTowerRecovered = cms.vstring('kDeadFE')
)
)
process.eegeom = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('EcalMappingRcd')
)
process.es_hardcode = cms.ESSource("HcalHardcodeCalibrations",
fromDDD = cms.untracked.bool(False),
toGet = cms.untracked.vstring('GainWidths')
)
process.hcalMahiPulseOffsetsGPUESProducer = cms.ESSource("HcalMahiPulseOffsetsGPUESProducer",
appendToDataLabel = cms.string(''),
pulseOffsets = cms.vint32(
-3, -2, -1, 0, 1,
2, 3, 4
)
)
process.hltESSBTagRecord = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('JetTagComputerRecord')
)
process.hltESSEcalSeverityLevel = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('EcalSeverityLevelAlgoRcd')
)
process.hltESSHcalSeverityLevel = cms.ESSource("EmptyESSource",
firstValid = cms.vuint32(1),
iovIsRunNotTime = cms.bool(True),
recordName = cms.string('HcalSeverityLevelComputerRcd')
)
process.ppsPixelTopologyESSource = cms.ESSource("PPSPixelTopologyESSource",
PitchSimX = cms.double(0.1),
PitchSimY = cms.double(0.15),
RunType = cms.string('Run3'),
activeEdgeSigma = cms.double(0.02),
appendToDataLabel = cms.string(''),
deadEdgeWidth = cms.double(0.2),
noOfPixelSimX = cms.int32(160),
noOfPixelSimY = cms.int32(104),
noOfPixels = cms.int32(16640),
physActiveEdgeDist = cms.double(0.15),
simXWidth = cms.double(16.6),
simYWidth = cms.double(16.2),
thickness = cms.double(0.23)
)
process.HLTDoLocalPixelTask = cms.Task(process.hltOnlineBeamSpotToCUDA, process.hltSiPixelClusters, process.hltSiPixelClustersCUDA, process.hltSiPixelClustersCache, process.hltSiPixelClustersLegacy, process.hltSiPixelDigiErrorsSoA, process.hltSiPixelDigis, process.hltSiPixelDigisLegacy, process.hltSiPixelDigisSoA, process.hltSiPixelRecHitSoA, process.hltSiPixelRecHits, process.hltSiPixelRecHitsCUDA)
process.HLTRecoPixelTracksTask = cms.Task(process.hltPixelTracks, process.hltPixelTracksCUDA, process.hltPixelTracksSoA, process.hltPixelTracksTrackingRegions)
process.HLTRecopixelvertexingTask = cms.Task(process.HLTRecoPixelTracksTask, process.hltPixelVertices, process.hltPixelVerticesCUDA, process.hltPixelVerticesSoA, process.hltTrimmedPixelVertices)
process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerTask = cms.Task(process.hltEcalDetIdToBeRecovered, process.hltEcalDigis, process.hltEcalDigisGPU, process.hltEcalDigisLegacy, process.hltEcalRecHit, process.hltEcalUncalibRecHit, process.hltEcalUncalibRecHitGPU, process.hltEcalUncalibRecHitSoA)
process.HLTPreshowerTask = cms.Task(process.hltEcalPreshowerDigis, process.hltEcalPreshowerRecHit)
process.HLTDoFullUnpackingEgammaEcalTask = cms.Task(process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerTask, process.HLTPreshowerTask)
process.HLTDoLocalHcalTask = cms.Task(process.hltHbhereco, process.hltHbherecoFromGPU, process.hltHbherecoGPU, process.hltHcalDigis, process.hltHcalDigisGPU, process.hltHfprereco, process.hltHfreco, process.hltHoreco)
process.HLTStoppedHSCPLocalHcalRecoTask = cms.Task(process.hltHbhereco, process.hltHbherecoFromGPU, process.hltHbherecoGPU, process.hltHcalDigis, process.hltHcalDigisGPU)
process.HLTL1UnpackerSequence = cms.Sequence(process.hltGtStage2Digis+process.hltGtStage2ObjectMap)
process.HLTBeamSpot = cms.Sequence(process.hltScalersRawToDigi+process.hltOnlineMetaDataDigis+process.hltOnlineBeamSpot)
process.HLTBeginSequence = cms.Sequence(process.hltTriggerType+process.HLTL1UnpackerSequence+process.HLTBeamSpot)
process.HLTAK8CaloCorrectorProducersSequence = cms.Sequence(process.hltAK8CaloFastJetCorrector+process.hltAK8CaloRelativeCorrector+process.hltAK8CaloAbsoluteCorrector+process.hltAK8CaloResidualCorrector+process.hltAK8CaloCorrector)
process.HLTAK8CaloJetsCorrectionSequence = cms.Sequence(process.hltFixedGridRhoFastjetAllCalo+process.HLTAK8CaloCorrectorProducersSequence+process.hltAK8CaloJetsCorrected+process.hltAK8CaloJetsCorrectedIDPassed)
process.HLTDoLocalStripSequence = cms.Sequence(process.hltSiStripExcludedFEDListProducer+process.hltSiStripRawToClustersFacility+process.hltSiStripClusters)
process.HLTIterL3OImuonTkCandidateSequence = cms.Sequence(process.hltIterL3OISeedsFromL2Muons+process.hltIterL3OITrackCandidates+process.hltIterL3OIMuCtfWithMaterialTracks+process.hltIterL3OIMuonTrackCutClassifier+process.hltIterL3OIMuonTrackSelectionHighPurity+process.hltL3MuonsIterL3OI)
process.HLTIterL3MuonRecoPixelTracksSequence = cms.Sequence(process.hltIterL3MuonPixelTracksFilter+process.hltIterL3MuonPixelTracksFitter+process.hltIterL3MuonPixelTracksTrackingRegions+process.hltIterL3MuonPixelLayerQuadruplets+process.hltIterL3MuonPixelTracksHitDoublets+process.hltIterL3MuonPixelTracksHitQuadruplets+process.hltIterL3MuonPixelTracks)
process.HLTIterativeTrackingIteration2ForIterL3Muon = cms.Sequence(process.hltIter2IterL3MuonClustersRefRemoval+process.hltIter2IterL3MuonMaskedMeasurementTrackerEvent+process.hltIter2IterL3MuonPixelLayerTriplets+process.hltIter2IterL3MuonPixelClusterCheck+process.hltIter2IterL3MuonPixelHitDoublets+process.hltIter2IterL3MuonPixelHitTriplets+process.hltIter2IterL3MuonPixelSeeds+process.hltIter2IterL3MuonCkfTrackCandidates+process.hltIter2IterL3MuonCtfWithMaterialTracks+process.hltIter2IterL3MuonTrackCutClassifier+process.hltIter2IterL3MuonTrackSelectionHighPurity)
process.HLTIterativeTrackingIteration3ForIterL3Muon = cms.Sequence(process.hltIter3IterL3MuonClustersRefRemoval+process.hltIter3IterL3MuonMaskedMeasurementTrackerEvent+process.hltIter3IterL3MuonPixelLayerPairs+process.hltIter3IterL3MuonL2Candidates+process.hltIter3IterL3MuonTrackingRegions+process.hltIter3IterL3MuonPixelClusterCheck+process.hltIter3IterL3MuonPixelHitDoublets+process.hltIter3IterL3MuonPixelSeeds+process.hltIter3IterL3MuonCkfTrackCandidates+process.hltIter3IterL3MuonCtfWithMaterialTracks+process.hltIter3IterL3MuonTrackCutClassifier+process.hltIter3IterL3MuonTrackSelectionHighPurity)
process.HLTRecoPixelTracksSequenceForIterL3FromL1Muon = cms.Sequence(process.hltIterL3FromL1MuonPixelTracksTrackingRegions+process.hltIterL3FromL1MuonPixelLayerQuadruplets+process.hltIterL3FromL1MuonPixelTracksHitDoublets+process.hltIterL3FromL1MuonPixelTracksHitQuadruplets+process.hltIterL3FromL1MuonPixelTracks)
process.HLTIterativeTrackingIteration2ForIterL3FromL1Muon = cms.Sequence(process.hltIter2IterL3FromL1MuonClustersRefRemoval+process.hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEvent+process.hltIter2IterL3FromL1MuonPixelLayerTriplets+process.hltIter2IterL3FromL1MuonPixelClusterCheck+process.hltIter2IterL3FromL1MuonPixelHitDoublets+process.hltIter2IterL3FromL1MuonPixelHitTriplets+process.hltIter2IterL3FromL1MuonPixelSeeds+process.hltIter2IterL3FromL1MuonCkfTrackCandidates+process.hltIter2IterL3FromL1MuonCtfWithMaterialTracks+process.hltIter2IterL3FromL1MuonTrackCutClassifier+process.hltIter2IterL3FromL1MuonTrackSelectionHighPurity)
process.HLTIterativeTrackingIteration3ForIterL3FromL1Muon = cms.Sequence(process.hltIter3IterL3FromL1MuonClustersRefRemoval+process.hltIter3IterL3FromL1MuonMaskedMeasurementTrackerEvent+process.hltIter3IterL3FromL1MuonPixelLayerPairs+process.hltIter3IterL3FromL1MuonTrackingRegions+process.hltIter3IterL3FromL1MuonPixelClusterCheck+process.hltIter3IterL3FromL1MuonPixelHitDoublets+process.hltIter3IterL3FromL1MuonPixelSeeds+process.hltIter3IterL3FromL1MuonCkfTrackCandidates+process.hltIter3IterL3FromL1MuonCtfWithMaterialTracks+process.hltIter3IterL3FromL1MuonTrackCutClassifier+process.hltIter3IterL3FromL1MuonTrackSelectionHighPurity)
process.HLTIterativeTrackingIteration1 = cms.Sequence(process.hltIter1ClustersRefRemoval+process.hltIter1MaskedMeasurementTrackerEvent+process.hltIter1PixelLayerQuadruplets+process.hltIter1PFlowPixelTrackingRegions+process.hltIter1PFlowPixelClusterCheck+process.hltIter1PFlowPixelHitDoublets+process.hltIter1PFlowPixelHitQuadruplets+process.hltIter1PixelTracks+process.hltIter1PFLowPixelSeedsFromPixelTracks+process.hltIter1PFlowCkfTrackCandidates+process.hltIter1PFlowCtfWithMaterialTracks+process.hltIter1PFlowTrackCutClassifierPrompt+process.hltIter1PFlowTrackCutClassifierDetached+process.hltIter1PFlowTrackCutClassifierMerged+process.hltIter1PFlowTrackSelectionHighPurity)
process.HLTIter1TrackAndTauJets4Iter2Sequence = cms.Sequence(process.hltIter1TrackRefsForJets4Iter2+process.hltAK4Iter1TrackJets4Iter2+process.hltIter1TrackAndTauJets4Iter2)
process.HLTIterativeTrackingIteration2 = cms.Sequence(process.hltIter2ClustersRefRemoval+process.hltIter2MaskedMeasurementTrackerEvent+process.hltIter2PixelLayerTriplets+process.hltIter2PFlowPixelTrackingRegions+process.hltIter2PFlowPixelClusterCheck+process.hltIter2PFlowPixelHitDoublets+process.hltIter2PFlowPixelHitTriplets+process.hltIter2PFlowPixelSeeds+process.hltIter2PFlowCkfTrackCandidates+process.hltIter2PFlowCtfWithMaterialTracks+process.hltIter2PFlowTrackCutClassifier+process.hltIter2PFlowTrackSelectionHighPurity)
process.HLTIterativeTrackingDoubletRecovery = cms.Sequence(process.hltDoubletRecoveryClustersRefRemoval+process.hltDoubletRecoveryMaskedMeasurementTrackerEvent+process.hltDoubletRecoveryPixelLayersAndRegions+process.hltDoubletRecoveryPFlowPixelClusterCheck+process.hltDoubletRecoveryPFlowPixelHitDoublets+process.hltDoubletRecoveryPFlowPixelSeeds+process.hltDoubletRecoveryPFlowCkfTrackCandidates+process.hltDoubletRecoveryPFlowCtfWithMaterialTracks+process.hltDoubletRecoveryPFlowTrackCutClassifier+process.hltDoubletRecoveryPFlowTrackSelectionHighPurity)
process.HLTAK8PFCorrectorProducersSequence = cms.Sequence(process.hltAK8PFFastJetCorrector+process.hltAK8PFRelativeCorrector+process.hltAK8PFAbsoluteCorrector+process.hltAK8PFResidualCorrector+process.hltAK8PFCorrector)
process.HLTAK8PFJetsCorrectionSequence = cms.Sequence(process.hltFixedGridRhoFastjetAll+process.HLTAK8PFCorrectorProducersSequence+process.hltAK8PFJetsCorrected+process.hltAK8PFJetsLooseIDCorrected+process.hltAK8PFJetsTightIDCorrected)
process.HLTEndSequence = cms.Sequence(process.hltBoolEnd)
process.HLTAK4CaloCorrectorProducersSequence = cms.Sequence(process.hltAK4CaloFastJetCorrector+process.hltAK4CaloRelativeCorrector+process.hltAK4CaloAbsoluteCorrector+process.hltAK4CaloResidualCorrector+process.hltAK4CaloCorrector)
process.HLTAK4CaloJetsCorrectionNoIDSequence = cms.Sequence(process.hltFixedGridRhoFastjetAllCalo+process.HLTAK4CaloCorrectorProducersSequence+process.hltAK4CaloJetsCorrected)
process.HLTPFClusteringForEgamma = cms.Sequence(process.hltRechitInRegionsECAL+process.hltRechitInRegionsES+process.hltParticleFlowRecHitECALL1Seeded+process.hltParticleFlowRecHitPSL1Seeded+process.hltParticleFlowClusterPSL1Seeded+process.hltParticleFlowClusterECALUncorrectedL1Seeded+process.hltParticleFlowClusterECALL1Seeded+process.hltParticleFlowSuperClusterECALL1Seeded)
process.HLTFastJetForEgamma = cms.Sequence(process.hltTowerMakerForAll+process.hltFixedGridRhoFastjetAllCaloForMuons)
process.HLTGsfElectronSequence = cms.Sequence(process.hltEgammaCkfTrackCandidatesForGSF+process.hltEgammaGsfTracks+process.hltEgammaGsfElectrons+process.hltEgammaGsfTrackVars)
process.HLTIterL3OImuonTkCandidateOpenMuSequence = cms.Sequence(process.hltIterL3OISeedsFromL2MuonsOpenMu+process.hltIterL3OITrackCandidatesOpenMu+process.hltIterL3OIMuCtfWithMaterialTracksOpenMu+process.hltIterL3OIMuonTrackCutClassifierOpenMu+process.hltIterL3OIMuonTrackSelectionHighPurityOpenMu+process.hltL3MuonsIterL3OIOpenMu)
process.HLTIterL3MuonRecoPixelTracksOpenMuSequence = cms.Sequence(process.hltIterL3MuonPixelTracksFilter+process.hltIterL3MuonPixelTracksFitter+process.hltIterL3MuonPixelTracksTrackingRegionsOpenMu+process.hltIterL3MuonPixelLayerQuadruplets+process.hltIterL3MuonPixelTracksHitDoubletsOpenMu+process.hltIterL3MuonPixelTracksHitQuadrupletsOpenMu+process.hltIterL3MuonPixelTracksOpenMu)
process.HLTIterL3MuonRecopixelvertexingOpenMuSequence = cms.Sequence(process.HLTIterL3MuonRecoPixelTracksOpenMuSequence+process.hltIterL3MuonPixelVerticesOpenMu+process.hltIterL3MuonTrimmedPixelVerticesOpenMu)
process.HLTIterativeTrackingIteration0ForIterL3MuonOpenMu = cms.Sequence(process.hltIter0IterL3MuonPixelSeedsFromPixelTracksOpenMu+process.hltIter0IterL3MuonCkfTrackCandidatesOpenMu+process.hltIter0IterL3MuonCtfWithMaterialTracksOpenMu+process.hltIter0IterL3MuonTrackCutClassifierOpenMu+process.hltIter0IterL3MuonTrackSelectionHighPurityOpenMu)
process.HLTIterativeTrackingIteration2ForIterL3MuonOpenMu = cms.Sequence(process.hltIter2IterL3MuonClustersRefRemovalOpenMu+process.hltIter2IterL3MuonMaskedMeasurementTrackerEventOpenMu+process.hltIter2IterL3MuonPixelLayerTripletsOpenMu+process.hltIter2IterL3MuonPixelClusterCheck+process.hltIter2IterL3MuonPixelHitDoubletsOpenMu+process.hltIter2IterL3MuonPixelHitTripletsOpenMu+process.hltIter2IterL3MuonPixelSeedsOpenMu+process.hltIter2IterL3MuonCkfTrackCandidatesOpenMu+process.hltIter2IterL3MuonCtfWithMaterialTracksOpenMu+process.hltIter2IterL3MuonTrackCutClassifierOpenMu+process.hltIter2IterL3MuonTrackSelectionHighPurityOpenMu)
process.HLTIterativeTrackingIter02ForIterL3MuonOpenMu = cms.Sequence(process.HLTIterativeTrackingIteration0ForIterL3MuonOpenMu+process.HLTIterativeTrackingIteration2ForIterL3MuonOpenMu+process.hltIter2IterL3MuonMergedOpenMu)
process.HLTIterL3IOmuonTkCandidateOpenMuSequence = cms.Sequence(process.HLTIterL3MuonRecopixelvertexingOpenMuSequence+process.HLTIterativeTrackingIter02ForIterL3MuonOpenMu+process.hltL3MuonsIterL3IOOpenMu)
process.HLTIterL3OIAndIOFromL2muonTkCandidateOpenMuSequence = cms.Sequence(process.HLTIterL3OImuonTkCandidateOpenMuSequence+process.hltIterL3OIL3MuonsLinksCombinationOpenMu+process.hltIterL3OIL3MuonsOpenMu+process.hltIterL3OIL3MuonCandidatesOpenMu+process.hltL2SelectorForL3IOOpenMu+process.HLTIterL3IOmuonTkCandidateOpenMuSequence+process.hltIterL3MuonsFromL2LinksCombinationOpenMu+process.hltIterL3MuonsFromL2OpenMu)
process.HLTRecoPixelTracksSequenceForIterL3FromL1MuonOpenMu = cms.Sequence(process.hltIterL3FromL1MuonPixelTracksTrackingRegionsOpenMu+process.hltIterL3FromL1MuonPixelLayerQuadrupletsOpenMu+process.hltIterL3FromL1MuonPixelTracksHitDoubletsOpenMu+process.hltIterL3FromL1MuonPixelTracksHitQuadrupletsOpenMu+process.hltIterL3FromL1MuonPixelTracksOpenMu)
process.HLTRecopixelvertexingSequenceForIterL3FromL1MuonOpenMu = cms.Sequence(process.HLTRecoPixelTracksSequenceForIterL3FromL1MuonOpenMu+process.hltIterL3FromL1MuonPixelVerticesOpenMu+process.hltIterL3FromL1MuonTrimmedPixelVerticesOpenMu)
process.HLTIterativeTrackingIteration0ForIterL3FromL1MuonOpenMu = cms.Sequence(process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksOpenMu+process.hltIter0IterL3FromL1MuonCkfTrackCandidatesOpenMu+process.hltIter0IterL3FromL1MuonCtfWithMaterialTracksOpenMu+process.hltIter0IterL3FromL1MuonTrackCutClassifierOpenMu+process.hltIter0IterL3FromL1MuonTrackSelectionHighPurityOpenMu)
process.HLTIterativeTrackingIteration2ForIterL3FromL1MuonOpenMu = cms.Sequence(process.hltIter2IterL3FromL1MuonClustersRefRemovalOpenMu+process.hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventOpenMu+process.hltIter2IterL3FromL1MuonPixelLayerTripletsOpenMu+process.hltIter2IterL3FromL1MuonPixelClusterCheckOpenMu+process.hltIter2IterL3FromL1MuonPixelHitDoubletsOpenMu+process.hltIter2IterL3FromL1MuonPixelHitTripletsOpenMu+process.hltIter2IterL3FromL1MuonPixelSeedsOpenMu+process.hltIter2IterL3FromL1MuonCkfTrackCandidatesOpenMu+process.hltIter2IterL3FromL1MuonCtfWithMaterialTracksOpenMu+process.hltIter2IterL3FromL1MuonTrackCutClassifierOpenMu+process.hltIter2IterL3FromL1MuonTrackSelectionHighPurityOpenMu)
process.HLTIterativeTrackingIter02ForIterL3FromL1MuonOpenMu = cms.Sequence(process.HLTIterativeTrackingIteration0ForIterL3FromL1MuonOpenMu+process.HLTIterativeTrackingIteration2ForIterL3FromL1MuonOpenMu+process.hltIter2IterL3FromL1MuonMergedOpenMu)
process.HLTIterL3IOmuonFromL1TkCandidateOpenMuSequence = cms.Sequence(process.HLTRecopixelvertexingSequenceForIterL3FromL1MuonOpenMu+process.HLTIterativeTrackingIter02ForIterL3FromL1MuonOpenMu)
process.HLTPFClusteringForEgammaUnseeded = cms.Sequence(process.hltParticleFlowRecHitECALUnseeded+process.hltParticleFlowRecHitPSUnseeded+process.hltParticleFlowClusterPSUnseeded+process.hltParticleFlowClusterECALUncorrectedUnseeded+process.hltParticleFlowClusterECALUnseeded+process.hltParticleFlowSuperClusterECALUnseeded)
process.HLTPFHcalClustering = cms.Sequence(process.hltParticleFlowRecHitHBHE+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL)
process.HLTAK4PFCorrectorProducersSequence = cms.Sequence(process.hltAK4PFFastJetCorrector+process.hltAK4PFRelativeCorrector+process.hltAK4PFAbsoluteCorrector+process.hltAK4PFResidualCorrector+process.hltAK4PFCorrector)
process.HLTAK4PFJetsCorrectionSequence = cms.Sequence(process.hltFixedGridRhoFastjetAll+process.HLTAK4PFCorrectorProducersSequence+process.hltAK4PFJetsCorrected+process.hltAK4PFJetsLooseIDCorrected+process.hltAK4PFJetsTightIDCorrected)
process.HLTIterativeTrackingDisplacedJpsiIteration0 = cms.Sequence(process.hltPixelTracksForSeedsJpsiFilter+process.hltPixelTracksForSeedsJpsiFitter+process.hltPixelTracksTrackingRegionsForSeedsJpsi+process.hltPixelLayerQuadruplets+process.hltPixelTracksHitDoubletsForSeedsJpsi+process.hltPixelTracksHitQuadrupletsForSeedsJpsi+process.hltPixelTracksForSeedsJpsi+process.hltIter0DisplacedJpsiPixelSeedsFromPixelTracks+process.hltIter0DisplacedJpsiCkfTrackCandidates+process.hltIter0DisplacedJpsiCtfWithMaterialTracks+process.hltIter0DisplacedJpsiTrackCutClassifier+process.hltIter0DisplacedJpsiTrackSelectionHighPurity)
process.HLTIterativeTrackingDisplacedJpsiIteration1 = cms.Sequence(process.hltIter1DisplacedJpsiClustersRefRemoval+process.hltIter1DisplacedJpsiMaskedMeasurementTrackerEvent+process.hltIter1DisplacedJpsiPixelLayerQuadruplets+process.hltIter1DisplacedJpsiPixelTrackingRegions+process.hltIter1DisplacedJpsiPixelClusterCheck+process.hltIter1DisplacedJpsiPixelHitDoublets+process.hltIter1DisplacedJpsiPixelHitQuadruplets+process.hltIter1DisplacedJpsiPixelSeeds+process.hltIter1DisplacedJpsiCkfTrackCandidates+process.hltIter1DisplacedJpsiCtfWithMaterialTracks+process.hltIter1DisplacedJpsiTrackCutClassifierPrompt+process.hltIter1DisplacedJpsiTrackCutClassifierDetached+process.hltIter1DisplacedJpsiTrackCutClassifierMerged+process.hltIter1DisplacedJpsiTrackSelectionHighPurity)
process.HLTIterativeTrackingDisplacedJpsiIteration2 = cms.Sequence(process.hltIter2DisplacedJpsiClustersRefRemoval+process.hltIter2DisplacedJpsiMaskedMeasurementTrackerEvent+process.hltIter2DisplacedJpsiPixelLayerTriplets+process.hltIter2DisplacedJpsiPixelTrackingRegions+process.hltIter2DisplacedJpsiPixelClusterCheck+process.hltIter2DisplacedJpsiPixelHitDoublets+process.hltIter2DisplacedJpsiPixelHitTriplets+process.hltIter2DisplacedJpsiPixelSeeds+process.hltIter2DisplacedJpsiCkfTrackCandidates+process.hltIter2DisplacedJpsiCtfWithMaterialTracks+process.hltIter2DisplacedJpsiTrackCutClassifier+process.hltIter2DisplacedJpsiTrackSelectionHighPurity)
process.HLTIterativeTrackingTripletRecoveryDisplacedJpsiReg = cms.Sequence(process.hltTripletRecoveryClustersRefRemovalDisplacedJpsiReg+process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg+process.hltTripletRecoveryPixelLayerTripletsDisplacedJpsiReg+process.hltTripletRecoveryPixelTrackingRegionsDisplacedJpsiReg+process.hltTripletRecoveryPixelClusterCheckDisplacedJpsiReg+process.hltTripletRecoveryPixelHitDoubletsDisplacedJpsiReg+process.hltTripletRecoveryPixelHitTripletsDisplacedJpsiReg+process.hltTripletRecoveryPixelSeedsDisplacedJpsiReg+process.hltTripletRecoveryCkfTrackCandidatesDisplacedJpsiReg+process.hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiReg+process.hltTripletRecoveryTrackCutClassifierDisplacedJpsiReg+process.hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiReg)
process.HLTIterativeTrackingDoubletRecoveryDisplacedJpsiReg = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalDisplacedJpsiReg+process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiReg+process.hltDoubletRecoveryPixelLayerPairsDisplacedJpsiReg+process.hltDoubletRecoveryPixelClusterCheckDisplacedJpsiReg+process.hltDoubletRecoveryPixelHitDoubletsDisplacedJpsiReg+process.hltDoubletRecoveryPixelSeedsDisplacedJpsiReg+process.hltDoubletRecoveryCkfTrackCandidatesDisplacedJpsiReg+process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiReg+process.hltDoubletRecoveryTrackCutClassifierDisplacedJpsiReg+process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiReg)
process.HLTIterativeTrackingDisplacedJpsiIter02 = cms.Sequence(process.HLTIterativeTrackingDisplacedJpsiIteration0+process.HLTIterativeTrackingDisplacedJpsiIteration1+process.hltIter1DisplacedJpsiMerged+process.HLTIterativeTrackingDisplacedJpsiIteration2+process.hltIter2DisplacedJpsiMerged+process.HLTIterativeTrackingTripletRecoveryDisplacedJpsiReg+process.hltTripletRecoveryMergedDisplacedJpsiReg+process.HLTIterativeTrackingDoubletRecoveryDisplacedJpsiReg+process.hltMergedTracksDisplacedJpsiReg)
process.HLTIterativeTrackingDisplacedNRIteration0 = cms.Sequence(process.hltPixelTracksForSeedsNRFilter+process.hltPixelTracksForSeedsNRFitter+process.hltPixelTracksTrackingRegionsForSeedsNR+process.hltPixelLayerQuadruplets+process.hltPixelTracksHitDoubletsForSeedsNR+process.hltPixelTracksHitQuadrupletsForSeedsNR+process.hltPixelTracksForSeedsNR+process.hltIter0DisplacedNRPixelSeedsFromPixelTracks+process.hltIter0DisplacedNRCkfTrackCandidates+process.hltIter0DisplacedNRCtfWithMaterialTracks+process.hltIter0DisplacedNRTrackCutClassifier+process.hltIter0DisplacedNRTrackSelectionHighPurity)
process.HLTIterativeTrackingDisplacedNRIteration1 = cms.Sequence(process.hltIter1DisplacedNRClustersRefRemoval+process.hltIter1DisplacedNRMaskedMeasurementTrackerEvent+process.hltIter1DisplacedNRPixelLayerQuadruplets+process.hltIter1DisplacedNRPixelTrackingRegions+process.hltIter1DisplacedNRPixelClusterCheck+process.hltIter1DisplacedNRPixelHitDoublets+process.hltIter1DisplacedNRPixelHitQuadruplets+process.hltIter1DisplacedNRPixelSeeds+process.hltIter1DisplacedNRCkfTrackCandidates+process.hltIter1DisplacedNRCtfWithMaterialTracks+process.hltIter1DisplacedNRTrackCutClassifierPrompt+process.hltIter1DisplacedNRTrackCutClassifierDetached+process.hltIter1DisplacedNRTrackCutClassifierMerged+process.hltIter1DisplacedNRTrackSelectionHighPurity)
process.HLTIterativeTrackingDisplacedNRIteration2 = cms.Sequence(process.hltIter2DisplacedNRClustersRefRemoval+process.hltIter2DisplacedNRMaskedMeasurementTrackerEvent+process.hltIter2DisplacedNRPixelLayerTriplets+process.hltIter2DisplacedNRPixelTrackingRegions+process.hltIter2DisplacedNRPixelClusterCheck+process.hltIter2DisplacedNRPixelHitDoublets+process.hltIter2DisplacedNRPixelHitTriplets+process.hltIter2DisplacedNRPixelSeeds+process.hltIter2DisplacedNRCkfTrackCandidates+process.hltIter2DisplacedNRCtfWithMaterialTracks+process.hltIter2DisplacedNRTrackCutClassifier+process.hltIter2DisplacedNRTrackSelectionHighPurity)
process.HLTIterativeTrackingTripletRecoveryDisplacedNRReg = cms.Sequence(process.hltTripletRecoveryClustersRefRemovalDisplacedNRReg+process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg+process.hltTripletRecoveryPixelLayerTripletsDisplacedNRReg+process.hltTripletRecoveryPixelTrackingRegionsDisplacedNRReg+process.hltTripletRecoveryPixelClusterCheckDisplacedNRReg+process.hltTripletRecoveryPixelHitDoubletsDisplacedNRReg+process.hltTripletRecoveryPixelHitTripletsDisplacedNRReg+process.hltTripletRecoveryPixelSeedsDisplacedNRReg+process.hltTripletRecoveryCkfTrackCandidatesDisplacedNRReg+process.hltTripletRecoveryCtfWithMaterialTracksDisplacedNRReg+process.hltTripletRecoveryTrackCutClassifierDisplacedNRReg+process.hltTripletRecoveryTrackSelectionHighPurityDisplacedNRReg)
process.HLTIterativeTrackingDoubletRecoveryDisplacedNRReg = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalDisplacedNRReg+process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedNRReg+process.hltDoubletRecoveryPixelLayerPairsDisplacedNRReg+process.hltDoubletRecoveryPixelClusterCheckDisplacedNRReg+process.hltDoubletRecoveryPixelHitDoubletsDisplacedNRReg+process.hltDoubletRecoveryPixelSeedsDisplacedNRReg+process.hltDoubletRecoveryCkfTrackCandidatesDisplacedNRReg+process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedNRReg+process.hltDoubletRecoveryTrackCutClassifierDisplacedNRReg+process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedNRReg)
process.HLTIterativeTrackingDisplacedNRIter02 = cms.Sequence(process.HLTIterativeTrackingDisplacedNRIteration0+process.HLTIterativeTrackingDisplacedNRIteration1+process.hltIter1DisplacedNRMuMuMerged+process.HLTIterativeTrackingDisplacedNRIteration2+process.hltIter2DisplacedNRMuMuMerged+process.HLTIterativeTrackingTripletRecoveryDisplacedNRReg+process.hltTripletRecoveryMergedDisplacedNRMuMuReg+process.HLTIterativeTrackingDoubletRecoveryDisplacedNRReg+process.hltMergedTracksDisplacedNRMuMuReg)
process.HLTIterativeTrackingTau3muIteration0 = cms.Sequence(process.hltPixelTracksForSeedsTau3muFilter+process.hltPixelTracksForSeedsTau3muFitter+process.hltPixelTracksTrackingRegionsForSeedsTau3mu+process.hltPixelLayerQuadruplets+process.hltPixelTracksHitDoubletsForSeedsTau3mu+process.hltPixelTracksHitQuadrupletsForSeedsTau3mu+process.hltPixelTracksForSeedsTau3mu+process.hltIter0DisplacedTau3muPixelSeedsFromPixelTracks+process.hltIter0DisplacedTau3muCkfTrackCandidates+process.hltIter0DisplacedTau3muCtfWithMaterialTracks+process.hltIter0DisplacedTau3muTrackCutClassifier+process.hltIter0DisplacedTau3muTrackSelectionHighPurity)
process.HLTIterativeTrackingTau3muIteration1 = cms.Sequence(process.hltIter1DisplacedTau3muClustersRefRemoval+process.hltIter1DisplacedTau3muMaskedMeasurementTrackerEvent+process.hltIter1DisplacedTau3muPixelLayerQuadruplets+process.hltIter1DisplacedTau3muPixelTrackingRegions+process.hltIter1DisplacedTau3muPixelClusterCheck+process.hltIter1DisplacedTau3muPixelHitDoublets+process.hltIter1DisplacedTau3muPixelHitQuadruplets+process.hltIter1DisplacedTau3muPixelSeeds+process.hltIter1DisplacedTau3muCkfTrackCandidates+process.hltIter1DisplacedTau3muCtfWithMaterialTracks+process.hltIter1DisplacedTau3muTrackCutClassifierPrompt+process.hltIter1DisplacedTau3muTrackCutClassifierDetached+process.hltIter1DisplacedTau3muTrackCutClassifierMerged+process.hltIter1DisplacedTau3muTrackSelectionHighPurity)
process.HLTIterativeTrackingTau3muIteration2 = cms.Sequence(process.hltIter2DisplacedTau3muClustersRefRemoval+process.hltIter2DisplacedTau3muMaskedMeasurementTrackerEvent+process.hltIter2DisplacedTau3muPixelLayerTriplets+process.hltIter2DisplacedTau3muPixelTrackingRegions+process.hltIter2DisplacedTau3muPixelClusterCheck+process.hltIter2DisplacedTau3muPixelHitDoublets+process.hltIter2DisplacedTau3muPixelHitTriplets+process.hltIter2DisplacedTau3muPixelSeeds+process.hltIter2DisplacedTau3muCkfTrackCandidates+process.hltIter2DisplacedTau3muCtfWithMaterialTracks+process.hltIter2DisplacedTau3muTrackCutClassifier+process.hltIter2DisplacedTau3muTrackSelectionHighPurity)
process.HLTIterativeTrackingTripletRecoveryDisplacedTau3muReg = cms.Sequence(process.hltTripletRecoveryClustersRefRemovalDisplacedTau3muReg+process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg+process.hltTripletRecoveryPixelLayerTripletsDisplacedTau3muReg+process.hltTripletRecoveryPixelTrackingRegionsDisplacedTau3muReg+process.hltTripletRecoveryPixelClusterCheckDisplacedTau3muReg+process.hltTripletRecoveryPixelHitDoubletsDisplacedTau3muReg+process.hltTripletRecoveryPixelHitTripletsDisplacedTau3muReg+process.hltTripletRecoveryPixelSeedsDisplacedTau3muReg+process.hltTripletRecoveryCkfTrackCandidatesDisplacedTau3muReg+process.hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muReg+process.hltTripletRecoveryTrackCutClassifierDisplacedTau3muReg+process.hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muReg)
process.HLTIterativeTrackingDoubletRecoveryDisplacedTau3muReg = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalDisplacedTau3muReg+process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muReg+process.hltDoubletRecoveryPixelLayerPairsDisplacedTau3muReg+process.hltDoubletRecoveryPixelClusterCheckDisplacedTau3muReg+process.hltDoubletRecoveryPixelHitDoubletsDisplacedTau3muReg+process.hltDoubletRecoveryPixelSeedsDisplacedTau3muReg+process.hltDoubletRecoveryCkfTrackCandidatesDisplacedTau3muReg+process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muReg+process.hltDoubletRecoveryTrackCutClassifierDisplacedTau3muReg+process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muReg)
process.HLTIterativeTrackingTau3muIter02 = cms.Sequence(process.HLTIterativeTrackingTau3muIteration0+process.HLTIterativeTrackingTau3muIteration1+process.hltIter1DisplacedTau3muMerged+process.HLTIterativeTrackingTau3muIteration2+process.hltIter2DisplacedTau3muMerged+process.HLTIterativeTrackingTripletRecoveryDisplacedTau3muReg+process.hltTripletRecoveryMergedDisplacedTau3muReg+process.HLTIterativeTrackingDoubletRecoveryDisplacedTau3muReg+process.hltMergedTracksDisplacedTau3muReg)
process.HLTIterativeTrackingDisplacedPsiPrimeIteration0 = cms.Sequence(process.hltPixelTracksForSeedsPsiPrimeFilter+process.hltPixelTracksForSeedsPsiPrimeFitter+process.hltPixelTracksTrackingRegionsForSeedsPsiPrime+process.hltPixelLayerQuadruplets+process.hltPixelTracksHitDoubletsForSeedsPsiPrime+process.hltPixelTracksHitQuadrupletsForSeedsPsiPrime+process.hltPixelTracksForSeedsPsiPrime+process.hltIter0DisplacedPsiPrimePixelSeedsFromPixelTracks+process.hltIter0DisplacedPsiPrimeCkfTrackCandidates+process.hltIter0DisplacedPsiPrimeCtfWithMaterialTracks+process.hltIter0DisplacedPsiPrimeTrackCutClassifier+process.hltIter0DisplacedPsiPrimeTrackSelectionHighPurity)
process.HLTIterativeTrackingDisplacedPsiPrimeIteration1 = cms.Sequence(process.hltIter1DisplacedPsiPrimeClustersRefRemoval+process.hltIter1DisplacedPsiPrimeMaskedMeasurementTrackerEvent+process.hltIter1DisplacedPsiPrimePixelLayerQuadruplets+process.hltIter1DisplacedPsiPrimePixelTrackingRegions+process.hltIter1DisplacedPsiPrimePixelClusterCheck+process.hltIter1DisplacedPsiPrimePixelHitDoublets+process.hltIter1DisplacedPsiPrimePixelHitQuadruplets+process.hltIter1DisplacedPsiPrimePixelSeeds+process.hltIter1DisplacedPsiPrimeCkfTrackCandidates+process.hltIter1DisplacedPsiPrimeCtfWithMaterialTracks+process.hltIter1DisplacedPsiPrimeTrackCutClassifierPrompt+process.hltIter1DisplacedPsiPrimeTrackCutClassifierDetached+process.hltIter1DisplacedPsiPrimeTrackCutClassifierMerged+process.hltIter1DisplacedPsiPrimeTrackSelectionHighPurity)
process.HLTIterativeTrackingDisplacedPsiPrimeIteration2 = cms.Sequence(process.hltIter2DisplacedPsiPrimeClustersRefRemoval+process.hltIter2DisplacedPsiPrimeMaskedMeasurementTrackerEvent+process.hltIter2DisplacedPsiPrimePixelLayerTriplets+process.hltIter2DisplacedPsiPrimePixelTrackingRegions+process.hltIter2DisplacedPsiPrimePixelClusterCheck+process.hltIter2DisplacedPsiPrimePixelHitDoublets+process.hltIter2DisplacedPsiPrimePixelHitTriplets+process.hltIter2DisplacedPsiPrimePixelSeeds+process.hltIter2DisplacedPsiPrimeCkfTrackCandidates+process.hltIter2DisplacedPsiPrimeCtfWithMaterialTracks+process.hltIter2DisplacedPsiPrimeTrackCutClassifier+process.hltIter2DisplacedPsiPrimeTrackSelectionHighPurity)
process.HLTIterativeTrackingTripletRecoveryDisplacedPsiPrimeReg = cms.Sequence(process.hltTripletRecoveryClustersRefRemovalDisplacedPsiPrimeReg+process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg+process.hltTripletRecoveryPixelLayerTripletsDisplacedPsiPrimeReg+process.hltTripletRecoveryPixelTrackingRegionsDisplacedPsiPrimeReg+process.hltTripletRecoveryPixelClusterCheckDisplacedPsiPrimeReg+process.hltTripletRecoveryPixelHitDoubletsDisplacedPsiPrimeReg+process.hltTripletRecoveryPixelHitTripletsDisplacedPsiPrimeReg+process.hltTripletRecoveryPixelSeedsDisplacedPsiPrimeReg+process.hltTripletRecoveryCkfTrackCandidatesDisplacedPsiPrimeReg+process.hltTripletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg+process.hltTripletRecoveryTrackCutClassifierDisplacedPsiPrimeReg+process.hltTripletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg)
process.HLTIterativeTrackingDoubletRecoveryDisplacedPsiPrimeReg = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalDisplacedPsiPrimeReg+process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedPsiPrimeReg+process.hltDoubletRecoveryPixelLayerPairsDisplacedPsiPrimeReg+process.hltDoubletRecoveryPixelClusterCheckDisplacedPsiPrimeReg+process.hltDoubletRecoveryPixelHitDoubletsDisplacedPsiPrimeReg+process.hltDoubletRecoveryPixelSeedsDisplacedPsiPrimeReg+process.hltDoubletRecoveryCkfTrackCandidatesDisplacedPsiPrimeReg+process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedPsiPrimeReg+process.hltDoubletRecoveryTrackCutClassifierDisplacedPsiPrimeReg+process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedPsiPrimeReg)
process.HLTIterativeTrackingDisplacedPsiPrimeIter02 = cms.Sequence(process.HLTIterativeTrackingDisplacedPsiPrimeIteration0+process.HLTIterativeTrackingDisplacedPsiPrimeIteration1+process.hltIter1DisplacedPsiPrimeMerged+process.HLTIterativeTrackingDisplacedPsiPrimeIteration2+process.hltIter2DisplacedPsiPrimeMerged+process.HLTIterativeTrackingTripletRecoveryDisplacedPsiPrimeReg+process.hltTripletRecoveryMergedDisplacedPsiPrimeReg+process.HLTIterativeTrackingDoubletRecoveryDisplacedPsiPrimeReg+process.hltMergedTracksDisplacedPsiPrimeReg)
process.HLTIterativeTrackingL3MuonIteration1 = cms.Sequence(process.hltIter1L3MuonClustersRefRemoval+process.hltIter1L3MuonMaskedMeasurementTrackerEvent+process.hltIter1L3MuonPixelLayerQuadruplets+process.hltIter1L3MuonPixelTrackingRegions+process.hltIter1L3MuonPixelClusterCheck+process.hltIter1L3MuonPixelHitDoublets+process.hltIter1L3MuonPixelHitQuadruplets+process.hltIter1L3MuonPixelSeeds+process.hltIter1L3MuonCkfTrackCandidates+process.hltIter1L3MuonCtfWithMaterialTracks+process.hltIter1L3MuonTrackCutClassifierPrompt+process.hltIter1L3MuonTrackCutClassifierDetached+process.hltIter1L3MuonTrackCutClassifierMerged+process.hltIter1L3MuonTrackSelectionHighPurity)
process.HLTIterativeTrackingL3MuonIteration2 = cms.Sequence(process.hltIter2L3MuonClustersRefRemoval+process.hltIter2L3MuonMaskedMeasurementTrackerEvent+process.hltIter2L3MuonPixelLayerTriplets+process.hltIter2L3MuonPixelTrackingRegions+process.hltIter2L3MuonPixelClusterCheck+process.hltIter2L3MuonPixelHitDoublets+process.hltIter2L3MuonPixelHitTriplets+process.hltIter2L3MuonPixelSeeds+process.hltIter2L3MuonCkfTrackCandidates+process.hltIter2L3MuonCtfWithMaterialTracks+process.hltIter2L3MuonTrackCutClassifier+process.hltIter2L3MuonTrackSelectionHighPurity)
process.HLTPFTau = cms.Sequence(process.hltTauPFJets08Region+process.hltTauPFJetsRecoTauChargedHadrons+process.hltPFTauPiZeros+process.hltPFTausSansRef+process.hltPFTaus+process.hltPFTauTrackFindingDiscriminator+process.hltSelectedPFTausTrackFinding+process.hltPFTauTrack)
process.HLTLooseChargedIsoPFTauSequence = cms.Sequence(process.hltPFTauLooseAbsoluteChargedIsolationDiscriminator+process.hltPFTauLooseRelativeChargedIsolationDiscriminator+process.hltPFTauLooseAbsOrRelChargedIsolationDiscriminator)
process.HLTLooseChargedIsoPFTau30Sequence = cms.Sequence(process.HLTLooseChargedIsoPFTauSequence+process.hltPFTau30+process.hltSelectedPFTausTrackFinding+process.hltPFTau30Track+process.hltSelectedPFTausTrackFindingLooseChargedIsolation+process.hltPFTau30TrackLooseChargedIso)
process.HLTPFTauHPS = cms.Sequence(process.hltTauPFJets08Region+process.hltHpsTauPFJetsRecoTauChargedHadronsWithNeutrals+process.hltPFTauPiZeros+process.hltHpsCombinatoricRecoTaus+process.hltHpsSelectionDiscriminator+process.hltHpsPFTauProducerSansRefs+process.hltHpsPFTauProducer+process.hltHpsPFTauDiscriminationByDecayModeFindingNewDMs+process.hltHpsPFTauTrackFindingDiscriminator+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTauTrack)
process.HLTHPSLooseChargedIsoPFTauSequence = cms.Sequence(process.hltHpsPFTauLooseAbsoluteChargedIsolationDiscriminator+process.hltHpsPFTauLooseRelativeChargedIsolationDiscriminator+process.hltHpsPFTauLooseAbsOrRelChargedIsolationDiscriminator)
process.HLTHPSLooseChargedIsoPFTau30Sequence = cms.Sequence(process.HLTHPSLooseChargedIsoPFTauSequence+process.hltHpsPFTau30+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau30Track+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolation+process.hltHpsPFTau30TrackLooseChargedIso)
process.HLTHPSMediumChargedIsoPFTauSequence = cms.Sequence(process.hltHpsPFTauMediumAbsoluteChargedIsolationDiscriminator+process.hltHpsPFTauMediumRelativeChargedIsolationDiscriminator+process.hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminator)
process.HLTHPSMediumChargedIsoPFTau30Sequence = cms.Sequence(process.HLTHPSMediumChargedIsoPFTauSequence+process.hltHpsPFTau30+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau30Track+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolation+process.hltHpsPFTau30TrackMediumChargedIso)
process.HLTHPSTightChargedIsoPFTauSequence = cms.Sequence(process.hltHpsPFTauTightAbsoluteChargedIsolationDiscriminator+process.hltHpsPFTauTightRelativeChargedIsolationDiscriminator+process.hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminator)
process.HLTHPSTightChargedIsoPFTau30Sequence = cms.Sequence(process.HLTHPSTightChargedIsoPFTauSequence+process.hltHpsPFTau30+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau30Track+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolation+process.hltHpsPFTau30TrackTightChargedIso)
process.HLTHPSLooseChargedIsoPFTau30TightOOSCPhotonsSequence = cms.Sequence(process.HLTHPSLooseChargedIsoPFTau30Sequence+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotons+process.hltHpsPFTau30TrackLooseChargedIsoTightOOSCPhotons)
process.HLTHPSMediumChargedIsoPFTau30TightOOSCPhotonsSequence = cms.Sequence(process.HLTHPSMediumChargedIsoPFTau30Sequence+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotons+process.hltHpsPFTau30TrackMediumChargedIsoTightOOSCPhotons)
process.HLTHPSTightChargedIsoPFTau30TightOOSCPhotonsSequence = cms.Sequence(process.HLTHPSTightChargedIsoPFTau30Sequence+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotons+process.hltHpsPFTau30TrackTightChargedIsoTightOOSCPhotons)
process.HLTAK4CaloJetsCorrectionSequence = cms.Sequence(process.hltFixedGridRhoFastjetAllCalo+process.HLTAK4CaloCorrectorProducersSequence+process.hltAK4CaloJetsCorrected+process.hltAK4CaloJetsCorrectedIDPassed)
process.HLTPFClusteringEcalMFForMuons = cms.Sequence(process.hltRecHitInRegionForMuonsMF+process.hltRecHitInRegionForMuonsES+process.hltParticleFlowRecHitECALForMuonsMF+process.hltParticleFlowRecHitPSForMuons+process.hltParticleFlowClusterECALUncorrectedForMuonsMF+process.hltParticleFlowClusterPSForMuons+process.hltParticleFlowClusterECALForMuonsMF)
process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons = cms.Sequence(process.HLTPFHcalClustering+process.hltMuonHcalRegPFClusterIsoForMuons)
process.HLTLooseChargedIsoAntiMuonPFTau27Sequence = cms.Sequence(process.HLTLooseChargedIsoPFTauSequence+process.hltPFTau27+process.hltSelectedPFTausTrackFinding+process.hltPFTau27Track+process.hltSelectedPFTausTrackFindingLooseChargedIsolation+process.hltPFTau27TrackLooseChargedIso+process.hltPFTauAgainstMuonDiscriminator+process.hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon+process.hltPFTau27TrackLooseChargedIsoAgainstMuon)
process.HLTHPSLooseChargedIsoAntiMuonPFTau27Sequence = cms.Sequence(process.HLTHPSLooseChargedIsoPFTauSequence+process.hltHpsPFTau27+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau27Track+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolation+process.hltHpsPFTau27TrackLooseChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon+process.hltHpsPFTau27TrackLooseChargedIsoAgainstMuon)
process.HLTHPSMediumChargedIsoAntiMuonPFTau27Sequence = cms.Sequence(process.HLTHPSMediumChargedIsoPFTauSequence+process.hltHpsPFTau27+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau27Track+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolation+process.hltHpsPFTau27TrackMediumChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon+process.hltHpsPFTau27TrackMediumChargedIsoAgainstMuon)
process.HLTHPSTightChargedIsoAntiMuonPFTau27Sequence = cms.Sequence(process.HLTHPSTightChargedIsoPFTauSequence+process.hltHpsPFTau27+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau27Track+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolation+process.hltHpsPFTau27TrackTightChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon+process.hltHpsPFTau27TrackTightChargedIsoAgainstMuon)
process.HLTHPSLooseChargedIsoTightOOSCPhotonsAntiMuonPFTau27Sequence = cms.Sequence(process.HLTHPSLooseChargedIsoPFTauSequence+process.hltHpsPFTau27+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau27Track+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolation+process.hltHpsPFTau27TrackLooseChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationTightOOSCPhotonsAgainstMuon+process.hltHpsPFTau27TrackLooseChargedIsoTightOOSCPhotonsAgainstMuon)
process.HLTHPSMediumChargedIsoTightOOSCPhotonsAntiMuonPFTau27Sequence = cms.Sequence(process.HLTHPSMediumChargedIsoPFTauSequence+process.hltHpsPFTau27+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau27Track+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolation+process.hltHpsPFTau27TrackMediumChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationTightOOSCPhotonsAgainstMuon+process.hltHpsPFTau27TrackMediumChargedIsoTightOOSCPhotonsAgainstMuon)
process.HLTHPSTightChargedIsoTightOOSCPhotonsAntiMuonPFTau27Sequence = cms.Sequence(process.HLTHPSTightChargedIsoPFTauSequence+process.hltHpsPFTau27+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau27Track+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolation+process.hltHpsPFTau27TrackTightChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminator+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationTightOOSCPhotonsAgainstMuon+process.hltHpsPFTau27TrackTightChargedIsoTightOOSCPhotonsAgainstMuon)
process.HLTDoLocalPixelSequenceRegL2TauL1TauSeeded = cms.Sequence(process.hltSiPixelDigisRegL1TauSeeded+process.hltSiPixelClustersRegL1TauSeeded+process.hltSiPixelClustersRegL1TauSeededCache+process.hltSiPixelRecHitsRegL1TauSeeded)
process.HLTPixelTrackFromQuadAndTriSequenceRegL1TauSeeded = cms.Sequence(process.hltPixelTracksFilter+process.hltPixelTracksFitter+process.hltPixelTracksTrackingRegionsRegL1TauSeeded+process.hltPixelLayerQuadrupletsRegL1TauSeeded+process.hltPixelTracksHitDoubletsRegL1TauSeeded+process.hltPixelTracksHitQuadrupletsRegL1TauSeeded+process.hltPixelTracksFromQuadrupletsRegL1TauSeeded+process.hltPixelTripletsClustersRefRemovalRegL1TauSeeded+process.hltPixelLayerTripletsWithClustersRemovalRegL1TauSeeded+process.hltPixelTracksHitDoubletsForTripletsRegL1TauSeeded+process.hltPixelTracksHitTripletsRegL1TauSeeded+process.hltPixelTracksFromTripletsRegL1TauSeeded+process.hltPixelTracksMergedRegL1TauSeeded)
process.HLTPixelTrackingSequenceRegL2TauL1TauSeeded = cms.Sequence(process.HLTDoLocalPixelSequenceRegL2TauL1TauSeeded+process.HLTPixelTrackFromQuadAndTriSequenceRegL1TauSeeded+process.hltPixelVerticesRegL1TauSeeded)
process.HLTL2TauPixelIsolationSequenceL1TauSeeded = cms.Sequence(process.hltL2TausForPixelIsolationL1TauSeeded+process.HLTPixelTrackingSequenceRegL2TauL1TauSeeded+process.hltL2TauPixelIsoTagProducerL1TauSeeded)
process.HLTL2p5IsoTauL1TauSeededSequence = cms.Sequence(process.HLTL2TauPixelIsolationSequenceL1TauSeeded+process.hltL2TauIsoFilterL1TauSeeded+process.hltL2TauJetsIsoL1TauSeeded)
process.HLTIterativeTrackingIteration0TauReg = cms.Sequence(process.hltIter0PFLowPixelSeedsFromPixelTracksTauReg+process.hltIter0PFlowCkfTrackCandidatesTauReg+process.hltIter0PFlowCtfWithMaterialTracksTauReg+process.hltIter0PFlowTrackCutClassifierTauReg+process.hltIter0PFlowTrackSelectionHighPurityTauReg)
process.HLTIter0TrackAndTauJet4Iter1SequenceTauReg = cms.Sequence(process.hltTrackIter0RefsForJets4Iter1TauReg+process.hltAK4Iter0TrackJets4Iter1TauReg+process.hltIter0TrackAndTauJets4Iter1TauReg)
process.HLTIterativeTrackingIteration1TauReg = cms.Sequence(process.hltIter1ClustersRefRemovalTauReg+process.hltIter1MaskedMeasurementTrackerEventTauReg+process.hltIter1PixelLayerQuadrupletsTauReg+process.hltIter1PFlowPixelTrackingRegionsTauReg+process.hltIter1PFlowPixelClusterCheckTauReg+process.hltIter1PFlowPixelHitDoubletsTauReg+process.hltIter1PFlowPixelHitQuadrupletsTauReg+process.hltIter1PFlowPixelSeedsTauReg+process.hltIter1PFlowCkfTrackCandidatesTauReg+process.hltIter1PFlowCtfWithMaterialTracksTauReg+process.hltIter1PFlowTrackCutClassifierPromptTauReg+process.hltIter1PFlowTrackCutClassifierDetachedTauReg+process.hltIter1PFlowTrackCutClassifierMergedTauReg+process.hltIter1PFlowTrackSelectionHighPurityTauReg)
process.HLTIter1TrackAndTauJets4Iter2SequenceTauReg = cms.Sequence(process.hltIter1TrackRefsForJets4Iter2TauReg+process.hltAK4Iter1TrackJets4Iter2TauReg+process.hltIter1TrackAndTauJets4Iter2TauReg)
process.HLTIterativeTrackingIteration2TauReg = cms.Sequence(process.hltIter2ClustersRefRemovalTauReg+process.hltIter2MaskedMeasurementTrackerEventTauReg+process.hltIter2PixelLayerTripletsTauReg+process.hltIter2PFlowPixelTrackingRegionsTauReg+process.hltIter2PFlowPixelClusterCheckTauReg+process.hltIter2PFlowPixelHitDoubletsTauReg+process.hltIter2PFlowPixelHitTripletsTauReg+process.hltIter2PFlowPixelSeedsTauReg+process.hltIter2PFlowCkfTrackCandidatesTauReg+process.hltIter2PFlowCtfWithMaterialTracksTauReg+process.hltIter2PFlowTrackCutClassifierTauReg+process.hltIter2PFlowTrackSelectionHighPurityTauReg)
process.HLTIterativeTrackingDoubletRecoveryTauReg = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalTauReg+process.hltDoubletRecoveryMaskedMeasurementTrackerEventTauReg+process.hltDoubletRecoveryPixelLayersAndRegionsTauReg+process.hltDoubletRecoveryPFlowPixelClusterCheckTauReg+process.hltDoubletRecoveryPFlowPixelHitDoubletsTauReg+process.hltDoubletRecoveryPFlowPixelSeedsTauReg+process.hltDoubletRecoveryPFlowCkfTrackCandidatesTauReg+process.hltDoubletRecoveryPFlowCtfWithMaterialTracksTauReg+process.hltDoubletRecoveryPFlowTrackCutClassifierTauReg+process.hltDoubletRecoveryPFlowTrackSelectionHighPurityTauReg)
process.HLTIterativeTrackingIter02TauReg = cms.Sequence(process.HLTIterativeTrackingIteration0TauReg+process.HLTIter0TrackAndTauJet4Iter1SequenceTauReg+process.HLTIterativeTrackingIteration1TauReg+process.hltIter1MergedTauReg+process.HLTIter1TrackAndTauJets4Iter2SequenceTauReg+process.HLTIterativeTrackingIteration2TauReg+process.hltIter2MergedTauReg+process.HLTIterativeTrackingDoubletRecoveryTauReg+process.hltMergedTracksTauReg)
process.HLTPFJetsSequenceReg = cms.Sequence(process.hltAK4PFJetsReg)
process.HLTPFTauReg = cms.Sequence(process.hltTauPFJets08RegionReg+process.hltTauPFJetsRecoTauChargedHadronsReg+process.hltPFTauPiZerosReg+process.hltPFTausSansRefReg+process.hltPFTausReg+process.hltPFTauTrackDiscriminatorReg+process.hltSelectedPFTausTrackFindingReg+process.hltPFTauTrackReg)
process.HLTSinglePFTauPt35Eta2p1Trk1Reg = cms.Sequence(process.hltSinglePFTau35Reg+process.hltPFTauTrackPt1DiscriminatorReg+process.hltSelectedPFTausTrackPt1Reg+process.hltSinglePFTau35TrackPt1Reg)
process.HLTMediumChargedIsoPFTauSequenceReg = cms.Sequence(process.hltPFTauMediumAbsoluteChargedIsolationDiscriminatorReg+process.hltPFTauMediumRelativeChargedIsolationDiscriminatorReg+process.hltPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg)
process.HLTMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg = cms.Sequence(process.HLTMediumChargedIsoPFTauSequenceReg+process.hltPFTauTightOutOfSignalConePhotonsDiscriminatorReg+process.hltPFTauMediumChargedIsolationAndTightOOSCPhotonsDiscriminatorReg)
process.HLTTightChargedIsoPFTauSequenceReg = cms.Sequence(process.hltPFTauTightAbsoluteChargedIsolationDiscriminatorReg+process.hltPFTauTightRelativeChargedIsolationDiscriminatorReg+process.hltPFTauTightAbsOrRelChargedIsolationDiscriminatorReg)
process.HLTTightChargedIsoTightOOSCPhotonsPFTauSequenceReg = cms.Sequence(process.HLTTightChargedIsoPFTauSequenceReg+process.hltPFTauTightOutOfSignalConePhotonsDiscriminatorReg+process.hltPFTauTightChargedIsolationAndTightOOSCPhotonsDiscriminatorReg)
process.HLTPFTauHPSReg = cms.Sequence(process.hltTauPFJets08RegionReg+process.hltHpsTauPFJetsRecoTauChargedHadronsWithNeutralsReg+process.hltPFTauPiZerosReg+process.hltHpsCombinatoricRecoTausReg+process.hltHpsSelectionDiscriminatorReg+process.hltHpsPFTauProducerSansRefsReg+process.hltHpsPFTauProducerReg+process.hltHpsPFTauDiscriminationByDecayModeFindingNewDMsReg+process.hltHpsPFTauTrackFindingDiscriminatorReg+process.hltHpsSelectedPFTausTrackFindingReg+process.hltHpsPFTauTrackReg)
process.HLTHPSSinglePFTauPt35Eta2p1Trk1Reg = cms.Sequence(process.hltHpsSinglePFTau35Reg+process.hltHpsPFTauTrackPt1DiscriminatorReg+process.hltHpsSelectedPFTausTrackPt1Reg+process.hltHpsSinglePFTau35TrackPt1Reg)
process.HLTHPSTightChargedIsoPFTauSequenceReg = cms.Sequence(process.hltHpsPFTauTightAbsoluteChargedIsolationDiscriminatorReg+process.hltHpsPFTauTightRelativeChargedIsolationDiscriminatorReg+process.hltHpsPFTauTightAbsOrRelChargedIsolationDiscriminatorReg)
process.HLTHPSMediumChargedIsoPFTauSequenceReg = cms.Sequence(process.hltHpsPFTauMediumAbsoluteChargedIsolationDiscriminatorReg+process.hltHpsPFTauMediumRelativeChargedIsolationDiscriminatorReg+process.hltHpsPFTauMediumAbsOrRelChargedIsolationDiscriminatorReg)
process.HLTHPSMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg = cms.Sequence(process.HLTHPSMediumChargedIsoPFTauSequenceReg+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminatorReg+process.hltHpsPFTauMediumChargedIsolationAndTightOOSCPhotonsDiscriminatorReg)
process.HLTHPSTightChargedIsoTightOOSCPhotonsPFTauSequenceReg = cms.Sequence(process.HLTHPSTightChargedIsoPFTauSequenceReg+process.hltHpsPFTauTightOutOfSignalConePhotonsDiscriminatorReg+process.hltHpsPFTauTightChargedIsolationAndTightOOSCPhotonsDiscriminatorReg)
process.HLTHPSSinglePFTauPt30Eta2p1Trk1Reg = cms.Sequence(process.hltHpsSinglePFTau30Reg+process.hltHpsPFTauTrackPt1DiscriminatorReg+process.hltHpsSelectedPFTausTrackPt1Reg+process.hltHpsSinglePFTau30TrackPt1Reg)
process.HLTDoLocalPixelSequenceRegL2Tau = cms.Sequence(process.hltSiPixelDigisRegForTau+process.hltSiPixelClustersRegForTau+process.hltSiPixelClustersRegForTauCache+process.hltSiPixelRecHitsRegForTau)
process.HLTPixelTrackFromQuadAndTriSequenceRegL2Tau = cms.Sequence(process.hltPixelTracksFilter+process.hltPixelTracksFitter+process.hltPixelTracksTrackingRegionsRegForTau+process.hltPixelLayerQuadrupletsRegForTau+process.hltPixelTracksHitDoubletsRegForTau+process.hltPixelTracksHitQuadrupletsRegForTau+process.hltPixelTracksFromQuadrupletsRegForTau+process.hltPixelTripletsClustersRefRemovalRegForTau+process.hltPixelLayerTripletsWithClustersRemovalRegForTau+process.hltPixelTracksHitDoubletsForTripletsRegForTau+process.hltPixelTracksHitTripletsRegForTau+process.hltPixelTracksFromTripletsRegForTau+process.hltPixelTracksMergedRegForTau)
process.HLTPixelTrackingSequenceRegL2Tau = cms.Sequence(process.HLTDoLocalPixelSequenceRegL2Tau+process.HLTPixelTrackFromQuadAndTriSequenceRegL2Tau+process.hltPixelVerticesRegForTau)
process.HLTL2TauPixelIsolationSequence = cms.Sequence(process.hltL2TausForPixelIsolation+process.HLTPixelTrackingSequenceRegL2Tau+process.hltL2TauPixelIsoTagProducer)
process.HLTL2p5IsoTauSequence = cms.Sequence(process.HLTL2TauPixelIsolationSequence+process.hltL2TauIsoFilter+process.hltL2TauJetsIso)
process.HLTLooseChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTLooseChargedIsoPFTauSequence+process.hltPFTau20+process.hltSelectedPFTausTrackFinding+process.hltPFTau20Track+process.hltSelectedPFTausTrackFindingLooseChargedIsolation+process.hltPFTau20TrackLooseChargedIso+process.hltPFTauAgainstMuonDiscriminator+process.hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon+process.hltPFTau20TrackLooseChargedIsoAgainstMuon)
process.HLTHPSLooseChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTHPSLooseChargedIsoPFTauSequence+process.hltHpsPFTau20+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau20Track+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolation+process.hltHpsPFTau20TrackLooseChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon+process.hltHpsPFTau20TrackLooseChargedIsoAgainstMuon)
process.HLTHPSMediumChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTHPSMediumChargedIsoPFTauSequence+process.hltHpsPFTau20+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau20Track+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolation+process.hltHpsPFTau20TrackMediumChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon+process.hltHpsPFTau20TrackMediumChargedIsoAgainstMuon)
process.HLTHPSTightChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTHPSTightChargedIsoPFTauSequence+process.hltHpsPFTau20+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsPFTau20Track+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolation+process.hltHpsPFTau20TrackTightChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon+process.hltHpsPFTau20TrackTightChargedIsoAgainstMuon)
process.HLTStoppedHSCPJetSequence = cms.Sequence(process.hltStoppedHSCPTowerMakerForAll+process.hltStoppedHSCPIterativeCone4CaloJets)
process.HLTMuonLocalRecoMeanTimerSequence = cms.Sequence(process.hltMuonDTDigis+process.hltDt1DRecHits+process.hltDt4DSegmentsMeanTimer+process.hltMuonCSCDigis+process.hltCsc2DRecHits+process.hltCscSegments+process.hltMuonRPCDigis+process.hltRpcRecHits)
process.HLTL2muonrecoNocandCosmicSeedMeanTimerSequence = cms.Sequence(process.HLTMuonLocalRecoMeanTimerSequence+process.hltL2CosmicOfflineMuonSeeds+process.hltL2CosmicMuonSeeds+process.hltL2CosmicMuons)
process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer = cms.Sequence(process.HLTL2muonrecoNocandCosmicSeedMeanTimerSequence+process.hltL2MuonCandidatesNoVtxMeanTimerCosmicSeed)
process.HLTIterativeTrackingHighPtTkMuIteration0 = cms.Sequence(process.hltPixelLayerTriplets+process.hltIter0HighPtTkMuPixelTracksFilter+process.hltIter0HighPtTkMuPixelTracksFitter+process.hltIter0HighPtTkMuPixelTracksTrackingRegions+process.hltIter0HighPtTkMuPixelTracksHitDoublets+process.hltIter0HighPtTkMuPixelTracksHitTriplets+process.hltIter0HighPtTkMuPixelTracks+process.hltIter0HighPtTkMuPixelSeedsFromPixelTracks+process.hltIter0HighPtTkMuCkfTrackCandidates+process.hltIter0HighPtTkMuCtfWithMaterialTracks+process.hltIter0HighPtTkMuTrackSelectionHighPurity)
process.HLTIterativeTrackingHighPtTkMuIteration2 = cms.Sequence(process.hltIter2HighPtTkMuClustersRefRemoval+process.hltIter2HighPtTkMuMaskedMeasurementTrackerEvent+process.hltIter2HighPtTkMuPixelLayerPairs+process.hltIter2HighPtTkMuPixelTrackingRegions+process.hltIter2HighPtTkMuPixelClusterCheck+process.hltIter2HighPtTkMuPixelHitDoublets+process.hltIter2HighPtTkMuPixelSeeds+process.hltIter2HighPtTkMuCkfTrackCandidates+process.hltIter2HighPtTkMuCtfWithMaterialTracks+process.hltIter2HighPtTkMuTrackSelectionHighPurity)
process.HLTIterativeTrackingHighPtTkMu = cms.Sequence(process.HLTIterativeTrackingHighPtTkMuIteration0+process.HLTIterativeTrackingHighPtTkMuIteration2+process.hltIter2HighPtTkMuMerged)
process.HLTBeamHaloCleanerSequence = cms.Sequence(process.hltCSCHaloData+process.hltEcalHaloData+process.hltHcalHaloData+process.hltGlobalHaloData+process.hltCaloRecHitsBeamHaloCleaned+process.hltTowerMakerForAllBeamHaloCleaned)
process.HLTBTagMuJet40PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromJet40PF+process.hltSelector4JetsJet40PF+process.hltBSoftMuonJet40PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonJet40PFMu12L3TagInfos+process.hltBSoftMuonJet40PFMu12L3BJetTagsByDR)
process.HLTBTagMuDiJet40PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet40PF+process.hltSelector4JetsDiJet40PF+process.hltBSoftMuonDiJet40PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet40PFMu12L3TagInfos+process.hltBSoftMuonDiJet40PFMu12L3BJetTagsByDR)
process.HLTBTagMuDiJet100PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet100PF+process.hltSelector4JetsDiJet100PF+process.hltBSoftMuonDiJet100PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet100PFMu12L3TagInfos+process.hltBSoftMuonDiJet100PFMu12L3BJetTagsByDR)
process.HLTBTagMuDiJet200PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet200PF+process.hltSelector4JetsDiJet200PF+process.hltBSoftMuonDiJet200PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet200PFMu12L3TagInfos+process.hltBSoftMuonDiJet200PFMu12L3BJetTagsByDR)
process.HLTBTagMuDiJet350PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet350PF+process.hltSelector4JetsDiJet350PF+process.hltBSoftMuonDiJet350PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet350PFMu12L3TagInfos+process.hltBSoftMuonDiJet350PFMu12L3BJetTagsByDR)
process.HLTBTagMuDiJet54PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet54PF+process.hltSelector4JetsDiJet54PF+process.hltBSoftMuonDiJet54PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet54PFMu12L3TagInfos+process.hltBSoftMuonDiJet54PFMu12L3BJetTagsByDR)
process.HLTBTagMuDiJet62PFMu12SequenceL3 = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet62PF+process.hltSelector4JetsDiJet62PF+process.hltBSoftMuonDiJet62PFMu12L3Jets+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet62PFMu12L3TagInfos+process.hltBSoftMuonDiJet62PFMu12L3BJetTagsByDR)
process.HLTBtagDeepCSVSequencePF = cms.Sequence(process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.hltPFJetForBtagSelector+process.hltPFJetForBtag+process.hltDeepBLifetimeTagInfosPF+process.hltDeepInclusiveVertexFinderPF+process.hltDeepInclusiveSecondaryVerticesPF+process.hltDeepTrackVertexArbitratorPF+process.hltDeepInclusiveMergedVerticesPF+process.hltDeepSecondaryVertexTagInfosPF+process.hltDeepCombinedSecondaryVertexBJetTagsInfos+process.hltDeepCombinedSecondaryVertexBJetTagsPF)
process.HLTMediumChargedIsoPFTauSequence = cms.Sequence(process.hltPFTauMediumAbsoluteChargedIsolationDiscriminator+process.hltPFTauMediumRelativeChargedIsolationDiscriminator+process.hltPFTauMediumAbsOrRelChargedIsolationDiscriminator)
process.HLTMediumChargedIsoPFTau35Sequence = cms.Sequence(process.HLTMediumChargedIsoPFTauSequence+process.hltPFTau35+process.hltSelectedPFTausTrackFinding+process.hltPFTau35Track+process.hltPFTau2Prongs+process.hltSelectedPFTausTrackFindingMediumChargedIsolation+process.hltPFTau35TrackMediumChargedIso)
process.HLTIterativeTrackingTau3muNoL1MassIteration0 = cms.Sequence(process.hltPixelTracksForSeedsTau3muNoL1MassFilter+process.hltPixelTracksForSeedsTau3muNoL1MassFitter+process.hltPixelTracksTrackingRegionsForSeedsTau3muNoL1Mass+process.hltPixelLayerQuadruplets+process.hltPixelTracksHitDoubletsForSeedsTau3muNoL1Mass+process.hltPixelTracksHitQuadrupletsForSeedsTau3muNoL1Mass+process.hltPixelTracksForSeedsTau3muNoL1Mass+process.hltIter0DisplacedTau3muNoL1MassPixelSeedsFromPixelTracks+process.hltIter0DisplacedTau3muNoL1MassCkfTrackCandidates+process.hltIter0DisplacedTau3muNoL1MassCtfWithMaterialTracks+process.hltIter0DisplacedTau3muNoL1MassTrackCutClassifier+process.hltIter0DisplacedTau3muNoL1MassTrackSelectionHighPurity)
process.HLTIterativeTrackingTau3muNoL1MassIteration1 = cms.Sequence(process.hltIter1DisplacedTau3muNoL1MassClustersRefRemoval+process.hltIter1DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent+process.hltIter1DisplacedTau3muNoL1MassPixelLayerQuadruplets+process.hltIter1DisplacedTau3muNoL1MassPixelTrackingRegions+process.hltIter1DisplacedTau3muNoL1MassPixelClusterCheck+process.hltIter1DisplacedTau3muNoL1MassPixelHitDoublets+process.hltIter1DisplacedTau3muNoL1MassPixelHitQuadruplets+process.hltIter1DisplacedTau3muNoL1MassPixelSeeds+process.hltIter1DisplacedTau3muNoL1MassCkfTrackCandidates+process.hltIter1DisplacedTau3muNoL1MassCtfWithMaterialTracks+process.hltIter1DisplacedTau3muNoL1MassTrackCutClassifierPrompt+process.hltIter1DisplacedTau3muNoL1MassTrackCutClassifierDetached+process.hltIter1DisplacedTau3muNoL1MassTrackCutClassifierMerged+process.hltIter1DisplacedTau3muNoL1MassTrackSelectionHighPurity)
process.HLTIterativeTrackingTau3muNoL1MassIteration2 = cms.Sequence(process.hltIter2DisplacedTau3muNoL1MassClustersRefRemoval+process.hltIter2DisplacedTau3muNoL1MassMaskedMeasurementTrackerEvent+process.hltIter2DisplacedTau3muNoL1MassPixelLayerTriplets+process.hltIter2DisplacedTau3muNoL1MassPixelTrackingRegions+process.hltIter2DisplacedTau3muNoL1MassPixelClusterCheck+process.hltIter2DisplacedTau3muNoL1MassPixelHitDoublets+process.hltIter2DisplacedTau3muNoL1MassPixelHitTriplets+process.hltIter2DisplacedTau3muNoL1MassPixelSeeds+process.hltIter2DisplacedTau3muNoL1MassCkfTrackCandidates+process.hltIter2DisplacedTau3muNoL1MassCtfWithMaterialTracks+process.hltIter2DisplacedTau3muNoL1MassTrackCutClassifier+process.hltIter2DisplacedTau3muNoL1MassTrackSelectionHighPurity)
process.HLTIterativeTrackingTripletRecoveryDisplacedTau3muNoL1MassReg = cms.Sequence(process.hltTripletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryPixelLayerTripletsDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryPixelTrackingRegionsDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryPixelClusterCheckDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryPixelHitDoubletsDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryPixelHitTripletsDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryPixelSeedsDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryCkfTrackCandidatesDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg)
process.HLTIterativeTrackingDoubletRecoveryDisplacedTau3muNoL1MassReg = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryPixelLayerPairsDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryPixelClusterCheckDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryPixelHitDoubletsDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryPixelSeedsDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryCkfTrackCandidatesDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryTrackCutClassifierDisplacedTau3muNoL1MassReg+process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedTau3muNoL1MassReg)
process.HLTIterativeTrackingTau3muNoL1MassIter02 = cms.Sequence(process.HLTIterativeTrackingTau3muNoL1MassIteration0+process.HLTIterativeTrackingTau3muNoL1MassIteration1+process.hltIter1DisplacedTau3muNoL1MassMerged+process.HLTIterativeTrackingTau3muNoL1MassIteration2+process.hltIter2DisplacedTau3muNoL1MassMerged+process.HLTIterativeTrackingTripletRecoveryDisplacedTau3muNoL1MassReg+process.hltTripletRecoveryMergedDisplacedTau3muNoL1MassReg+process.HLTIterativeTrackingDoubletRecoveryDisplacedTau3muNoL1MassReg+process.hltMergedTracksDisplacedTau3muNoL1MassReg)
process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets = cms.Sequence((process.hltSelectorJets20L1FastJet+process.hltSelectorCentralJets20L1FastJeta+process.hltSiPixelDigisRegForBTag+process.hltSiPixelClustersRegForBTag+process.hltSiPixelClustersRegForBTagCache+process.hltSiPixelRecHitsRegForBTag+process.hltPixelLayerQuadrupletsRegForBTag)+(process.hltSelector4CentralJetsL1FastJet+process.hltFastPrimaryVertex+process.hltFastPVPixelVertexFilter+process.hltFastPVPixelTracksFilter+process.hltFastPVPixelTracksFitter+process.hltFastPVPixelTracksTrackingRegions+process.hltFastPVPixelTracksHitDoublets+process.hltFastPVPixelTracksHitQuadruplets+process.hltFastPVPixelTracks+process.hltFastPVJetTracksAssociator+process.hltFastPVJetVertexChecker+process.hltFastPVPixelTracksRecoverFilter+process.hltFastPVPixelTracksRecoverFitter+process.hltFastPVPixelTracksTrackingRegionsRecover+process.hltFastPVPixelTracksHitDoubletsRecover+process.hltFastPVPixelTracksHitQuadrupletsRecover+process.hltFastPVPixelTracksRecover+process.hltFastPVPixelTracksMerger+process.hltFastPVPixelVertices+process.hltFastPVPixelVerticesFilter)+(process.hltSiStripExcludedFEDListProducer+process.hltSiStripRawToClustersFacility+process.hltSiStripClustersRegForBTag)+process.hltSelectorJets30L1FastJet+process.hltSelectorCentralJets30L1FastJeta+process.hltSelector8CentralJetsL1FastJet)
process.HLT2PromptTrackRequirementIter0DisplacedJetsLowPt = cms.Sequence(process.hltL3DisplacedDijetFullTracksJetTracksAssociatorAtVertexLowPt+process.hltL3DisplacedDijet100FullTracksTrackIPProducerLowPt+process.hltL3DisplacedDijetFullTracksJetTagProducerFromIPLowPt+process.hltTwoPromptHLTL3DisplacedDijetFullTracksHLTCaloJetTagFilterLowPt)
process.HLTIterativeTrackingIter12ForBTag = cms.Sequence((process.hltIter1ClustersRefRemovalForBTag+process.hltIter1MaskedMeasurementTrackerEventForBTag+process.hltIter1PixelLayerQuadrupletsForBTag+process.hltIter1PFlowPixelTrackingRegionsForBTag+process.hltIter1PFlowPixelClusterCheckForBTag+process.hltIter1PFlowPixelHitDoubletsForBTag+process.hltIter1PFlowPixelHitQuadrupletsForBTag+process.hltIter1PixelTracksForBTag+process.hltIter1PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter1PFlowCkfTrackCandidatesForBTag+process.hltIter1PFlowCtfWithMaterialTracksForBTag+process.hltIter1PFlowTrackCutClassifierPromptForBTag+process.hltIter1PFlowTrackCutClassifierDetachedForBTag+process.hltIter1PFlowTrackCutClassifierMergedForBTag+process.hltIter1PFlowTrackSelectionHighPurityForBTag)+process.hltIter1MergedForBTag+(process.hltIter2ClustersRefRemovalForBTag+process.hltIter2MaskedMeasurementTrackerEventForBTag+process.hltIter2PixelLayerTripletsForBTag+process.hltIter2PFlowPixelTrackingRegionsForBTag+process.hltIter2PFlowPixelClusterCheckForBTag+process.hltIter2PFlowPixelHitDoubletsForBTag+process.hltIter2PFlowPixelHitTripletsForBTag+process.hltIter2PFlowPixelSeedsForBTag+process.hltIter2PFlowCkfTrackCandidatesForBTag+process.hltIter2PFlowCtfWithMaterialTracksForBTag+process.hltIter2PFlowTrackCutClassifierForBTag+process.hltIter2PFlowTrackSelectionHighPurityForBTag)+process.hltIter2MergedForBTag)
process.HLT2PromptTrackRequirementIter12DisplacedJetsLowPt = cms.Sequence(process.hltL4DisplacedDijetFullTracksJetPromptTracksAssociatorAtVertexLowPt+process.hltL4PromptDisplacedDijetFullTracksTrackIPProducerLowPt+process.hltL4PromptDisplacedDijetFullTracksJetTagProducerFromIPLowPt+process.hltL4PromptDisplacedDijetFullTracksHLTCaloJetTagFilterLowPt)
process.HLTIterativeTrackingIteration4DisplacedJets = cms.Sequence(process.hltDisplacedhltTrimmedPixelVertices+process.hltDisplacedhltIter4ClustersRefRemoval+process.hltDisplacedhltIter4MaskedMeasurementTrackerEvent+process.hltDisplacedhltIter4PixelLessLayerTriplets+process.hltDisplacedhltIter4PFlowPixelLessTrackingRegions+process.hltDisplacedhltIter4PFlowPixelLessClusterCheck+process.hltDisplacedhltIter4PFlowPixelLessHitDoublets+process.hltDisplacedhltIter4PFlowPixelLessHitTriplets+process.hltDisplacedhltIter4PFlowPixelLessSeeds+process.hltDisplacedhltIter4PFlowCkfTrackCandidates+process.hltDisplacedhltIter4PFlowCtfWithMaterialTracks+process.hltDisplacedhltIter4PFlowTrackSelectionHighPurity+process.hltIter4MergedWithIter012DisplacedJets)
process.HLTDisplacedTrackRequirementDisplacedJetsLowPt = cms.Sequence(process.hltL4DisplacedDijetFullTracksJetTracksAssociatorAtVertexLowPt+process.hltL4TaggedDisplacedDijetFullTracksTrackIPProducerLowPt+process.hltL4DisplacedDijetFullTracksJetTagProducerFromIPLowPt+process.hltL4DisplacedDijetFullTracksHLTCaloJetTagFilterLowPt)
process.HLT2PromptTrackRequirementIter0DisplacedJetsMidPt = cms.Sequence(process.hltL3DisplacedDijetFullTracksJetTracksAssociatorAtVertexMidPt+process.hltL3DisplacedDijet100FullTracksTrackIPProducerMidPt+process.hltL3DisplacedDijetFullTracksJetTagProducerFromIPMidPt+process.hltTwoPromptHLTL3DisplacedDijetFullTracksHLTCaloJetTagFilterMidPt)
process.HLT2PromptTrackRequirementIter12DisplacedJetsMidPt = cms.Sequence(process.hltL4DisplacedDijetFullTracksJetPromptTracksAssociatorAtVertexMidPt+process.hltL4PromptDisplacedDijetFullTracksTrackIPProducerMidPt+process.hltL4PromptDisplacedDijetFullTracksJetTagProducerFromIPMidPt+process.hltL4PromptDisplacedDijetFullTracksHLTCaloJetTagFilterMidPt)
process.HLTDisplacedTrackRequirementDisplacedJetsMidPt = cms.Sequence(process.hltL4DisplacedDijetFullTracksJetTracksAssociatorAtVertexMidPt+process.hltL4TaggedDisplacedDijetFullTracksTrackIPProducerMidPt+process.hltL4DisplacedDijetFullTracksJetTagProducerFromIPMidPt+process.hltL4DisplacedDijetFullTracksHLTCaloJetTagFilterMidPt)
process.HLTPFHcalClusteringForEgammaUnseeded = cms.Sequence(process.hltParticleFlowRecHitHBHE+process.hltParticleFlowRecHitHF+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL+process.hltParticleFlowClusterHFForEgammaUnseeded)
process.HLTIterL3OImuonTkCandidateSequenceNoVtx = cms.Sequence(process.hltIterL3OISeedsFromL2MuonsNoVtx+process.hltIterL3OITrackCandidatesNoVtx+process.hltIterL3OIMuCtfWithMaterialTracksNoVtx+process.hltIterL3OIMuonTrackCutClassifierNoVtx+process.hltIterL3OIMuonTrackSelectionHighPurityNoVtx+process.hltL3MuonsIterL3OINoVtx)
process.HLTIterL3MuonRecoPixelTracksSequenceNoVtx = cms.Sequence(process.hltIterL3MuonPixelTracksFilterNoVtx+process.hltIterL3MuonPixelTracksFitterNoVtx+process.hltIterL3MuonPixelTracksTrackingRegionsNoVtx+process.hltIterL3MuonPixelLayerQuadrupletsNoVtx+process.hltIterL3MuonPixelTracksHitDoubletsNoVtx+process.hltIterL3MuonPixelTracksHitQuadrupletsNoVtx+process.hltIterL3MuonPixelTracksNoVtx)
process.HLTIterL3MuonRecopixelvertexingSequenceNoVtx = cms.Sequence(process.HLTIterL3MuonRecoPixelTracksSequenceNoVtx+process.hltIterL3MuonPixelVerticesNoVtx+process.hltIterL3MuonTrimmedPixelVerticesNoVtx)
process.HLTIterativeTrackingIteration0ForIterL3MuonNoVtx = cms.Sequence(process.hltIter0IterL3MuonPixelSeedsFromPixelTracksNoVtx+process.hltIter0IterL3MuonCkfTrackCandidatesNoVtx+process.hltIter0IterL3MuonCtfWithMaterialTracksNoVtx+process.hltIter0IterL3MuonTrackCutClassifierNoVtx+process.hltIter0IterL3MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingIteration2ForIterL3MuonNoVtx = cms.Sequence(process.hltIter2IterL3MuonClustersRefRemovalNoVtx+process.hltIter2IterL3MuonMaskedMeasurementTrackerEventNoVtx+process.hltIter2IterL3MuonPixelLayerTripletsNoVtx+process.hltIter2IterL3MuonPixelClusterCheckNoVtx+process.hltIter2IterL3MuonPixelHitDoubletsNoVtx+process.hltIter2IterL3MuonPixelHitTripletsNoVtx+process.hltIter2IterL3MuonPixelSeedsNoVtx+process.hltIter2IterL3MuonCkfTrackCandidatesNoVtx+process.hltIter2IterL3MuonCtfWithMaterialTracksNoVtx+process.hltIter2IterL3MuonTrackCutClassifierNoVtx+process.hltIter2IterL3MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingIter02ForIterL3MuonNoVtx = cms.Sequence(process.HLTIterativeTrackingIteration0ForIterL3MuonNoVtx+process.HLTIterativeTrackingIteration2ForIterL3MuonNoVtx+process.hltIter2IterL3MuonMergedNoVtx)
process.HLTIterL3IOmuonTkCandidateSequenceNoVtx = cms.Sequence(process.HLTIterL3MuonRecopixelvertexingSequenceNoVtx+process.HLTIterativeTrackingIter02ForIterL3MuonNoVtx+process.hltL3MuonsIterL3IONoVtx)
process.HLTIterL3OIAndIOFromL2muonTkCandidateSequenceNoVtx = cms.Sequence(process.HLTIterL3OImuonTkCandidateSequenceNoVtx+process.hltIterL3OIL3MuonsLinksCombinationNoVtx+process.hltIterL3OIL3MuonsNoVtx+process.hltIterL3OIL3MuonCandidatesNoVtx+process.hltL2SelectorForL3IONoVtx+process.HLTIterL3IOmuonTkCandidateSequenceNoVtx+process.hltIterL3MuonsFromL2LinksCombinationNoVtx+process.hltIterL3MuonsFromL2NoVtx)
process.HLTRecoPixelTracksSequenceForIterL3FromL1MuonNoVtx = cms.Sequence(process.hltIterL3FromL1MuonPixelTracksTrackingRegionsNoVtx+process.hltIterL3FromL1MuonPixelLayerQuadrupletsNoVtx+process.hltIterL3FromL1MuonPixelTracksHitDoubletsNoVtx+process.hltIterL3FromL1MuonPixelTracksHitQuadrupletsNoVtx+process.hltIterL3FromL1MuonPixelTracksNoVtx)
process.HLTRecopixelvertexingSequenceForIterL3FromL1MuonNoVtx = cms.Sequence(process.HLTRecoPixelTracksSequenceForIterL3FromL1MuonNoVtx+process.hltIterL3FromL1MuonPixelVerticesNoVtx+process.hltIterL3FromL1MuonTrimmedPixelVerticesNoVtx)
process.HLTIterativeTrackingIteration0ForIterL3FromL1MuonNoVtx = cms.Sequence(process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksNoVtx+process.hltIter0IterL3FromL1MuonCkfTrackCandidatesNoVtx+process.hltIter0IterL3FromL1MuonCtfWithMaterialTracksNoVtx+process.hltIter0IterL3FromL1MuonTrackCutClassifierNoVtx+process.hltIter0IterL3FromL1MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingIteration2ForIterL3FromL1MuonNoVtx = cms.Sequence(process.hltIter2IterL3FromL1MuonClustersRefRemovalNoVtx+process.hltIter2IterL3FromL1MuonMaskedMeasurementTrackerEventNoVtx+process.hltIter2IterL3FromL1MuonPixelLayerTripletsNoVtx+process.hltIter2IterL3FromL1MuonPixelClusterCheckNoVtx+process.hltIter2IterL3FromL1MuonPixelHitDoubletsNoVtx+process.hltIter2IterL3FromL1MuonPixelHitTripletsNoVtx+process.hltIter2IterL3FromL1MuonPixelSeedsNoVtx+process.hltIter2IterL3FromL1MuonCkfTrackCandidatesNoVtx+process.hltIter2IterL3FromL1MuonCtfWithMaterialTracksNoVtx+process.hltIter2IterL3FromL1MuonTrackCutClassifierNoVtx+process.hltIter2IterL3FromL1MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingIter02ForIterL3FromL1MuonNoVtx = cms.Sequence(process.HLTIterativeTrackingIteration0ForIterL3FromL1MuonNoVtx+process.HLTIterativeTrackingIteration2ForIterL3FromL1MuonNoVtx+process.hltIter2IterL3FromL1MuonMergedNoVtx)
process.HLTIterL3IOmuonFromL1TkCandidateSequenceNoVtx = cms.Sequence(process.HLTRecopixelvertexingSequenceForIterL3FromL1MuonNoVtx+process.HLTIterativeTrackingIter02ForIterL3FromL1MuonNoVtx)
process.HLTBeginSequenceL1Fat = cms.Sequence(process.hltTriggerType+process.hltL1EventNumberL1Fat+process.HLTL1UnpackerSequence+process.HLTBeamSpot)
process.HLTBeginSequenceRandom = cms.Sequence(process.hltRandomEventsFilter+process.hltGtStage2Digis)
process.HLTAK4PixelOnlyPFCorrectorProducersSequence = cms.Sequence(process.hltAK4PixelOnlyPFFastJetCorrector+process.hltAK4PixelOnlyPFRelativeCorrector+process.hltAK4PixelOnlyPFAbsoluteCorrector+process.hltAK4PixelOnlyPFResidualCorrector+process.hltAK4PixelOnlyPFCorrector)
process.HLTAK4PixelOnlyPFJetsCorrectionSequence = cms.Sequence(process.hltFixedGridRhoFastjetPixelOnlyAll+process.HLTAK4PixelOnlyPFCorrectorProducersSequence+process.hltAK4PixelOnlyPFJetsCorrected+process.hltAK4PixelOnlyPFJetsLooseIDCorrected+process.hltAK4PixelOnlyPFJetsTightIDCorrected)
process.HLTPFClusteringEcalMFForMuonsNoVtx = cms.Sequence(process.hltRecHitInRegionForMuonsMFnoVtx+process.hltRecHitInRegionForMuonsESNoVtx+process.hltParticleFlowRecHitECALForMuonsMFNoVtx+process.hltParticleFlowRecHitPSForMuonsNoVtx+process.hltParticleFlowClusterECALUncorrectedForMuonsMFNoVtx+process.hltParticleFlowClusterPSForMuonsNoVtx+process.hltParticleFlowClusterECALForMuonsMFNoVtx)
process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuonsNoVtx = cms.Sequence(process.HLTPFHcalClustering+process.hltMuonHcalPFClusterIsoForMuonsNoVtx)
process.HLTIterativeTrackingL3MuonIteration0NoVtx = cms.Sequence(process.hltPixelTracksForSeedsL3MuonFilter+process.hltPixelTracksForSeedsL3MuonFitter+process.hltPixelTracksTrackingRegionsForSeedsL3MuonNoVtx+process.hltPixelTracksHitDoubletsForSeedsL3MuonNoVtx+process.hltPixelTracksHitQuadrupletsForSeedsL3MuonNoVtx+process.hltPixelTracksForSeedsL3MuonNoVtx+process.hltIter0L3MuonPixelSeedsFromPixelTracksNoVtx+process.hltIter0L3MuonCkfTrackCandidatesNoVtx+process.hltIter0L3MuonCtfWithMaterialTracksNoVtx+process.hltIter0L3MuonTrackCutClassifierNoVtx+process.hltIter0L3MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingL3MuonIteration1NoVtx = cms.Sequence(process.hltIter1L3MuonClustersRefRemovalNoVtx+process.hltIter1L3MuonMaskedMeasurementTrackerEventNoVtx+process.hltIter1L3MuonPixelLayerQuadrupletsNoVtx+process.hltIter1L3MuonPixelTrackingRegionsNoVtx+process.hltIter1L3MuonPixelClusterCheck+process.hltIter1L3MuonPixelHitDoubletsNoVtx+process.hltIter1L3MuonPixelHitQuadrupletsNoVtx+process.hltIter1L3MuonPixelSeedsNoVtx+process.hltIter1L3MuonCkfTrackCandidatesNoVtx+process.hltIter1L3MuonCtfWithMaterialTracksNoVtx+process.hltIter1L3MuonTrackCutClassifierPromptNoVtx+process.hltIter1L3MuonTrackCutClassifierDetachedNoVtx+process.hltIter1L3MuonTrackCutClassifierMergedNoVtx+process.hltIter1L3MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingL3MuonIteration2NoVtx = cms.Sequence(process.hltIter2L3MuonClustersRefRemovalNoVtx+process.hltIter2L3MuonMaskedMeasurementTrackerEventNoVtx+process.hltIter2L3MuonPixelLayerTripletsNoVtx+process.hltIter2L3MuonPixelTrackingRegionsNoVtx+process.hltIter2L3MuonPixelClusterCheck+process.hltIter2L3MuonPixelHitDoubletsNoVtx+process.hltIter2L3MuonPixelHitTripletsNoVtx+process.hltIter2L3MuonPixelSeedsNoVtx+process.hltIter2L3MuonCkfTrackCandidatesNoVtx+process.hltIter2L3MuonCtfWithMaterialTracksNoVtx+process.hltIter2L3MuonTrackCutClassifierNoVtx+process.hltIter2L3MuonTrackSelectionHighPurityNoVtx)
process.HLTIterativeTrackingL3MuonIter02NoVtx = cms.Sequence(process.HLTIterativeTrackingL3MuonIteration0NoVtx+process.HLTIterativeTrackingL3MuonIteration1NoVtx+process.hltIter1L3MuonMergedNoVtx+process.HLTIterativeTrackingL3MuonIteration2NoVtx+process.hltIter2L3MuonMergedNoVtx)
process.HLTDoHIEcalClusWithCleaningSequence = cms.Sequence(process.hltIslandBasicClustersHI+process.hltHiIslandSuperClustersHI+process.hltHiCorrectedIslandBarrelSuperClustersHI+process.hltHiCorrectedIslandEndcapSuperClustersHI+process.hltCleanedHiCorrectedIslandBarrelSuperClustersHI+process.hltRecoHIEcalWithCleaningCandidate)
process.HLTBeginSequenceCalibration = cms.Sequence(process.hltCalibrationEventsFilter+process.hltGtStage2Digis)
process.HLTBeginSequenceNZS = cms.Sequence(process.hltTriggerType+process.hltL1EventNumberNZS+process.HLTL1UnpackerSequence+process.HLTBeamSpot)
process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence = cms.Sequence(process.HLTMediumChargedIsoPFTauSequence+process.hltPFTau50+process.hltSelectedPFTausTrackFinding+process.hltPFTau50Track+process.hltPFTauTrackPt30Discriminator+process.hltPFTau1Prong+process.hltSelectedPFTausTrackPt30MediumAbsOrRelIsolation1Prong+process.hltPFTau50TrackPt30MediumAbsOrRelIso1Prong)
process.HLTMediumIsoPFTauHighPtRelaxedIsoSequence = cms.Sequence(process.hltPFTauMediumHighPtRelaxedIsoAbsoluteIsolationDiscriminator+process.hltPFTauMediumHighPtRelaxedIsoRelativeIsolationDiscriminator+process.hltPFTauMediumHighPtRelaxedIsoAbsOrRelIsolationDiscriminator)
process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50 = cms.Sequence(process.HLTMediumIsoPFTauHighPtRelaxedIsoSequence+process.hltPFTauTrackPt50Discriminator+process.hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation)
process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50OnePr = cms.Sequence(process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50+process.hltPFTau1Prong+process.hltSelectedPFTausTrackPt50AbsOrRelMediumHighPtRelaxedIsoIsolation1Prong)
process.HLTDoublePFTauPt35Eta2p1Trk1Reg = cms.Sequence(process.hltDoublePFTau35Reg+process.hltPFTauTrackPt1DiscriminatorReg+process.hltSelectedPFTausTrackPt1Reg+process.hltDoublePFTau35TrackPt1Reg)
process.HLTHPSDoublePFTauPt30Eta2p1Trk1Reg = cms.Sequence(process.hltHpsDoublePFTau30Reg+process.hltHpsPFTauTrackPt1DiscriminatorReg+process.hltHpsSelectedPFTausTrackPt1Reg+process.hltHpsDoublePFTau30TrackPt1Reg)
process.HLTHPSDoublePFTauPt35Eta2p1Trk1Reg = cms.Sequence(process.hltHpsDoublePFTau35Reg+process.hltHpsPFTauTrackPt1DiscriminatorReg+process.hltHpsSelectedPFTausTrackPt1Reg+process.hltHpsDoublePFTau35TrackPt1Reg)
process.HLTHPSDoublePFTauPt40Eta2p1Trk1Reg = cms.Sequence(process.hltHpsDoublePFTau40Reg+process.hltHpsPFTauTrackPt1DiscriminatorReg+process.hltHpsSelectedPFTausTrackPt1Reg+process.hltHpsDoublePFTau40TrackPt1Reg)
process.HLTDoubleLooseChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTLooseChargedIsoPFTauSequence+process.hltDoublePFTau20+process.hltSelectedPFTausTrackFinding+process.hltDoublePFTau20Track+process.hltSelectedPFTausTrackFindingLooseChargedIsolation+process.hltDoublePFTau20TrackLooseChargedIso+process.hltPFTauAgainstMuonDiscriminator+process.hltSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon+process.hltDoublePFTau20TrackLooseChargedIsoAgainstMuon)
process.HLTHPSDoubleLooseChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTHPSLooseChargedIsoPFTauSequence+process.hltHpsDoublePFTau20+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsDoublePFTau20Track+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolation+process.hltHpsDoublePFTau20TrackLooseChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingLooseChargedIsolationAgainstMuon+process.hltHpsDoublePFTau20TrackLooseChargedIsoAgainstMuon)
process.HLTHPSDoubleMediumChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTHPSMediumChargedIsoPFTauSequence+process.hltHpsDoublePFTau20+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsDoublePFTau20Track+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolation+process.hltHpsDoublePFTau20TrackMediumChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingMediumChargedIsolationAgainstMuon+process.hltHpsDoublePFTau20TrackMediumChargedIsoAgainstMuon)
process.HLTHPSDoubleTightChargedIsoAntiMuonPFTau20Sequence = cms.Sequence(process.HLTHPSTightChargedIsoPFTauSequence+process.hltHpsDoublePFTau20+process.hltHpsSelectedPFTausTrackFinding+process.hltHpsDoublePFTau20Track+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolation+process.hltHpsDoublePFTau20TrackTightChargedIso+process.hltHpsPFTauAgainstMuonDiscriminator+process.hltHpsSelectedPFTausTrackFindingTightChargedIsolationAgainstMuon+process.hltHpsDoublePFTau20TrackTightChargedIsoAgainstMuon)
process.HLTIterativeTrackingDoubleJpsiIteration0 = cms.Sequence(process.hltPixelTracksForSeedsJpsiFilter+process.hltPixelTracksForSeedsJpsiFitter+process.hltPixelTracksTrackingRegionsForSeedsJpsiDoubleTrk+process.hltPixelLayerQuadruplets+process.hltPixelTracksHitDoubletsForSeedsJpsiDoubleTrk+process.hltPixelTracksHitQuadrupletsForSeedsJpsiDoubleTrk+process.hltPixelTracksForSeedsJpsiDoubleTrk+process.hltIter0DisplacedJpsiPixelSeedsFromPixelTracksDoubleTrk+process.hltIter0DisplacedJpsiCkfTrackCandidatesDoubleTrk+process.hltIter0DisplacedJpsiCtfWithMaterialTracksDoubleTrk+process.hltIter0DisplacedJpsiTrackCutClassifierDoubleTrk+process.hltIter0DisplacedJpsiTrackSelectionHighPurityDoubleTrk)
process.HLTIterativeTrackingDoubleJpsiIteration1 = cms.Sequence(process.hltIter1DisplacedJpsiClustersRefRemovalDoubleTrk+process.hltIter1DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk+process.hltIter1DisplacedJpsiPixelLayerQuadrupletsDoubleTrk+process.hltIter1DisplacedJpsiPixelTrackingRegionsDoubleTrk+process.hltIter1DisplacedJpsiPixelClusterCheck+process.hltIter1DisplacedJpsiPixelHitDoubletsDoubleTrk+process.hltIter1DisplacedJpsiPixelHitQuadrupletsDoubleTrk+process.hltIter1DisplacedJpsiPixelSeedsDoubleTrk+process.hltIter1DisplacedJpsiCkfTrackCandidatesDoubleTrk+process.hltIter1DisplacedJpsiCtfWithMaterialTracksDoubleTrk+process.hltIter1DisplacedJpsiTrackCutClassifierPromptDoubleTrk+process.hltIter1DisplacedJpsiTrackCutClassifierDetachedDoubleTrk+process.hltIter1DisplacedJpsiTrackCutClassifierMergedDoubleTrk+process.hltIter1DisplacedJpsiTrackSelectionHighPurityDoubleTrk)
process.HLTIterativeTrackingDoubleJpsiIteration2 = cms.Sequence(process.hltIter2DisplacedJpsiClustersRefRemovalDoubleTrk+process.hltIter2DisplacedJpsiMaskedMeasurementTrackerEventDoubleTrk+process.hltIter2DisplacedJpsiPixelLayerTripletsDoubleTrk+process.hltIter2DisplacedJpsiPixelTrackingRegionsDoubleTrk+process.hltIter2DisplacedJpsiPixelClusterCheck+process.hltIter2DisplacedJpsiPixelHitDoubletsDoubleTrk+process.hltIter2DisplacedJpsiPixelHitTripletsDoubleTrk+process.hltIter2DisplacedJpsiPixelSeedsDoubleTrk+process.hltIter2DisplacedJpsiCkfTrackCandidatesDoubleTrk+process.hltIter2DisplacedJpsiCtfWithMaterialTracksDoubleTrk+process.hltIter2DisplacedJpsiTrackCutClassifierDoubleTrk+process.hltIter2DisplacedJpsiTrackSelectionHighPurityDoubleTrk)
process.HLTIterativeTrackingTripletRecoveryDisplacedJpsiRegDoubleTrk = cms.Sequence(process.hltTripletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryPixelLayerTripletsDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryPixelTrackingRegionsDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryPixelClusterCheckDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryPixelHitDoubletsDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryPixelHitTripletsDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryPixelSeedsDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryCkfTrackCandidatesDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk)
process.HLTIterativeTrackingDoubletRecoveryDisplacedJpsiRegDoubleTrk = cms.Sequence(process.hltDoubletRecoveryClustersRefRemovalDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryMaskedMeasurementTrackerEventDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryPixelLayerPairsDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryPixelClusterCheckDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryPixelHitDoubletsDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryPixelSeedsDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryCkfTrackCandidatesDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryCtfWithMaterialTracksDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryTrackCutClassifierDisplacedJpsiRegDoubleTrk+process.hltDoubletRecoveryTrackSelectionHighPurityDisplacedJpsiRegDoubleTrk)
process.HLTIterativeTrackingDoubleJpsiIter02 = cms.Sequence(process.HLTIterativeTrackingDoubleJpsiIteration0+process.HLTIterativeTrackingDoubleJpsiIteration1+process.hltIter1DisplacedJpsiMergedDoubleTrk+process.HLTIterativeTrackingDoubleJpsiIteration2+process.hltIter2DisplacedJpsiMergedDoubleTrk+process.HLTIterativeTrackingTripletRecoveryDisplacedJpsiRegDoubleTrk+process.hltTripletRecoveryMergedDisplacedJpsiRegDoubleTrk+process.HLTIterativeTrackingDoubletRecoveryDisplacedJpsiRegDoubleTrk+process.hltMergedTracksDisplacedJpsiRegDoubleTrk)
process.HLTFastPrimaryVertexSequence = cms.Sequence(process.hltSelectorJets20L1FastJet+process.hltSelectorCentralJets20L1FastJeta+process.hltSelector4CentralJetsL1FastJet+(process.hltSelectorJets20L1FastJet+process.hltSelectorCentralJets20L1FastJeta+process.hltSiPixelDigisRegForBTag+process.hltSiPixelClustersRegForBTag+process.hltSiPixelClustersRegForBTagCache+process.hltSiPixelRecHitsRegForBTag+process.hltPixelLayerQuadrupletsRegForBTag)+(process.hltSelector4CentralJetsL1FastJet+process.hltFastPrimaryVertex+process.hltFastPVPixelVertexFilter+process.hltFastPVPixelTracksFilter+process.hltFastPVPixelTracksFitter+process.hltFastPVPixelTracksTrackingRegions+process.hltFastPVPixelTracksHitDoublets+process.hltFastPVPixelTracksHitQuadruplets+process.hltFastPVPixelTracks+process.hltFastPVJetTracksAssociator+process.hltFastPVJetVertexChecker+process.hltFastPVPixelTracksRecoverFilter+process.hltFastPVPixelTracksRecoverFitter+process.hltFastPVPixelTracksTrackingRegionsRecover+process.hltFastPVPixelTracksHitDoubletsRecover+process.hltFastPVPixelTracksHitQuadrupletsRecover+process.hltFastPVPixelTracksRecover+process.hltFastPVPixelTracksMerger+process.hltFastPVPixelVertices+process.hltFastPVPixelVerticesFilter))
process.HLTBtagDeepCSVSequencePFAK8 = cms.Sequence(process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.hltPFJetForBtagSelectorAK8+process.hltPFJetForBtagAK8+process.hltDeepBLifetimeTagInfosPFAK8+process.hltDeepInclusiveVertexFinderPF+process.hltDeepInclusiveSecondaryVerticesPF+process.hltDeepTrackVertexArbitratorPF+process.hltDeepInclusiveMergedVerticesPF+process.hltDeepSecondaryVertexTagInfosPFAK8+process.hltDeepCombinedSecondaryVertexBJetTagsInfosAK8+process.hltDeepCombinedSecondaryVertexBJetTagsPFAK8)
process.HLTBtagBoostedDoubleSecondaryVertexSequencePFAK8 = cms.Sequence(process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.hltPFJetForDBtagSelectorAK8+process.hltPFJetForDBtagAK8+process.hltBoostedDBLifetimeTagInfosPFAK8+process.hltBoostedDBInclusiveVertexFinderPFAK8+process.hltBoostedDBInclusiveSecondaryVerticesPFAK8+process.hltBoostedDBTrackVertexArbitratorPFAK8+process.hltBoostedDBInclusiveMergedVerticesPFAK8+process.hltBoostedDBSecondaryVertexTagInfosPFAK8+process.hltBoostedDBSVAK8TagInfosPF+process.hltBoostedDBJetTagsPFAK8)
process.HLTBeginSequenceParking = cms.Sequence(process.hltTriggerType+process.hltEnableParking+process.HLTL1UnpackerSequence+process.HLTBeamSpot)
process.HLTPPSPixelRecoSequence = cms.Sequence(process.hltCTPPSPixelDigis+process.hltCTPPSPixelClusters+process.hltCTPPSPixelRecHits+process.hltCTPPSPixelLocalTracks)
process.HLTPixelOnlyPFScoutingPackingSequence = cms.Sequence(process.hltScoutingPFPacker+process.hltScoutingMuonPacker+process.hltScoutingEgammaPacker)
process.HLTPFScoutingPackingSequence = cms.Sequence(process.hltScoutingPFPacker+process.hltScoutingMuonPacker+process.hltScoutingEgammaPacker)
process.HLTDoLocalPixelSequence = cms.Sequence(process.HLTDoLocalPixelTask)
process.HLTRecoPixelTracksSequence = cms.Sequence(process.HLTRecoPixelTracksTask)
process.HLTRecopixelvertexingSequence = cms.Sequence(process.hltPixelTracksFitter+process.hltPixelTracksFilter, process.HLTRecopixelvertexingTask)
process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerTask)
process.HLTPreshowerSequence = cms.Sequence(process.HLTPreshowerTask)
process.HLTDoFullUnpackingEgammaEcalSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalTask)
process.HLTDoFullUnpackingEgammaEcalMFSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalTask)
process.HLTDoLocalHcalSequence = cms.Sequence(process.HLTDoLocalHcalTask)
process.HLTStoppedHSCPLocalHcalReco = cms.Sequence(process.HLTStoppedHSCPLocalHcalRecoTask)
process.HLTIterativeTrackingIteration0Task = cms.Sequence(process.hltIter0PFLowPixelSeedsFromPixelTracks+process.hltIter0PFlowCkfTrackCandidates+process.hltIter0PFlowCtfWithMaterialTracks+process.hltIter0PFlowTrackCutClassifier+process.hltMergedTracks)
process.HLTIterativeTrackingIteration0 = cms.Sequence(process.HLTIterativeTrackingIteration0Task)
process.HLTIterativeTrackingIter02 = cms.Sequence(process.HLTIterativeTrackingIteration0)
process.HLTIterL3MuonRecopixelvertexingSequence = cms.Sequence(process.HLTRecopixelvertexingSequence+process.hltIterL3MuonPixelTracksTrackingRegions+process.hltPixelTracksInRegionL2)
process.HLTRecopixelvertexingSequenceForIterL3FromL1Muon = cms.Sequence(process.HLTRecopixelvertexingSequence+process.hltIterL3FromL1MuonPixelTracksTrackingRegions+process.hltPixelTracksInRegionL1)
process.HLTIterativeTrackingL3MuonIteration0 = cms.Sequence(process.hltPixelTracksTrackingRegionsForSeedsL3Muon+process.hltPixelTracksInRegionIter0L3Muon+process.hltIter0L3MuonPixelSeedsFromPixelTracks+process.hltIter0L3MuonCkfTrackCandidates+process.hltIter0L3MuonCtfWithMaterialTracks+process.hltIter0L3MuonTrackCutClassifier+process.hltIter0L3MuonTrackSelectionHighPurity)
process.HLTTrackReconstructionForIsoL3MuonIter02 = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingL3MuonIteration0)
process.HLTL3muontrkisorecoSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingL3MuonIteration0)
process.HLTMuonLocalRecoSequence = cms.Sequence(process.hltMuonDTDigis+process.hltDt1DRecHits+process.hltDt4DSegments+process.hltMuonCSCDigis+process.hltCsc2DRecHits+process.hltCscSegments+process.hltMuonRPCDigis+process.hltRpcRecHits+process.hltMuonGEMDigis+process.hltGemRecHits+process.hltGemSegments)
process.HLTIterativeTrackingIteration0ForIterL3Muon = cms.Sequence(process.hltIter0IterL3MuonPixelSeedsFromPixelTracks+process.hltIter0IterL3MuonPixelSeedsFromPixelTracksFiltered+process.hltIter0IterL3MuonCkfTrackCandidates+process.hltIter0IterL3MuonCtfWithMaterialTracks+process.hltIter0IterL3MuonTrackCutClassifier+process.hltIter0IterL3MuonTrackSelectionHighPurity)
process.HLTIterativeTrackingIteration0ForIterL3FromL1Muon = cms.Sequence(process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracks+process.hltIter0IterL3FromL1MuonPixelSeedsFromPixelTracksFiltered+process.hltIter0IterL3FromL1MuonCkfTrackCandidates+process.hltIter0IterL3FromL1MuonCtfWithMaterialTracks+process.hltIter0IterL3FromL1MuonTrackCutClassifier+process.hltIter0IterL3FromL1MuonTrackSelectionHighPurity)
process.HLTParticleFlowSequenceROIForBTag = cms.Sequence(process.HLTPreshowerSequence+process.hltParticleFlowRecHitECALUnseeded+process.hltParticleFlowRecHitHBHE+process.hltParticleFlowRecHitHF+process.hltParticleFlowRecHitPSUnseeded+process.hltParticleFlowClusterECALUncorrectedUnseeded+process.hltParticleFlowClusterPSUnseeded+process.hltParticleFlowClusterECALUnseeded+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL+process.hltParticleFlowClusterHF+process.hltLightPFTracksROIForBTag+process.hltParticleFlowBlockROIForBTag+process.hltParticleFlowROIForBTag)
process.HLTFastPrimaryVertexSequenceROIForBTag = cms.Sequence(process.hltSelectorJets20L1FastJet+process.hltSelectorCentralJets20L1FastJeta+process.hltSelector4CentralJetsL1FastJet+process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence)
process.HLTAK4PFCorrectorProducersSequenceROIForBTag = cms.Sequence(process.hltAK4PFFastJetCorrectorROIForBTag+process.hltAK4PFRelativeCorrector+process.hltAK4PFAbsoluteCorrector+process.hltAK4PFResidualCorrector+process.hltAK4PFCorrectorROIForBTag)
process.HLTAK4PFJetsCorrectionSequenceROIForBTag = cms.Sequence(process.hltFixedGridRhoFastjetAllROIForBTag+process.HLTAK4PFCorrectorProducersSequenceROIForBTag+process.hltAK4PFJetsCorrectedROIForBTag+process.hltAK4PFJetsLooseIDCorrectedROIForBTag+process.hltAK4PFJetsTightIDCorrectedROIForBTag)
process.HLTBtagDeepCSVSequencePFROIForBTag = cms.Sequence(process.hltVerticesPFROIForBTag+process.hltVerticesPFSelectorROIForBTag+process.hltVerticesPFFilterROIForBTag+process.hltPFJetForBtagSelectorROIForBTag+process.hltPFJetForBtagROIForBTag+process.hltDeepBLifetimeTagInfosPFROIForBTag+process.hltDeepInclusiveVertexFinderPFROIForBTag+process.hltDeepInclusiveSecondaryVerticesPFROIForBTag+process.hltDeepTrackVertexArbitratorPFROIForBTag+process.hltDeepInclusiveMergedVerticesPFROIForBTag+process.hltDeepSecondaryVertexTagInfosPFROIForBTag+process.hltDeepCombinedSecondaryVertexBJetTagsInfosROIForBTag+process.hltDeepCombinedSecondaryVertexBJetTagsPFROIForBTag)
process.HLTBtagDeepJetSequencePFROIForBTag = cms.Sequence(process.hltVerticesPFROIForBTag+process.hltVerticesPFSelectorROIForBTag+process.hltVerticesPFFilterROIForBTag+process.hltPFJetForBtagSelectorROIForBTag+process.hltPFJetForBtagROIForBTag+process.hltDeepBLifetimeTagInfosPFROIForBTag+process.hltDeepInclusiveVertexFinderPFROIForBTag+process.hltDeepInclusiveSecondaryVerticesPFROIForBTag+process.hltDeepTrackVertexArbitratorPFROIForBTag+process.hltDeepInclusiveMergedVerticesPFROIForBTag+process.hltDeepSecondaryVertexTagInfosPFROIForBTag+process.hltDeepCombinedSecondaryVertexBJetTagsInfosROIForBTag+process.hltPrimaryVertexAssociationROIForBTag+process.hltPFDeepFlavourTagInfosROIForBTag+process.hltPFDeepFlavourJetTagsROIForBTag+process.hltDeepJetDiscriminatorsJetTagsROIForBTag)
process.HLTBTagMuDiJet100PFMu12SequenceL3ROIForBTag = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet100PFROIForBTag+process.hltSelector4JetsDiJet100PFROIForBTag+process.hltBSoftMuonDiJet100PFMu12L3JetsROIForBTag+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet100PFMu12L3TagInfosROIForBTag+process.hltBSoftMuonDiJet100PFMu12L3BJetTagsByDRROIForBTag)
process.HLTBTagMuDiJet200PFMu12SequenceL3ROIForBTag = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet200PFROIForBTag+process.hltSelector4JetsDiJet200PFROIForBTag+process.hltBSoftMuonDiJet200PFMu12L3JetsROIForBTag+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet200PFMu12L3TagInfosROIForBTag+process.hltBSoftMuonDiJet200PFMu12L3BJetTagsByDRROIForBTag)
process.HLTBTagMuDiJet350PFMu12SequenceL3ROIForBTag = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet350PFROIForBTag+process.hltSelector4JetsDiJet350PFROIForBTag+process.hltBSoftMuonDiJet350PFMu12L3JetsROIForBTag+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet350PFMu12L3TagInfosROIForBTag+process.hltBSoftMuonDiJet350PFMu12L3BJetTagsByDRROIForBTag)
process.HLTBTagMuDiJet40PFMu12SequenceL3ROIForBTag = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet40PFROIForBTag+process.hltSelector4JetsDiJet40PFROIForBTag+process.hltBSoftMuonDiJet40PFMu12L3JetsROIForBTag+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet40PFMu12L3TagInfosROIForBTag+process.hltBSoftMuonDiJet40PFMu12L3BJetTagsByDRROIForBTag)
process.HLTBTagMuDiJet54PFMu12SequenceL3ROIForBTag = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet54PFROIForBTag+process.hltSelector4JetsDiJet54PFROIForBTag+process.hltBSoftMuonDiJet54PFMu12L3JetsROIForBTag+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet54PFMu12L3TagInfosROIForBTag+process.hltBSoftMuonDiJet54PFMu12L3BJetTagsByDRROIForBTag)
process.HLTBTagMuDiJet62PFMu12SequenceL3ROIForBTag = cms.Sequence(process.hltBSoftMuonGetJetsFromDiJet62PFROIForBTag+process.hltSelector4JetsDiJet62PFROIForBTag+process.hltBSoftMuonDiJet62PFMu12L3JetsROIForBTag+process.hltBSoftMuonMu12L3+process.hltBSoftMuonDiJet62PFMu12L3TagInfosROIForBTag+process.hltBSoftMuonDiJet62PFMu12L3BJetTagsByDRROIForBTag)
process.HLTBtagDeepCSVSequencePFPat = cms.Sequence(process.hltVerticesPFROIForBTag+process.hltVerticesPFSelectorROIForBTag+process.hltVerticesPFFilterROIForBTag+process.hltDeepBLifetimePFPatTagInfos+process.hltDeepInclusiveVertexFinderPFROIForBTag+process.hltDeepInclusiveSecondaryVerticesPFROIForBTag+process.hltDeepTrackVertexArbitratorPFROIForBTag+process.hltDeepInclusiveMergedVerticesPFROIForBTag+process.hltDeepSecondaryVertexPFPatTagInfos+process.hltDeepCombinedSecondaryVertexBJetPatTagInfos+process.hltDeepCombinedSecondaryVertexBPFPatJetTags)
process.HLTBtagDeepCSVSequencePFPuppiPat = cms.Sequence(process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.hltDeepBLifetimePFPuppiPatTagInfos+process.hltDeepInclusiveVertexFinderPF+process.hltDeepInclusiveSecondaryVerticesPF+process.hltDeepTrackVertexArbitratorPF+process.hltDeepInclusiveMergedVerticesPF+process.hltDeepSecondaryVertexPFPuppiPatTagInfos+process.hltDeepCombinedSecondaryVertexBPuppiJetPatTagInfos+process.hltDeepCombinedSecondaryVertexBPFPuppiPatJetTags)
process.HLTBtagDeepJetSequencePFPat = cms.Sequence(process.hltVerticesPFROIForBTag+process.hltVerticesPFSelectorROIForBTag+process.hltVerticesPFFilterROIForBTag+process.hltDeepBLifetimePFPatTagInfos+process.hltDeepInclusiveVertexFinderPFROIForBTag+process.hltDeepInclusiveSecondaryVerticesPFROIForBTag+process.hltDeepTrackVertexArbitratorPFROIForBTag+process.hltDeepInclusiveMergedVerticesPFROIForBTag+process.hltDeepSecondaryVertexPFPatTagInfos+process.hltDeepCombinedSecondaryVertexBJetPatTagInfos+process.hltPrimaryVertexAssociationPat+process.hltPFDeepFlavourPatTagInfos+process.hltPFDeepFlavourPatJetTags)
process.analyzerSeq = cms.Sequence(process.btagana)
process.vtxMonitoringSeq = cms.Sequence(process.VertexHistograms_hltPixelVertices+process.VertexHistograms_hltTrimmedPixelVertices+process.VertexHistograms_hltVerticesPF+process.VertexHistograms_hltVerticesPFFilter+process.VertexHistograms_hltVerticesL3FilterROIForBTag+process.VertexHistograms_hltVerticesL3SelectorROIForBTag+process.VertexHistograms_hltVerticesL3ROIForBTag+process.VertexHistograms_hltVerticesPFROIForBTag+process.VertexHistograms_hltVerticesPFSelectorROIForBTag+process.VertexHistograms_hltVerticesPFFilterROIForBTag)
process.HLTDoCaloSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence+process.HLTDoLocalHcalSequence+process.hltTowerMakerForAll)
process.HLTAK8CaloJetsReconstructionSequence = cms.Sequence(process.HLTDoCaloSequence+process.hltAK8CaloJets+process.hltAK8CaloJetsIDPassed)
process.HLTAK8CaloJetsSequence = cms.Sequence(process.HLTAK8CaloJetsReconstructionSequence+process.HLTAK8CaloJetsCorrectionSequence)
process.HLTDoCaloSequencePF = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence+process.HLTDoLocalHcalSequence+process.hltTowerMakerForAll)
process.HLTAK8CaloJetsPrePFRecoSequence = cms.Sequence(process.HLTDoCaloSequencePF+process.hltAK8CaloJetsPF+process.hltAK4CaloJetsPF)
process.HLTPreAK8PFJetsRecoSequence = cms.Sequence(process.HLTAK8CaloJetsPrePFRecoSequence+process.hltAK8CaloJetsPFEt5+process.hltAK4CaloJetsPFEt5)
process.HLTL2muonrecoNocandSequence = cms.Sequence(process.HLTMuonLocalRecoSequence+process.hltL2OfflineMuonSeeds+process.hltL2MuonSeeds+process.hltL2Muons)
process.HLTL2muonrecoSequence = cms.Sequence(process.HLTL2muonrecoNocandSequence+process.hltL2MuonCandidates)
process.HLTIterativeTrackingIter023ForIterL3Muon = cms.Sequence(process.HLTIterativeTrackingIteration0ForIterL3Muon+process.HLTIterativeTrackingIteration2ForIterL3Muon+process.hltIter2IterL3MuonMerged+process.HLTIterativeTrackingIteration3ForIterL3Muon+process.hltIter3IterL3MuonMerged)
process.HLTIterativeTrackingIter023ForIterL3FromL1Muon = cms.Sequence(process.HLTIterativeTrackingIteration0ForIterL3FromL1Muon+process.HLTIterativeTrackingIteration2ForIterL3FromL1Muon+process.hltIter2IterL3FromL1MuonMerged+process.HLTIterativeTrackingIteration3ForIterL3FromL1Muon+process.hltIter3IterL3FromL1MuonMerged)
process.HLTTrackReconstructionForPF = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02+process.hltPFMuonMerging+process.hltMuonLinks+process.hltMuons)
process.HLTParticleFlowSequence = cms.Sequence(process.HLTPreshowerSequence+process.hltParticleFlowRecHitECALUnseeded+process.hltParticleFlowRecHitHBHE+process.hltParticleFlowRecHitHF+process.hltParticleFlowRecHitPSUnseeded+process.hltParticleFlowClusterECALUncorrectedUnseeded+process.hltParticleFlowClusterPSUnseeded+process.hltParticleFlowClusterECALUnseeded+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL+process.hltParticleFlowClusterHF+process.hltLightPFTracks+process.hltParticleFlowBlock+process.hltParticleFlow)
process.HLTAK4CaloJetsReconstructionNoIDSequence = cms.Sequence(process.HLTDoCaloSequence+process.hltAK4CaloJets)
process.HLTElePixelMatchSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.hltPixelLayerPairs+process.hltPixelLayerTriplets+process.hltEgammaHoverE+process.hltEgammaSuperClustersToPixelMatch+process.hltEleSeedsTrackingRegions+process.hltElePixelHitDoublets+process.hltElePixelHitDoubletsForTriplets+process.hltElePixelHitTriplets+process.hltElePixelSeedsDoublets+process.hltElePixelSeedsTriplets+process.hltElePixelSeedsCombined+process.hltEgammaElectronPixelSeeds+process.hltEgammaPixelMatchVars)
process.HLTDiMu5DiEle3CaloIdLTrackIdLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegL1MatchFilter+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegHEFilter+process.HLTElePixelMatchSequence+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegDetaFilter+process.hltDiMu5Ele3CaloIdLTrackIdLElectronlegDphiFilter)
process.HLTDiMu3DiEle7p5CaloIdLTrackIdLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegL1MatchFilter+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegHEFilter+process.HLTElePixelMatchSequence+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegDetaFilter+process.hltDiMu3DiEle7p5CaloIdLTrackIdLElectronlegDphiFilter)
process.HLTL2muonrecoNocandOpenMuSequence = cms.Sequence(process.HLTMuonLocalRecoSequence+process.hltL2OfflineMuonSeeds+process.hltL2MuonSeedsOpenMu+process.hltL2MuonsOpenMu)
process.HLTL2muonrecoSequenceOpenMu = cms.Sequence(process.HLTL2muonrecoNocandOpenMuSequence+process.hltL2MuonCandidatesOpenMu)
process.HLTIterL3muonTkCandidateOpenMuSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.HLTIterL3OIAndIOFromL2muonTkCandidateOpenMuSequence+process.hltIterL3MuonL1MuonNoL2SelectorOpenMu+process.HLTIterL3IOmuonFromL1TkCandidateOpenMuSequence)
process.HLTL3muonrecoNocandOpenMuSequence = cms.Sequence(process.HLTIterL3muonTkCandidateOpenMuSequence+process.hltIterL3MuonMergedOpenMu+process.hltIterL3MuonAndMuonFromL1MergedOpenMu+process.hltL3MuonsIterL3LinksOpenMu+process.hltIterL3MuonsOpenMu)
process.HLTL3muonrecoOpenMuSequence = cms.Sequence(process.HLTL3muonrecoNocandOpenMuSequence+process.hltIterL3MuonCandidatesOpenMu)
process.HLTEle25CaloIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter+process.hltEG25EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG25HEFilter+process.hltEgammaClusterShape+process.hltEG25CaloIdLClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle25CaloIdLPixelMatchFilter)
process.HLTEle25CaloIdLMWSequence = cms.Sequence(process.HLTEle25CaloIdLSequence+process.hltEle25CaloIdLMWPMS2Filter)
process.HLTElePixelMatchUnseededSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.hltPixelLayerPairs+process.hltPixelLayerTriplets+process.hltEgammaHoverEUnseeded+process.hltEgammaSuperClustersToPixelMatchUnseeded+process.hltEleSeedsTrackingRegionsUnseeded+process.hltElePixelHitDoubletsUnseeded+process.hltElePixelHitDoubletsForTripletsUnseeded+process.hltElePixelHitTripletsUnseeded+process.hltElePixelSeedsDoubletsUnseeded+process.hltElePixelSeedsTripletsUnseeded+process.hltElePixelSeedsCombinedUnseeded+process.hltEgammaElectronPixelSeedsUnseeded+process.hltEgammaPixelMatchVarsUnseeded)
process.HLTDoubleEle25CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG25EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltDiEG25HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltDiEG25CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltDiEle25CaloIdLPixelMatchUnseededFilter)
process.HLTDoubleEle25CaloIdLMWSequence = cms.Sequence(process.HLTDoubleEle25CaloIdLUnseededSequence+process.hltDiEle25CaloIdLMWPMS2UnseededFilter)
process.HLTEle27CaloIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter+process.hltEG27EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG27HEFilter+process.hltEgammaClusterShape+process.hltEG27CaloIdLClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle27CaloIdLPixelMatchFilter)
process.HLTEle27CaloIdLMWSequence = cms.Sequence(process.HLTEle27CaloIdLSequence+process.hltEle27CaloIdLMWPMS2Filter)
process.HLTDoubleEle27CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG27EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltDiEG27HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltDiEG27CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltDiEle27CaloIdLPixelMatchUnseededFilter)
process.HLTDoubleEle27CaloIdLMWSequence = cms.Sequence(process.HLTDoubleEle27CaloIdLUnseededSequence+process.hltDiEle27CaloIdLMWPMS2UnseededFilter)
process.HLTEle33CaloIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter+process.hltEG33EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG33HEFilter+process.hltEgammaClusterShape+process.hltEG33CaloIdLClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle33CaloIdLPixelMatchFilter)
process.HLTEle33CaloIdLMWSequence = cms.Sequence(process.HLTEle33CaloIdLSequence+process.hltEle33CaloIdLMWPMS2Filter)
process.HLTDoubleEle33CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG33EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltDiEG33HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltDiEG33CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltDiEle33CaloIdLPixelMatchUnseededFilter)
process.HLTDoubleEle33CaloIdLMWSequence = cms.Sequence(process.HLTDoubleEle33CaloIdLUnseededSequence+process.hltDiEle33CaloIdLMWPMS2UnseededFilter)
process.HLTAK4CaloJetsPrePFRecoSequence = cms.Sequence(process.HLTDoCaloSequencePF+process.hltAK4CaloJetsPF)
process.HLTPreAK4PFJetsRecoSequence = cms.Sequence(process.HLTAK4CaloJetsPrePFRecoSequence+process.hltAK4CaloJetsPFEt5)
process.HLTTrackReconstructionForPFNoMu = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02)
process.HLTTrackReconstructionForIsoElectronIter02 = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTTrackReconstructionForPFNoMu)
process.HLTDoubleEle24erWPTightGsfForTauSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltDoubleEGL1EGerFilter+process.hltDoubleEG24L1EGEtFilter+process.hltEgammaClusterShape+process.hltDoubleEle24erWPTightClusterShapeFilterForTau+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltDoubleEle24erWPTightHEFilterForTau+process.hltEgammaEcalPFClusterIso+process.hltDoubleEle24erWPTightEcalIsoFilterForTau+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltDoubleEle24erWPTightHcalIsoFilterForTau+process.HLTElePixelMatchSequence+process.hltDoubleEle24erWPTightPixelMatchFilterForTau+process.hltDoubleEle24erWPTightPMS2FilterForTau+process.HLTGsfElectronSequence+process.hltDoubleEle24erWPTightGsfOneOEMinusOneOPFilterForTau+process.hltDoubleEle24erWPTightGsfMissingHitsFilterForTau+process.hltDoubleEle24erWPTightGsfDetaFilterForTau+process.hltDoubleEle24erWPTightGsfDphiFilterForTau+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltDoubleEle24erWPTightGsfTrackIsoFilterForTau)
process.HLTDoubleEle8CaloIdMGsfTrackIdMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEgammaCandidatesWrapper+process.hltEG8EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG8HEFilter+process.hltEgammaClusterShape+process.hltEG8CaloIdMClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltDoubleEle8CaloIdMPixelMatchFilter+process.HLTGsfElectronSequence+process.hltDoubleEle8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter+process.hltDoubleEle8CaloIdMGsfTrackIdMDetaFilter+process.hltDoubleEle8CaloIdMGsfTrackIdMDphiFilter)
process.HLTEle37CaloIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter+process.hltEG37EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG37HEFilter+process.hltEgammaClusterShape+process.hltEG37CaloIdLClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle37CaloIdLPixelMatchFilter)
process.HLTEle37CaloIdLMWSequence = cms.Sequence(process.HLTEle37CaloIdLSequence+process.hltEle37CaloIdLMWPMS2Filter)
process.HLTDoubleEle37Ele27CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG37EtUnseededFilter+process.hltDiEG27EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltDiEG27HEUnseededFilter+process.hltEG37HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltDiEG27CaloIdLClusterShapeUnseededFilter+process.hltEG37CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltDiEle27CaloIdLPixelMatchUnseededFilter+process.hltEle37CaloIdLPixelMatchUnseededFilter)
process.HLTDoubleEle37Ele27CaloIdLMWSequence = cms.Sequence(process.HLTDoubleEle37Ele27CaloIdLUnseededSequence+process.hltDiEle27CaloIdLMWPMS2UnseededFilter+process.hltEle37CaloIdLMWPMS2UnseededFilter)
process.HLTEle37CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG37EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltEG37HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG37CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltEle37CaloIdLPixelMatchUnseededFilter)
process.HLTEle37CaloIdLMWUnseededSequence = cms.Sequence(process.HLTEle37CaloIdLUnseededSequence+process.hltEle37CaloIdLMWPMS2UnseededFilter)
process.HLTEle27CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG27EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltEG27HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG27CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltEle27CaloIdLPixelMatchUnseededFilter)
process.HLTEle27CaloIdLMWUnseededSequence = cms.Sequence(process.HLTEle27CaloIdLUnseededSequence+process.hltEle27CaloIdLMWPMS2UnseededFilter)
process.HLTPixelTrackingL3Muon = cms.Sequence(process.hltL3MuonVertex+process.HLTDoLocalPixelSequence+process.hltPixelLayerQuadruplets+process.hltPixelTracksL3MuonFilter+process.hltPixelTracksL3MuonFitter+process.hltPixelTracksTrackingRegionsL3Muon+process.hltPixelTracksHitDoubletsL3Muon+process.hltPixelTracksHitQuadrupletsL3Muon+process.hltPixelTracksL3Muon+process.hltPixelVerticesL3Muon)
process.HLTIterativeTrackingL3MuonIter02 = cms.Sequence(process.HLTIterativeTrackingL3MuonIteration0+process.HLTIterativeTrackingL3MuonIteration1+process.hltIter1L3MuonMerged+process.HLTIterativeTrackingL3MuonIteration2+process.hltIter2L3MuonMerged)
process.HLTTrackReconstructionL3MuonIter02 = cms.Sequence(process.HLTPixelTrackingL3Muon+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingL3MuonIter02)
process.HLTPho33CaloIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithEG26WithJetAndTauFilter+process.hltEG33EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG33HEFilter+process.hltEgammaClusterShape+process.hltEG33CaloIdLClusterShapeFilter)
process.HLTDoublePho33CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG33EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltDiEG33HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltDiEG33CaloIdLClusterShapeUnseededFilter)
process.HLTDoublePho70Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithJetAndTauFilter+process.hltEG70EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG70HEFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG70EtUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG70HEUnseededFilter)
process.HLTDoublePho85Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGNonIsoOrWithJetAndTauFilter+process.hltEG85EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG85HEFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG85EtUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG85HEUnseededFilter)
process.HLTEle20WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGLowETOrFilter+process.hltEG20L1SingleEGLowETOrEtFilter+process.hltEgammaClusterShape+process.hltEle20WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle20WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle20WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle20WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle20WPTightPixelMatchFilter+process.hltEle20WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle20WPTightGsfOneOEMinusOneOPFilter+process.hltEle20WPTightGsfMissingHitsFilter+process.hltEle20WPTightGsfDetaFilter+process.hltEle20WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle20WPTightGsfTrackIsoFilter)
process.HLTEle15WPLooseGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGLowETOrFilter+process.hltEG15L1SingleEGLowETOrEtFilter+process.hltEgammaClusterShape+process.hltEle15WPLoose1ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle15WPLoose1HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle15WPLoose1EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle15WPLoose1HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle15WPLoose1PixelMatchFilter+process.hltEle15WPLoose1PMS2Filter+process.HLTGsfElectronSequence+process.hltEle15WPLoose1GsfOneOEMinusOneOPFilter+process.hltEle15WPLoose1GsfDetaFilter+process.hltEle15WPLoose1GsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle15WPLoose1GsfTrackIsoFilter)
process.HLTEle17WPLooseGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGLowETOrFilter+process.hltEG17L1SingleEGLowETOrEtFilter+process.hltEgammaClusterShape+process.hltEle17WPLoose1ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle17WPLoose1HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle17WPLoose1EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle17WPLoose1HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle17WPLoose1PixelMatchFilter+process.hltEle17WPLoose1PMS2Filter+process.HLTGsfElectronSequence+process.hltEle17WPLoose1GsfOneOEMinusOneOPFilter+process.hltEle17WPLoose1GsfDetaFilter+process.hltEle17WPLoose1GsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle17WPLoose1GsfTrackIsoFilter)
process.HLTEle20WPLooseGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGLowETOrFilter+process.hltEG20L1SingleEGLowETOrEtFilter+process.hltEgammaClusterShape+process.hltEle20WPLoose1ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle20WPLoose1HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle20WPLoose1EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle20WPLoose1HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle20WPLoose1PixelMatchFilter+process.hltEle20WPLoose1PMS2Filter+process.HLTGsfElectronSequence+process.hltEle20WPLoose1GsfOneOEMinusOneOPFilter+process.hltEle20WPLoose1GsfDetaFilter+process.hltEle20WPLoose1GsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle20WPLoose1GsfTrackIsoFilter)
process.HLTEle20Eta2p1WPLooseGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGLowETOrEtaRFilter+process.hltEG20L1SingleEGLowETOrEtaREtFilter+process.hltEgammaClusterShape+process.hltEle20erWPLoose1ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle20erWPLoose1HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle20erWPLoose1EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle20erWPLoose1HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle20erWPLoose1PixelMatchFilter+process.hltEle20erWPLoose1PMS2Filter+process.HLTGsfElectronSequence+process.hltEle20erWPLoose1GsfOneOEMinusOneOPFilter+process.hltEle20erWPLoose1GsfDetaFilter+process.hltEle20erWPLoose1GsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle20erWPLoose1GsfTrackIsoFilter)
process.HLTDiEle27L1DoubleEGWPTightCaloOnlySequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG27L1SingleAndDoubleEGEtFilter+process.hltEgammaClusterShape+process.hltEle27L1DoubleEGWPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle27L1DoubleEGWPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle27L1DoubleEGWPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle27L1DoubleEGWPTightHcalIsoFilter+process.hltDiEG27L1SingleAndDoubleEGEtFilter+process.hltDiEle27L1DoubleEGWPTightClusterShapeFilter+process.hltDiEle27L1DoubleEGWPTightHEFilter+process.hltDiEle27L1DoubleEGWPTightEcalIsoFilter+process.hltDiEle27L1DoubleEGWPTightHcalIsoFilter)
process.HLTEle27WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG27L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle27WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle27WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle27WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle27WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle27WPTightPixelMatchFilter+process.hltEle27WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle27WPTightGsfOneOEMinusOneOPFilter+process.hltEle27WPTightGsfMissingHitsFilter+process.hltEle27WPTightGsfDetaFilter+process.hltEle27WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle27WPTightGsfTrackIsoFilter)
process.HLTEle28WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG28L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle28WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle28WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle28WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle28WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle28WPTightPixelMatchFilter+process.hltEle28WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle28WPTightGsfOneOEMinusOneOPFilter+process.hltEle28WPTightGsfMissingHitsFilter+process.hltEle28WPTightGsfDetaFilter+process.hltEle28WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle28WPTightGsfTrackIsoFilter)
process.HLTEle30WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG30L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle30WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle30WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle30WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle30WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle30WPTightPixelMatchFilter+process.hltEle30WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle30WPTightGsfOneOEMinusOneOPFilter+process.hltEle30WPTightGsfMissingHitsFilter+process.hltEle30WPTightGsfDetaFilter+process.hltEle30WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle30WPTightGsfTrackIsoFilter)
process.HLTEle32WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG32L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle32WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle32WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle32WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle32WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle32WPTightPixelMatchFilter+process.hltEle32WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle32WPTightGsfOneOEMinusOneOPFilter+process.hltEle32WPTightGsfMissingHitsFilter+process.hltEle32WPTightGsfDetaFilter+process.hltEle32WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle32WPTightGsfTrackIsoFilter)
process.HLTEle35WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG35L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle35noerWPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle35noerWPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle35noerWPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle35noerWPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle35noerWPTightPixelMatchFilter+process.hltEle35noerWPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle35noerWPTightGsfOneOEMinusOneOPFilter+process.hltEle35noerWPTightGsfMissingHitsFilter+process.hltEle35noerWPTightGsfDetaFilter+process.hltEle35noerWPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle35noerWPTightGsfTrackIsoFilter)
process.HLTSingleEleGsfL1EGMTSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltSingleEle35WPTightGsfL1EGMTL1MatchFilter+process.hltSingleEle35WPTightGsfL1EGMTEtFilter+process.hltEgammaClusterShape+process.hltSingleEle35WPTightGsfL1EGMTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltSingleEle35WPTightGsfL1EGMTHEFilter+process.hltEgammaEcalPFClusterIso+process.hltSingleEle35WPTightGsfL1EGMTEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltSingleEle35WPTightGsfL1EGMTHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltSingleEle35WPTightGsfL1EGMTPixelMatchFilter+process.hltSingleEle35WPTightGsfL1EGMTPMS2Filter+process.HLTGsfElectronSequence+process.hltSingleEle35WPTightGsfL1EGMTOneOEMinusOneOPFilter+process.hltSingleEle35WPTightGsfL1EGMTChi2Filter+process.hltSingleEle35WPTightGsfL1EGMTMissingHitsFilter+process.hltSingleEle35WPTightGsfL1EGMTDetaFilter+process.hltSingleEle35WPTightGsfL1EGMTDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltSingleEle35WPTightGsfL1EGMTTrackIsoFilter)
process.HLTEle38WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG38L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle38noerWPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle38noerWPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle38noerWPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle38noerWPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle38noerWPTightPixelMatchFilter+process.hltEle38noerWPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle38noerWPTightGsfOneOEMinusOneOPFilter+process.hltEle38noerWPTightGsfMissingHitsFilter+process.hltEle38noerWPTightGsfDetaFilter+process.hltEle38noerWPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle38noerWPTightGsfTrackIsoFilter)
process.HLTEle40WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEG40L1SingleEGOrEtFilter+process.hltEgammaClusterShape+process.hltEle40noerWPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle40noerWPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle40noerWPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle40noerWPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle40noerWPTightPixelMatchFilter+process.hltEle40noerWPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle40noerWPTightGsfOneOEMinusOneOPFilter+process.hltEle40noerWPTightGsfMissingHitsFilter+process.hltEle40noerWPTightGsfDetaFilter+process.hltEle40noerWPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle40noerWPTightGsfTrackIsoFilter)
process.HLTEle32L1DoubleEGWPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG32L1SingleAndDoubleEGEtFilter+process.hltEgammaClusterShape+process.hltEle32L1DoubleEGWPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle32L1DoubleEGWPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle32L1DoubleEGWPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle32L1DoubleEGWPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle32L1DoubleEGWPTightPixelMatchFilter+process.hltEle32L1DoubleEGWPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle32L1DoubleEGWPTightGsfOneOEMinusOneOPFilter+process.hltEle32L1DoubleEGWPTightGsfMissingHitsFilter+process.hltEle32L1DoubleEGWPTightGsfDetaFilter+process.hltEle32L1DoubleEGWPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle32L1DoubleEGWPTightGsfTrackIsoFilter)
process.HLTEle24erWPTightGsfForTauSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1EGerAndTauFilter+process.hltEG24L1EGandTauEtFilter+process.hltEgammaClusterShape+process.hltEle24erWPTightClusterShapeFilterForTau+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle24erWPTightHEFilterForTau+process.hltEgammaEcalPFClusterIso+process.hltEle24erWPTightEcalIsoFilterForTau+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle24erWPTightHcalIsoFilterForTau+process.HLTElePixelMatchSequence+process.hltEle24erWPTightPixelMatchFilterForTau+process.hltEle24erWPTightPMS2FilterForTau+process.HLTGsfElectronSequence+process.hltEle24erWPTightGsfOneOEMinusOneOPFilterForTau+process.hltEle24erWPTightGsfMissingHitsFilterForTau+process.hltEle24erWPTightGsfDetaFilterForTau+process.hltEle24erWPTightGsfDphiFilterForTau+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle24erWPTightGsfTrackIsoFilterForTau)
process.HLTRecoJetSequenceAK4UncorrectedPF = cms.Sequence(process.HLTDoCaloSequencePF+process.hltAK4CaloJetsPF)
process.HLTRecoJetSequenceAK4PrePF = cms.Sequence(process.HLTRecoJetSequenceAK4UncorrectedPF+process.hltAK4CaloJetsPFEt5)
process.HLTParticleFlowSequenceForTaus = cms.Sequence(process.HLTPreshowerSequence+process.hltParticleFlowRecHitECALUnseeded+process.hltParticleFlowRecHitHBHE+process.hltParticleFlowRecHitHF+process.hltParticleFlowRecHitPSUnseeded+process.hltParticleFlowClusterECALUncorrectedUnseeded+process.hltParticleFlowClusterPSUnseeded+process.hltParticleFlowClusterECALUnseeded+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL+process.hltParticleFlowClusterHF+process.hltLightPFTracks+process.hltParticleFlowBlockForTaus+process.hltParticleFlowForTaus)
process.HLTAK4CaloJetsReconstructionSequence = cms.Sequence(process.HLTDoCaloSequence+process.hltAK4CaloJets+process.hltAK4CaloJetsIDPassed)
process.HLTAK4CaloJetsSequence = cms.Sequence(process.HLTAK4CaloJetsReconstructionSequence+process.HLTAK4CaloJetsCorrectionSequence)
process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalMFSequence+process.HLTDoLocalHcalSequence+process.hltTowerMakerForECALMF+process.hltTowerMakerForHCAL+process.hltFixedGridRhoFastjetECALMFForMuons+process.hltFixedGridRhoFastjetHCAL+process.HLTPFClusteringEcalMFForMuons+process.hltMuonEcalMFPFClusterIsoForMuons)
process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fBigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fBigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sBigOrMuXXIsoTauYYerL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTCaloTausCreatorL1TauSeededRegionalSequence = cms.Sequence(process.HLTDoCaloSequence+cms.ignore(process.hltL1sTauVeryBigOR)+process.hltCaloTowerL1sTauVeryBigORSeededRegional+process.hltAkIsoTauL1sTauVeryBigORSeededRegional)
process.HLTL2TauJetsL1TauSeededSequence = cms.Sequence(process.HLTCaloTausCreatorL1TauSeededRegionalSequence+process.hltL2TauJetsL1TauSeeded)
process.HLTTrackReconstructionForPFReg = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalPixelSequenceRegL2TauL1TauSeeded+process.HLTPixelTrackFromQuadAndTriSequenceRegL1TauSeeded+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02TauReg+process.hltPFMuonMergingTauReg+process.hltMuonLinksReg+process.hltMuonsReg)
process.HLTParticleFlowSequenceReg = cms.Sequence(process.HLTPreshowerSequence+process.hltParticleFlowRecHitECALUnseeded+process.hltParticleFlowRecHitHBHE+process.hltParticleFlowRecHitHF+process.hltParticleFlowRecHitPSUnseeded+process.hltParticleFlowClusterECALUncorrectedUnseeded+process.hltParticleFlowClusterPSUnseeded+process.hltParticleFlowClusterECALUnseeded+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL+process.hltParticleFlowClusterHF+process.hltLightPFTracksReg+process.hltParticleFlowBlockReg+process.hltParticleFlowReg)
process.HLTPFJetTriggerSequenceRegNoMu = cms.Sequence(process.HLTTrackReconstructionForPFReg+process.HLTParticleFlowSequenceReg+process.HLTPFJetsSequenceReg)
process.HLTMu24Eta2p1IsoTau30Eta2p1IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22erIsoTau28erL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22IsoTau28erL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTMu27IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTCaloTausCreatorL1TauRegionalSequence = cms.Sequence(process.HLTDoCaloSequence+process.hltCaloTowersIsoTau1Regional+process.hltAkIsoTau1Regional+process.hltCaloTowersIsoTau2Regional+process.hltAkIsoTau2Regional+process.hltCaloTowersIsoTau3Regional+process.hltAkIsoTau3Regional+process.hltCaloTowersIsoTau4Regional+process.hltAkIsoTau4Regional+process.hltCaloTowersIsoTau5Regional+process.hltAkIsoTau5Regional+process.hltCaloTowersIsoTau6Regional+process.hltAkIsoTau6Regional+process.hltCaloTowersIsoTau7Regional+process.hltAkIsoTau7Regional+process.hltCaloTowersIsoTau8Regional+process.hltAkIsoTau8Regional+process.hltCaloTowersIsoTau9Regional+process.hltAkIsoTau9Regional+process.hltCaloTowersIsoTau10Regional+process.hltAkIsoTau10Regional+process.hltCaloTowersIsoTau11Regional+process.hltAkIsoTau11Regional+process.hltCaloTowersIsoTau12Regional+process.hltAkIsoTau12Regional)
process.HLTL2TauJetsSequence = cms.Sequence(process.HLTCaloTausCreatorL1TauRegionalSequence+process.hltL2TauJets)
process.HLTMu20IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu18L1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu18L1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTMu24IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTMu24Eta2p1IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTMu30IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTL2muonrecoNocandSequenceAllBx = cms.Sequence(process.HLTMuonLocalRecoSequence+process.hltL2OfflineMuonSeeds+process.hltL2MuonSeedsAllBx+process.hltL2MuonsAllBx)
process.HLTL2muonrecoSequenceAllBx = cms.Sequence(process.HLTL2muonrecoNocandSequenceAllBx+process.hltL2MuonCandidatesAllBx)
process.HLTL2muonrecoSequenceNoVtx = cms.Sequence(process.HLTL2muonrecoNocandSequence+process.hltL2MuonCandidatesNoVtx)
process.HLTL3muontrkisovvlSequence = cms.Sequence(process.HLTL3muontrkisorecoSequence+process.hltL3MuonRelTrkIsolationVVL)
process.HLTL3muonTkCandidateSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.hltL3TrajSeedOIState+process.hltL3TrackCandidateFromL2OIState+process.hltL3TkTracksFromL2OIState+process.hltL3MuonsOIState+process.hltL3TrajSeedOIHit+process.hltL3TrackCandidateFromL2OIHit+process.hltL3TkTracksFromL2OIHit+process.hltL3MuonsOIHit+process.hltL3TkFromL2OICombination+process.hltPixelLayerTriplets+process.hltPixelLayerPairsLegacy+process.hltMixedLayerPairs+process.hltL3TrajSeedIOHit+process.hltL3TrackCandidateFromL2IOHit+process.hltL3TkTracksFromL2IOHit+process.hltL3MuonsIOHit+process.hltL3TrajectorySeed+process.hltL3TrackCandidateFromL2)
process.HLTOldL3muonrecoNocandSequence = cms.Sequence(process.HLTL3muonTkCandidateSequence+process.hltL3TkTracksMergeStep1+process.hltL3TkTracksFromL2+process.hltL3MuonsLinksCombination+process.hltL3Muons)
process.HLTOldL3muonrecoSequence = cms.Sequence(process.HLTOldL3muonrecoNocandSequence+process.hltOldL3MuonCandidates)
process.HLTHighPt50TrackerMuonSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.hltL1MuonsPt15+process.HLTIterativeTrackingHighPtTkMu+process.hltHighPtTkMu50TkFilt+process.hltHighPtTkMuons+process.hltHighPtTkMuonCands)
process.HLTRecoMETSequence = cms.Sequence(process.HLTDoCaloSequence+process.hltMet)
process.HLTSinglePhoton300erNoHESequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG300EtFilter)
process.HLTMu8DiEle12CaloIdLTrackIdLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegL1MatchFilter+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegHEFilter+process.HLTElePixelMatchSequence+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegDetaFilter+process.hltMu8DiEle12CaloIdLTrackIdLElectronlegDphiFilter)
process.HLTSingleEle8CaloIdMGsfTrackIdMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEgammaCandidatesWrapper+process.hltMu8Ele8EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu8Ele8HEFilter+process.hltEgammaClusterShape+process.hltMu8Ele8CaloIdMClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltMu8Ele8CaloIdMPixelMatchFilter+process.HLTGsfElectronSequence+process.hltMu8Ele8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter+process.hltMu8Ele8CaloIdMGsfTrackIdMDetaFilter+process.hltMu8Ele8CaloIdMGsfTrackIdMDphiFilter)
process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHEFilter+process.hltEgammaEcalPFClusterIso+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDetaFilter+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter)
process.HLTBTagMuDiJet20L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromDiJet20L1FastJet+process.hltSelector4JetsDiJet20L1FastJet+process.hltBSoftMuonDiJet20L1FastJetL25Jets+process.hltBSoftMuonDiJet20L1FastJetL25TagInfos+process.hltBSoftMuonDiJet20L1FastJetL25BJetTagsByDR)
process.HLTBTagMuDiJet40L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromDiJet40L1FastJet+process.hltSelector4JetsDiJet40L1FastJet+process.hltBSoftMuonDiJet40L1FastJetL25Jets+process.hltBSoftMuonDiJet40L1FastJetL25TagInfos+process.hltBSoftMuonDiJet40L1FastJetL25BJetTagsByDR)
process.HLTBTagMuDiJet70L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromDiJet70L1FastJet+process.hltSelector4JetsDiJet70L1FastJet+process.hltBSoftMuonDiJet70L1FastJetL25Jets+process.hltBSoftMuonDiJet70L1FastJetL25TagInfos+process.hltBSoftMuonDiJet70L1FastJetL25BJetTagsByDR)
process.HLTBTagMuDiJet110L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromDiJet110L1FastJet+process.hltSelector4JetsDiJet110L1FastJet+process.hltBSoftMuonDiJet110L1FastJetL25Jets+process.hltBSoftMuonDiJet110L1FastJetL25TagInfos+process.hltBSoftMuonDiJet110L1FastJetL25BJetTagsByDR)
process.HLTBTagMuDiJet200L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromDiJet200L1FastJet+process.hltSelector4JetsDiJet200L1FastJet+process.hltBSoftMuonDiJet200L1FastJetL25Jets+process.hltBSoftMuonDiJet200L1FastJetL25TagInfos+process.hltBSoftMuonDiJet200L1FastJetL25BJetTagsByDR)
process.HLTBTagMuJet300L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromJet300L1FastJet+process.hltSelector4JetsJet300L1FastJet+process.hltBSoftMuonJet300L1FastJetL25Jets+process.hltBSoftMuonJet300L1FastJetL25TagInfos+process.hltBSoftMuonJet300L1FastJetL25BJetTagsByDR)
process.HLTBTagMuAK8DiJet170L1FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromAK8DiJet170L1FastJet+process.hltSelector4JetsAK8DiJet170L1FastJet+process.hltBSoftMuonAK8DiJet170L1FastJetL25Jets+process.hltBSoftMuonAK8DiJet170L1FastJetL25TagInfos+process.hltBSoftMuonAK8DiJet170L1FastJetL25BJetTagsByDR)
process.HLTBTagMuAK8Jet170L1FastJetDoubleMuSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltDoubleMuon0L2PreFiltered0+process.hltBSoftMuonGetJetsFromAK8Jet170L1FastJet+process.hltSelector4JetsAK8Jet170L1FastJet+process.hltBSoftMuonAK8Jet170L1FastJetL25Jets+process.hltBSoftMuonAK8Jet170L1FastJetL25TagInfos+process.hltBSoftMuonAK8Jet170L1FastJetL25BJetTagsByDR)
process.HLTBTagMuJet300L1AK8FastJetSequenceL25 = cms.Sequence(process.HLTL2muonrecoSequence+process.hltBSoftMuonGetJetsFromJet300L1AK8FastJet+process.hltSelector4JetsJet300L1AK8FastJet+process.hltBSoftMuonJet300L1AK8FastJetL25Jets+process.hltBSoftMuonJet300L1AK8FastJetL25TagInfos+process.hltBSoftMuonJet300L1AK8FastJetL25BJetTagsByDR)
process.HLTEle15Ele8CaloIdLTrackIdLIsoVLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1LowETSingleAndDoubleEGOrPairFilter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLEtLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLEtLeg2Filter+process.hltEgammaClusterShape+process.hltEle15Ele8CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle15Ele8CaloIdLTrackIdLIsoVLHELeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLHELeg2Filter+process.hltEgammaEcalPFClusterIso+process.hltEle15Ele8CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle15Ele8CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter+process.HLTElePixelMatchSequence+process.hltEle15Ele8CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter+process.HLTGsfElectronSequence+process.hltEle15Ele8CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLDetaLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLDetaLeg2Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLDphiLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLDphiLeg2Filter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle15Ele8CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter+process.hltEle15Ele8CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter)
process.HLTEle23Ele12CaloIdLTrackIdLIsoVLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrPairFilter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLEtLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLEtLeg2Filter+process.hltEgammaClusterShape+process.hltEle23Ele12CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle23Ele12CaloIdLTrackIdLIsoVLHELeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLHELeg2Filter+process.hltEgammaEcalPFClusterIso+process.hltEle23Ele12CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle23Ele12CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter+process.HLTElePixelMatchSequence+process.hltEle23Ele12CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter+process.HLTGsfElectronSequence+process.hltEle23Ele12CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLDetaLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLDetaLeg2Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLDphiLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLDphiLeg2Filter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle23Ele12CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter+process.hltEle23Ele12CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter)
process.HLTMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegHEFilter+process.hltEgammaEcalPFClusterIso+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegDetaFilter+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter)
process.HLTMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegL1MatchFilter+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHEFilter+process.hltEgammaEcalPFClusterIso+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegOneOEMinusOneOPFilter+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDetaFilter+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegTrackIsoFilter)
process.HLTMu12DoubleUnSeededPho20Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG20EtUnseededFilter+process.HLTDoLocalHcalSequence+process.hltTowerMakerForAll+process.hltEgammaHoverEUnseeded+process.hltMu12DiEG20HEUnseededFilter)
process.HLTPho20CaloIdLV2TripleSeededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1TripleEGOrDoubleEGOrSingleEG+process.hltEG20EtL1TripleEGFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG20HEL1TripleEGFilter+process.hltEgammaClusterShape+process.hltEG20CaloIdLV2ClusterShapeL1TripleEGFilter)
process.HLTTriplePho20CaloIdLV2UnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG20EtUnseededFilter+process.HLTDoLocalHcalSequence+process.hltEgammaHoverEUnseeded+process.hltEG20HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltTriEG20CaloIdLV2ClusterShapeUnseededFilter)
process.HLTPho20CaloIdLV2UnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG20EtUnseededFilter+process.HLTDoLocalHcalSequence+process.hltEgammaHoverEUnseeded+process.hltEG20HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG20CaloIdLV2ClusterShapeUnseededFilter)
process.HLTTriplePho20CaloIdLV2R9IdVLSequence = cms.Sequence(process.HLTPho20CaloIdLV2TripleSeededSequence+process.hltEgammaR9ID+process.hltEG20CaloIdLV2R9IdVLR9IdL1TripleEGFilter+process.HLTPho20CaloIdLV2UnseededSequence+process.hltEgammaR9IDUnseeded+process.hltTriEG20CaloIdLV2R9IdVLR9IdUnseededFilter)
process.HLTPho30CaloIdLV2TripleSeededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1TripleEGOrDoubleEGOrSingleEG+process.hltEG30EtL1TripleEGFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30HEL1TripleEGFilter+process.hltEgammaClusterShape+process.hltEG30CaloIdLV2ClusterShapeL1TripleEGFilter)
process.HLTPho10CaloIdLV2UnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG10EtUnseededFilter+process.HLTDoLocalHcalSequence+process.hltEgammaHoverEUnseeded+process.hltEG10HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG10CaloIdLV2ClusterShapeUnseededFilter)
process.HLTTriplePho303010CaloIdLV2Sequence = cms.Sequence(process.HLTPho30CaloIdLV2TripleSeededSequence+process.HLTPho10CaloIdLV2UnseededSequence+process.hltDiEG30CaloIdLV2EtUnseededFilter+process.hltDiEG30TriEG10CaloIdLV2EtUnseededFilter)
process.HLTTriplePho303010CaloIdLV2R9IdVLSequence = cms.Sequence(process.HLTPho30CaloIdLV2TripleSeededSequence+process.hltEgammaR9ID+process.hltEG30CaloIdLV2R9IdVLR9IdL1TripleEGFilter+process.HLTPho10CaloIdLV2UnseededSequence+process.hltEgammaR9IDUnseeded+process.hltEG10CaloIdLV2R9IdVLR9IdUnseededFilter+process.hltDiEG30CaloIdLV2R9IdVLEtUnseededFilter+process.hltDiEG30TriEG10CaloIdLV2R9IdVLEtUnseededFilter)
process.HLTTriplePho35355CaloIdLV2R9IdVLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1TripleEGOrDoubleEGOrSingleEG+process.hltEG35EtL1TripleEGFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG35HEL1TripleEGFilter+process.hltEgammaClusterShape+process.hltEG35CaloIdLV2ClusterShapeL1TripleEGFilter+process.hltEgammaR9ID+process.hltEG35CaloIdLV2R9IdVLR9IdL1TripleEGFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltEG5EtUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltEG5HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG5CaloIdLV2ClusterShapeUnseededFilter+process.hltEgammaR9IDUnseeded+process.hltEG5CaloIdLV2R9IdVLR9IdUnseededFilter+process.hltDiEG35CaloIdLV2R9IdVLEtUnseededFilter+process.hltDiEG35TriEG5CaloIdLV2R9IdVLEtUnseededFilter)
process.HLTPhoton20Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG15Filter+process.hltEG20L1EG15EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG20L1EG10OR15HEFilter)
process.HLTPhoton33Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG26Filter+process.hltEG33L1EG26EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG33L1EG26HEFilter)
process.HLTPhoton50Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG34to45Filter+process.hltEG50EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG50HEFilter)
process.HLTPhoton75Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG34ORL1SingleEG40Filter+process.hltEG75EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG75HEFilter)
process.HLTPhoton90Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG34ORL1SingleEG40Filter+process.hltEG90EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG90HEFilter)
process.HLTPhoton120Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG34ORL1SingleEG40Filter+process.hltEG120EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG120HEFilter)
process.HLTPhoton150Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG150EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG150HEFilter)
process.HLTPhoton175Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG175EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG175HEFilter)
process.HLTPhoton200Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG200EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG200HEFilter)
process.HLTTrackReconstructionForIsoForPhotons = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTTrackReconstructionForPFNoMu)
process.HLTPhoton100EBTightIDTightIsoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG100EBTightIDTightIsoEtFilter+process.hltEgammaClusterShape+process.hltEG100EBTightIDTightIsoClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG100EBTightIDTightIsoHEFilter+process.hltEgammaR9ID+process.hltEG100EBTightIDTightIsoR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG100EBTightIDTightIsotEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG100EBTightIDTightIsoHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG100EBTightIDTightIsoTrackIsoFilter)
process.HLTPhoton110EBTightIDTightIsoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG110EBTightIDTightIsoEtFilter+process.hltEgammaClusterShape+process.hltEG110EBTightIDTightIsoClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG110EBTightIDTightIsoHEFilter+process.hltEgammaR9ID+process.hltEG110EBTightIDTightIsoR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG110EBTightIDTightIsotEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG110EBTightIDTightIsoHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG110EBTightIDTightIsoTrackIsoFilter)
process.HLTPhoton120EBTightIDTightIsoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG120EBTightIDTightIsoEtFilter+process.hltEgammaClusterShape+process.hltEG120EBTightIDTightIsoClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG120EBTightIDTightIsoHEFilter+process.hltEgammaR9ID+process.hltEG120EBTightIDTightIsoR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG120EBTightIDTightIsotEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG120EBTightIDTightIsoHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG120EBTightIDTightIsoTrackIsoFilter)
process.HLTPhoton100EBHE10Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG100EBHE10EtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG100EBHE10HEFilter)
process.HLTPhoton100EEHE10Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG100EEHE10EtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG100EEHE10HEFilter)
process.HLTPhoton100EETightIDTightIsoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG100EETightIDTightIsoEtFilter+process.hltEgammaClusterShape+process.hltEG100EETightIDTightIsoClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG100EETightIDTightIsoHEFilter+process.hltEgammaR9ID+process.hltEG100EETightIDTightIsoR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG100EETightIDTightIsotEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG100EETightIDTightIsoHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG100EETightIDTightIsoTrackIsoFilter)
process.HLTPhoton50R9Id90HE10IsoMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG50R9Id90HE10IsoMEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG50R9Id90HE10IsoMHEFilter+process.hltEgammaR9ID+process.hltEG50R9Id90HE10IsoMR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG50R9Id90HE10IsoMEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG50R9Id90HE10IsoMHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG50R9Id90HE10IsoMTrackIsoFilter)
process.HLTPhoton75R9Id90HE10IsoMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG75R9Id90HE10IsoMEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG75R9Id90HE10IsoMHEFilter+process.hltEgammaR9ID+process.hltEG75R9Id90HE10IsoMR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG75R9Id90HE10IsoMEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG75R9Id90HE10IsoMHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG75R9Id90HE10IsoMTrackIsoFilter)
process.HLTPhoton75R9Id90HE10IsoMEBOnlySequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG75R9Id90HE10IsoMEBOnlyEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG75R9Id90HE10IsoMEBOnlyHEFilter+process.hltEgammaR9ID+process.hltEG75R9Id90HE10IsoMEBOnlyR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG75R9Id90HE10IsoMEBOnlyEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG75R9Id90HE10IsoMEBOnlyHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG75R9Id90HE10IsoMEBOnlyTrackIsoFilter)
process.HLTPhoton90R9Id90HE10IsoMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG90R9Id90HE10IsoMEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG90R9Id90HE10IsoMHEFilter+process.hltEgammaR9ID+process.hltEG90R9Id90HE10IsoMR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG90R9Id90HE10IsoMEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG90R9Id90HE10IsoMHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG90R9Id90HE10IsoMTrackIsoFilter)
process.HLTPhoton120R9Id90HE10IsoMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG120R9Id90HE10IsoMEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG120R9Id90HE10IsoMHEFilter+process.hltEgammaR9ID+process.hltEG120R9Id90HE10IsoMR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG120R9Id90HE10IsoMEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG120R9Id90HE10IsoMHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG120R9Id90HE10IsoMTrackIsoFilter)
process.HLTPhoton165R9Id90HE10IsoMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG165R9Id90HE10IsoMEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG165R9Id90HE10IsoMHEFilter+process.hltEgammaR9ID+process.hltEG165R9Id90HE10IsoMR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG165R9Id90HE10IsoMEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG165R9Id90HE10IsoMHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG165R9Id90HE10IsoMTrackIsoFilter)
process.HLTDiphoton30L22R9Id85b90eORIso60CaloId15b35eANDHE12R9Id50b80eSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG30L1SingleAndDoubleEGOrEtFilter+process.hltEgammaR9ID+process.hltEG30LR9Id50b80eR9IdFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30LHE12R9Id50b80eHEFilter+cms.ignore(process.hltEG30LR9Id85b90eHE12R9Id50b80eR9IdLastFilter)+process.hltEgammaClusterShape+cms.ignore(process.hltEG30LCaloId15b35eHE12R9Id50b80eClusterShapeFilter)+process.hltEgammaEcalPFClusterIso+cms.ignore(process.hltEG30LIso60CaloId15b35eHE12R9Id50b80eEcalIsoLastFilter)+process.hltEG30LRId85ORIso60CaloId15b35eANDHE12R9Id50b80eLegCombLastFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG22EtEta2p55UnseededFilter+process.hltEgammaR9IDUnseeded+process.hltDiEG22R9Id50b80eR9IdUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG22HE12R9Id50b80eHEUnseededFilter+cms.ignore(process.hltEG22R9Id85b90eHE12R9Id50b80eR9UnseededLastFilter)+process.hltEgammaClusterShapeUnseeded+cms.ignore(process.hltEG22CaloId15b35eHE12R9Id50b80eClusterShapeUnseededFilter)+process.hltEgammaEcalPFClusterIsoUnseeded+cms.ignore(process.hltEG22Iso60CaloId15b35eHE12R9Id50b80eEcalIsoUnseededFilter)+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIsoUnseeded+cms.ignore(process.hltEG22Iso60CaloId15b35eHE12R9Id50b80eTrackIsoUnseededLastFilter))
process.HLTDiphoton30PV18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55NewPixelMatchSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG30L1SingleAndDoubleEGOrEtFilter+process.hltEgammaR9ID+process.hltEG30PVR9Id50b80eR9IdFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30PVHE10R9Id50b80eHEFilter+process.hltEG30PVR9Idb85e90HE10R9Id50b80eR9IdLastFilter+process.hltEgammaClusterShape+process.hltEG30PVCaloId15b35eHE10R9Id50b80eClusterShapeFilter+process.hltEgammaEcalPFClusterIso+process.hltEG30PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoFilter+process.hltEG30PVRId85ANDIso60CaloId15b35eANDHE10R9Id50b80eLegCombNewPixelMatchLastFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG18EtUnseededFilter+process.hltEgammaR9IDUnseeded+process.hltDiEG18PVR9Id50b80eR9IdUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG18PVHE10R9Id50b80eHEUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltDiEG18PVNewPixelMatchPMS2Filter+process.hltEG18PVR9Idb85e90HE10R9Id50b80eR9NewPixelMatchUnseededLastFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG18PVCaloId15b35eHE10R9Id50b80eClusterShapeNewPixelMatchUnseededFilter+process.hltEgammaEcalPFClusterIsoUnseeded+process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoNewPixelMatchUnseededFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIsoUnseeded+process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eTrackIsoUnseededNewPixelMatchLastFilter+process.hltDiEG18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55CombMassNewPixelMatchLastFilter)
process.HLTDiphoton30PV18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55NoPixelVetoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG30L1SingleAndDoubleEGOrEtFilter+process.hltEgammaR9ID+process.hltEG30PVR9Id50b80eR9IdFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30PVHE10R9Id50b80eHEFilter+process.hltEG30PVR9Idb85e90HE10R9Id50b80eR9IdLastFilter+process.hltEgammaClusterShape+process.hltEG30PVCaloId15b35eHE10R9Id50b80eClusterShapeFilter+process.hltEgammaEcalPFClusterIso+process.hltEG30PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoFilter+process.hltEG30PVRId85ANDIso60CaloId15b35eANDHE10R9Id50b80eLegCombNoPixelVetoLastFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG18EtUnseededFilter+process.hltEgammaR9IDUnseeded+process.hltDiEG18PVR9Id50b80eR9IdUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG18PVHE10R9Id50b80eHEUnseededFilter+process.hltEG18PVR9Idb85e90HE10R9Id50b80eR9NoPixelVetoUnseededLastFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG18PVCaloId15b35eHE10R9Id50b80eClusterShapeNoPixelVetoUnseededFilter+process.hltEgammaEcalPFClusterIsoUnseeded+process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eEcalIsoNoPixelVetoUnseededFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIsoUnseeded+process.hltEG18PVIso60CaloId15b35eHE10R9Id50b80eTrackIsoUnseededNoPixelVetoLastFilter+process.hltDiEG18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55CombMassNoPixelVetoLastFilter)
process.HLTPhoton35R9Id90HE10IsoMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1EGAndTauFilter+process.hltEG35R9Id90HE10IsoMEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG35R9Id90HE10IsoMHEFilter+process.hltEgammaR9ID+process.hltEG35R9Id90HE10IsoMR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG35R9Id90HE10IsoMEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG35R9Id90HE10IsoMHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG35R9Id90HE10IsoMTrackIsoFilter)
process.HLTL3NoFiltersNoVtxmuonTkCandidateSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.hltL3TrajSeedOIStateNoVtx+process.hltL3TrackCandidateFromL2OIStateNoVtx+process.hltL3TkTracksFromL2OIStateNoVtx+process.hltL3NoFiltersNoVtxMuonsOIState+process.hltL3NoFiltersNoVtxTrajSeedOIHit+process.hltL3NoFiltersTrackCandidateFromL2OIHitNoVtx+process.hltL3NoFiltersTkTracksFromL2OIHitNoVtx+process.hltL3NoFiltersNoVtxMuonsOIHit+process.hltL3NoFiltersNoVtxTkFromL2OICombination+process.hltPixelLayerTriplets+process.hltPixelLayerPairsLegacy+process.hltMixedLayerPairs+process.hltL3NoFiltersNoVtxTrajSeedIOHit+process.hltL3NoFiltersTrackCandidateFromL2IOHitNoVtx+process.hltL3NoFiltersTkTracksFromL2IOHitNoVtx+process.hltL3NoFiltersNoVtxMuonsIOHit+process.hltL3NoFiltersNoVtxTrajectorySeed+process.hltL3NoFiltersTrackCandidateFromL2NoVtx)
process.HLTL3NoFiltersNoVtxmuonrecoNocandSequence = cms.Sequence(process.HLTL3NoFiltersNoVtxmuonTkCandidateSequence+process.hltL3NoFiltersNoVtxTkTracksMergeStep1+process.hltL3NoFiltersTkTracksFromL2Novtx+process.hltL3NoFiltersNoVtxMuonsLinksCombination+process.hltL3NoFiltersNoVtxMuons)
process.HLTL3NoFiltersNoVtxmuonrecoSequence = cms.Sequence(process.HLTL3NoFiltersNoVtxmuonrecoNocandSequence+process.hltL3NoFiltersNoVtxMuonCandidates)
process.HLTEle30erJetC34WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1IsoEG30erJetC34drMin0p3Filter+process.hltEG30L1IsoEGerJetC34drMin0p3EtFilter+process.hltEgammaClusterShape+process.hltEle30erJetC34WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle30erJetC34WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle30erJetC34WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle30erJetC34WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle30erJetC34WPTightPixelMatchFilter+process.hltEle30erJetC34WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle30erJetC34WPTightGsfOneOEMinusOneOPFilter+process.hltEle30erJetC34WPTightGsfMissingHitsFilter+process.hltEle30erJetC34WPTightGsfDetaFilter+process.hltEle30erJetC34WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle30erJetC34WPTightGsfTrackIsoFilter)
process.HLTEle28erHTT100WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1IsoEG28erHTT100Filter+process.hltEG28L1IsoEG28erHTT100EtFilter+process.hltEgammaClusterShape+process.hltEle28erHTT100WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle28erHTT100WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle28erHTT100WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle28erHTT100WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle28erHTT100WPTightPixelMatchFilter+process.hltEle28erHTT100WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle28erHTT100WPTightGsfOneOEMinusOneOPFilter+process.hltEle28erHTT100WPTightGsfMissingHitsFilter+process.hltEle28erHTT100WPTightGsfDetaFilter+process.hltEle28erHTT100WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle28erHTT100WPTightGsfTrackIsoFilter)
process.HLTEle28HighEtaSC20Mass55Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGOrFilter+process.hltEle28HighEtaSC20EtFilter+process.hltEgammaClusterShape+process.hltEle28HighEtaSC20ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle28HighEtaSC20HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle28HighEtaSC20EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle28HighEtaSC20HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle28HighEtaSC20PixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle28HighEtaSC20OneOEMinusOneOPFilter+process.hltEle28HighEtaSC20DetaFilter+process.hltEle28HighEtaSC20DphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle28HighEtaSC20TrackIsoFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG20EtUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEle28HighEtaSC20ClusterShapeUnseededFilter+process.hltEgammaEcalPFClusterIsoUnseeded+process.hltEle28HighEtaSC20EcalIsoFilterUnseeded+process.hltEgammaHoverEUnseeded+process.hltEle28HighEtaSC20HEFilterUnseeded+process.HLTPFHcalClusteringForEgammaUnseeded+process.hltEgammaHcalPFClusterIsoUnseeded+process.hltEle28HighEtaSC20HcalIsoFilterUnseeded+process.hltHighEtaSC20Selector+process.hltHighEtaSC20SelectorFilter+process.hltEle28HighEtaSC20Mass55Filter)
process.HLTPhoton23Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGDoubleMu4OSEG12ORDoubleMu5OSEG12Filter+process.hltEG23EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG23HEFilter)
process.HLTEle15VVVLGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG5OpenFilter+process.hltEG15EtFilter+process.hltEgammaClusterShape+process.hltEle15VVVLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle15VVVLHEFilter+process.hltEgammaEcalPFClusterIsoR02+process.hltEle15VVVLEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIsoR02+process.hltEle15VVVLHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle15VVVLPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle15VVVLGsfOneOEMinusOneOPFilter+process.hltEle15VVVLGsfChi2Filter+process.hltEle15VVVLGsfMissingHitsFilter+process.hltEle15VVVLGsfDetaFilter+process.hltEle15VVVLGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle15VVVLGsfTrackIsoFilter)
process.HLTEle50VVVLGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG5OpenFilter+process.hltEG50IsoVVVLEtFilter+process.hltEgammaClusterShape+process.hltEle50VVVLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle50VVVLHEFilter+process.hltEgammaEcalPFClusterIsoR02+process.hltEle50VVVLEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIsoR02+process.hltEle50VVVLHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle50VVVLPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle50VVVLGsfOneOEMinusOneOPFilter+process.hltEle50VVVLGsfChi2Filter+process.hltEle50VVVLGsfMissingHitsFilter+process.hltEle50VVVLGsfDetaFilter+process.hltEle50VVVLGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle50VVVLGsfTrackIsoFilter)
process.HLTMuVVVLCombinedIsolationR02Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTDoLocalHcalSequence+process.hltTowerMakerForAll+process.hltFixedGridRhoFastjetAllCaloForMuons+process.hltL3CaloMuonCorrectedVVVLIsolations+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltL3MuonCombRelIsolationVVVL)
process.HLTDiMu4Ele9CaloIdLTrackIdLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegL1MatchFilter+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegHEFilter+process.HLTElePixelMatchSequence+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegDetaFilter+process.hltDiMu4Ele9CaloIdLTrackIdLElectronlegDphiFilter)
process.HLTDiMu9Ele9CaloIdLTrackIdLElectronlegSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegL1MatchFilter+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegEtFilter+process.hltEgammaClusterShape+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegHEFilter+process.HLTElePixelMatchSequence+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegPixelMatchFilter+process.HLTGsfElectronSequence+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegOneOEMinusOneOPFilter+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegDetaFilter+process.hltDiMu9Ele9CaloIdLTrackIdLElectronlegDphiFilter)
process.HLTDoubleMu20Eta2p1IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTIterL3muonTkCandidateSequenceNoVtx = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.HLTIterL3OIAndIOFromL2muonTkCandidateSequenceNoVtx+process.hltIterL3MuonL1MuonNoL2SelectorNoVtx+process.HLTIterL3IOmuonFromL1TkCandidateSequenceNoVtx)
process.HLTL3muonrecoNocandSequenceNoVtx = cms.Sequence(process.HLTIterL3muonTkCandidateSequenceNoVtx+process.hltIterL3MuonMergedNoVtx+process.hltIterL3MuonAndMuonFromL1MergedNoVtx+process.hltL3MuonsIterL3LinksNoVtx+process.hltIterL3MuonsNoVtx)
process.HLTL3muonrecoSequenceNoVtx = cms.Sequence(process.HLTL3muonrecoNocandSequenceNoVtx+process.hltIterL3MuonCandidatesNoVtx)
process.HLTTrackerMuonSequenceNoVtx = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecoPixelTracksSequence+process.HLTDoLocalStripSequence+process.hltMuTrackSeeds+process.hltMuCkfTrackCandidates+process.hltMuCtfTracks+process.HLTL3muonrecoNocandSequenceNoVtx+process.hltDiMuonMergingNoVtx+process.hltDiMuonLinksNoVtx+process.hltGlbTrkMuonsNoVtx+process.hltGlbTrkMuonCandsNoVtx)
process.HLTEle8CaloIdLTrackIdLIsoVLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEle8CaloIdLTrackIdLIsoVLL1MatchFilter+process.hltEle8CaloIdLTrackIdLIsoVLEtFilter+process.hltEgammaClusterShape+process.hltEle8CaloIdLTrackIdLIsoVLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle8CaloIdLTrackIdLIsoVLHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle8CaloIdLTrackIdLIsoVLEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle8CaloIdLTrackIdLIsoVLHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle8CaloIdLTrackIdLIsoVLPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle8CaloIdLTrackIdLIsoVLOneOEMinusOneOPFilter+process.hltEle8CaloIdLTrackIdLIsoVLDetaFilter+process.hltEle8CaloIdLTrackIdLIsoVLDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle8CaloIdLTrackIdLIsoVLTrackIsoFilter)
process.HLTEle12CaloIdLTrackIdLIsoVLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEle12CaloIdLTrackIdLIsoVLL1MatchFilter+process.hltEle12CaloIdLTrackIdLIsoVLEtFilter+process.hltEgammaClusterShape+process.hltEle12CaloIdLTrackIdLIsoVLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle12CaloIdLTrackIdLIsoVLHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle12CaloIdLTrackIdLIsoVLEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle12CaloIdLTrackIdLIsoVLHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle12CaloIdLTrackIdLIsoVLPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle12CaloIdLTrackIdLIsoVLOneOEMinusOneOPFilter+process.hltEle12CaloIdLTrackIdLIsoVLDetaFilter+process.hltEle12CaloIdLTrackIdLIsoVLDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle12CaloIdLTrackIdLIsoVLTrackIsoFilter)
process.HLTEle15CaloIdLTrackIdLIsoVLJet30Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEle15CaloIdLTrackIdLIsoVLJet30L1MatchFilter+process.hltEle15CaloIdLTrackIdLIsoVLJet30EtFilter+process.hltEgammaClusterShape+process.hltEle15CaloIdLTrackIdLIsoVLJet30ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle15CaloIdLTrackIdLIsoVLJet30HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle15CaloIdLTrackIdLIsoVLJet30EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle15CaloIdLTrackIdLIsoVLJet30HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle15CaloIdLTrackIdLIsoVLJet30PixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle15CaloIdLTrackIdLIsoVLJet30OneOEMinusOneOPFilter+process.hltEle15CaloIdLTrackIdLIsoVLJet30DetaFilter+process.hltEle15CaloIdLTrackIdLIsoVLJet30DphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle15CaloIdLTrackIdLIsoVLJet30TrackIsoFilter)
process.HLTEle23CaloIdLTrackIdLIsoVLJet30Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEle23CaloIdLTrackIdLIsoVLJet30L1MatchFilter+process.hltEle23CaloIdLTrackIdLIsoVLJet30EtFilter+process.hltEgammaClusterShape+process.hltEle23CaloIdLTrackIdLIsoVLJet30ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle23CaloIdLTrackIdLIsoVLJet30HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle23CaloIdLTrackIdLIsoVLJet30EcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle23CaloIdLTrackIdLIsoVLJet30HcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle23CaloIdLTrackIdLIsoVLJet30PixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle23CaloIdLTrackIdLIsoVLJet30OneOEMinusOneOPFilter+process.hltEle23CaloIdLTrackIdLIsoVLJet30DetaFilter+process.hltEle23CaloIdLTrackIdLIsoVLJet30DphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle23CaloIdLTrackIdLIsoVLJet30TrackIsoFilter)
process.HLTEle8CaloIdMGsfTrkIdMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEgammaCandidatesWrapper+process.hltEle8EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle8HEFilter+process.hltEgammaClusterShape+process.hltEle8CaloIdMClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle8CaloIdMPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle8CaloIdMGsfTrackIdMOneOEMinusOneOPFilter+process.hltEle8CaloIdMGsfTrackIdMDetaFilter+process.hltEle8CaloIdMGsfTrackIdMDphiFilter)
process.HLTEle17CaloIdMGsfTrkIdMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEgammaCandidatesWrapper+process.hltEle17EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle17HEFilter+process.hltEgammaClusterShape+process.hltEle17CaloIdMClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle17CaloIdMPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle17CaloIdMGsfTrackIdMOneOEMinusOneOPFilter+process.hltEle17CaloIdMGsfTrackIdMDetaFilter+process.hltEle17CaloIdMGsfTrackIdMDphiFilter)
process.HLTEle23CaloIdMGsfTrkIdMSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEgammaCandidatesWrapper+process.hltEle23EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle23HEFilter+process.hltEgammaClusterShape+process.hltEle23CaloIdMClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle23CaloIdMPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle23CaloIdMGsfTrackIdMOneOEMinusOneOPFilter+process.hltEle23CaloIdMGsfTrackIdMDetaFilter+process.hltEle23CaloIdMGsfTrackIdMDphiFilter)
process.HLTEle50CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEle50EtFilter+process.hltEgammaClusterShape+process.hltEle50CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle50CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle50CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle50CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle50CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTEle115CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG115EtFilter+process.hltEgammaClusterShape+process.hltEG115CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG115CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle115CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle115CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle115CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTEle135CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG135EtFilter+process.hltEgammaClusterShape+process.hltEG135CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG135CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle135CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle135CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle135CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTEle145CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG145EtFilter+process.hltEgammaClusterShape+process.hltEG145CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG145CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle145CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle145CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle145CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTEle200CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG200EtFilter+process.hltEgammaClusterShape+process.hltEG200CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG200CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle200CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle200CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle200CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTEle250CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG250EtFilter+process.hltEgammaClusterShape+process.hltEG250CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG250CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle250CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle250CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle250CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTEle300CaloIdVTGsfTrkIdTGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauFilter+process.hltEG300EtFilter+process.hltEgammaClusterShape+process.hltEG300CaloIdVTClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG300CaloIdVTHEFilter+process.HLTElePixelMatchSequence+process.hltEle300CaloIdVTPixelMatchFilter+process.HLTGsfElectronSequence+process.hltEle300CaloIdVTGsfTrkIdTGsfDetaFilter+process.hltEle300CaloIdVTGsfTrkIdTGsfDphiFilter)
process.HLTPhoton60R9Id90CaloIdLIsoLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauNoPSFilter+process.hltEG60EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG60HEFilter+process.hltEgammaR9ID+process.hltEG60R9Id90CaloIdLIsoLR9IdFilter+process.hltEgammaClusterShape+process.hltEG60R9Id90CaloIdLIsoLClusterShapeFilter+process.hltEgammaEcalPFClusterIso+process.hltEG60R9Id90CaloIdLIsoLEcalPFClusterIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG60R9Id90CaloIdLIsoLHcalPFClusterIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG60R9Id90CaloIdLIsoLHollowTrackIsoFilter)
process.HLTPhoton60R9Id90CaloIdLIsoLDisplacedIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEGNonIsoOrWithJetAndTauNoPSFilter+process.hltEG60EtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG60HEFilter+process.hltEgammaR9ID+process.hltEG60R9Id90CaloIdLIsoLR9IdFilter+process.hltEgammaClusterShape+process.hltEG60R9Id90CaloIdLIsoLClusterShapeFilter+process.hltEgammaEcalPFClusterIso+process.hltEG60R9Id90CaloIdLIsoLEcalPFClusterIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG60R9Id90CaloIdLIsoLHcalPFClusterIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG60R9Id90CaloIdLIsoLHollowTrackIsoFilter+process.hltEG60R9Id90CaloIdLIsoLDisplacedIdFilter)
process.HLTSC3018EIso15HE30eMass70Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGWithJetAndTauFilter+process.hltEG30L1SingleAndDoubleEGWithTauWithJetEtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHToverET+process.hltEG30HE30HEFilter+process.hltEgammaEcalPFClusterIso+process.hltEG30EIso15HE30EcalIsoLastFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG18EtEta2p55UnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG18HE30eHEUnseededFilter+process.hltEgammaEcalPFClusterIsoUnseeded+process.hltEG18EIso15HE30EcalIsoUnseededFilter+process.hltDiEG18EIso15ANDHE30Mass70CombMassLastFilter)
process.HLTTrackReconstructionForPixelOnlyPF = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.hltPixelTracksZetaClean+process.hltPixelOnlyPFMuonMerging+process.hltPixelOnlyMuonLinks+process.hltPixelOnlyMuons)
process.HLTPixelOnlyParticleFlowSequence = cms.Sequence(process.HLTPreshowerSequence+process.hltParticleFlowRecHitECALUnseeded+process.hltParticleFlowRecHitHBHE+process.hltParticleFlowRecHitHF+process.hltParticleFlowRecHitPSUnseeded+process.hltParticleFlowClusterECALUncorrectedUnseeded+process.hltParticleFlowClusterPSUnseeded+process.hltParticleFlowClusterECALUnseeded+process.hltParticleFlowClusterHBHE+process.hltParticleFlowClusterHCAL+process.hltParticleFlowClusterHF+process.hltLightPixelOnlyPFTracks+process.hltPixelOnlyParticleFlowBlock+process.hltPixelOnlyParticleFlow)
process.HLTMuIsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTTrackReconstructionForPixelOnlyPFNoMu = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence)
process.HLTTrackReconstructionForIsoElectronPixelOnly = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTTrackReconstructionForPixelOnlyPFNoMu+process.hltPixelTracksZetaClean)
process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuonsNoVtx = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalMFSequence+process.HLTDoLocalHcalSequence+process.hltTowerMakerForECALMF+process.hltTowerMakerForHCAL+process.hltFixedGridRhoFastjetECALMFForMuons+process.hltFixedGridRhoFastjetHCAL+process.HLTPFClusteringEcalMFForMuonsNoVtx+process.hltMuonEcalMFPFClusterIsoForMuonsNoVtx)
process.HLTPixelTrackingL3MuonNoVtx = cms.Sequence(process.hltL3MuonVertexNoVtx+process.HLTDoLocalPixelSequence+process.hltPixelLayerQuadruplets+process.hltPixelTracksL3MuonFilter+process.hltPixelTracksL3MuonFitter+process.hltPixelTracksTrackingRegionsL3MuonNoVtx+process.hltPixelTracksHitDoubletsL3MuonNoVtx+process.hltPixelTracksHitQuadrupletsL3MuonNoVtx+process.hltPixelTracksL3MuonNoVtx+process.hltPixelVerticesL3MuonNoVtx)
process.HLTTrackReconstructionForIsoL3MuonIter02NoVtx = cms.Sequence(process.HLTPixelTrackingL3MuonNoVtx+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingL3MuonIter02NoVtx)
process.HLTMuIsolationSequenceNoVtx = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuonsNoVtx+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuonsNoVtx+process.HLTTrackReconstructionForIsoL3MuonIter02NoVtx+process.hltMuonTkRelIsolationCut0p09MapNoVtx)
process.HLTPhoton20SequenceLooseHOverE = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG10Filter+process.hltEG20EtFilterLooseHoverE+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG20HEFilterLooseHoverE)
process.HLTPhoton30SequenceLooseHOverE = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG10Filter+process.hltEG30EtFilterLooseHoverE+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30HEFilterLooseHoverE)
process.HLTDiphoton1010R9Id85b90eORIso60CaloId15b35eANDHE10R9Id50b80eMass10Sequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG5Filter+process.hltEG10EtL1SingleEG5EtFilter+process.hltEgammaR9ID+process.hltEG10R9Id50b80eR9IdFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHToverET+process.hltEG10HE10R9Id50b80eHEFilter+cms.ignore(process.hltEG10R9Id85b90eHE10R9Id50b80eR9IdLastFilter)+process.hltEgammaClusterShape+cms.ignore(process.hltEG10CaloId15b35eHE10R9Id50b80eClusterShapeFilter)+process.hltEgammaEcalPFClusterIso+cms.ignore(process.hltEG10Iso60CaloId15b35eHE10R9Id50b80eEcalIsoLastFilter)+process.hltEG10RId85b90eORIso60CaloId15b35eANDHE10R9Id50b80eLegCombLastFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG10EtEta2p55UnseededFilter+process.hltEgammaR9IDUnseeded+process.hltDiEG10R9Id50b80eR9IdUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG10HE10R9Id50b80eHEUnseededFilter+cms.ignore(process.hltDiEG10R9Id85b90eHE10R9Id50b80eR9UnseededLastFilter)+process.hltEgammaClusterShapeUnseeded+cms.ignore(process.hltDiEG10CaloId15b35eHE10R9Id50b80eClusterShapeUnseededFilter)+process.hltEgammaEcalPFClusterIsoUnseeded+cms.ignore(process.hltDiEG10Iso60LCaloId15b35eHE10R9Id50b80eEcalIsoUnseededFilter)+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIsoUnseeded+cms.ignore(process.hltDiEG10Iso60LCaloId15b35eHE10R9Id50b80eTrackIsoUnseededLastFilter)+process.hltDiEG10R9Id85b90eORIso60CaloId15b35eANDHE10R9Id50b80eMass10CombMassLastFilter)
process.HLTEle5CaloIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG5WithJetAndTauFilter+process.hltEG5L1SingleEG5WithJetAndTauEtFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG5HEFilter+process.hltEgammaClusterShape+process.hltEG5CaloIdLClusterShapeFilter+process.HLTElePixelMatchSequence+process.hltEle5CaloIdLPixelMatchFilter)
process.HLTEle5CaloIdLMWSequence = cms.Sequence(process.HLTEle5CaloIdLSequence+process.hltEle5CaloIdLMWPMS2Filter)
process.HLTDoubleEle5CaloIdLUnseededSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltEgammaCandidatesWrapperUnseeded+process.hltDiEG5EtUnseededFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverEUnseeded+process.hltDiEG5HEUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltDiEG5CaloIdLClusterShapeUnseededFilter+process.HLTElePixelMatchUnseededSequence+process.hltDiEle5CaloIdLPixelMatchUnseededFilter)
process.HLTDoubleEle5CaloIdLMWSequence = cms.Sequence(process.HLTDoubleEle5CaloIdLUnseededSequence+process.hltDiEle5CaloIdLMWPMS2UnseededFilter)
process.HLTEle5WPTightGsfSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG5Filter+process.hltEG5L1SingleEG5EtFilter+process.hltEgammaClusterShape+process.hltEle5WPTightClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle5WPTightHEFilter+process.hltEgammaEcalPFClusterIso+process.hltEle5WPTightEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle5WPTightHcalIsoFilter+process.HLTElePixelMatchSequence+process.hltEle5WPTightPixelMatchFilter+process.hltEle5WPTightPMS2Filter+process.HLTGsfElectronSequence+process.hltEle5WPTightGsfOneOEMinusOneOPFilter+process.hltEle5WPTightGsfMissingHitsFilter+process.hltEle5WPTightGsfDetaFilter+process.hltEle5WPTightGsfDphiFilter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle5WPTightGsfTrackIsoFilter)
process.HLTEle15Ele10CaloIdLTrackIdLIsoVLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG5Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLEtLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLEtLeg2Filter+process.hltEgammaClusterShape+process.hltEle15Ele10CaloIdLTrackIdLIsoVLClusterShapeLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLClusterShapeLeg2Filter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEle15Ele10CaloIdLTrackIdLIsoVLHELeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLHELeg2Filter+process.hltEgammaEcalPFClusterIso+process.hltEle15Ele10CaloIdLTrackIdLIsoVLEcalIsoLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLEcalIsoLeg2Filter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEle15Ele10CaloIdLTrackIdLIsoVLHcalIsoLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLHcalIsoLeg2Filter+process.HLTElePixelMatchSequence+process.hltEle15Ele10CaloIdLTrackIdLIsoVLPixelMatchLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLPixelMatchLeg2Filter+process.HLTGsfElectronSequence+process.hltEle15Ele10CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLOneOEMinusOneOPLeg2Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLDetaLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLDetaLeg2Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLDphiLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLDphiLeg2Filter+process.HLTTrackReconstructionForIsoElectronIter02+process.hltEgammaEleGsfTrackIso+process.hltEle15Ele10CaloIdLTrackIdLIsoVLTrackIsoLeg1Filter+process.hltEle15Ele10CaloIdLTrackIdLIsoVLTrackIsoLeg2Filter)
process.HLTMuIsolationSequenceForMC = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu5L1L2L3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu5L1L2L3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTMu24Eta2p1IsoTau40Eta2p1IsolationSequence = cms.Sequence(process.HLTL3muonEcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22erIsoTau40erL1f0L2f10QL3Filtered24QL3pfecalIsoRhoFilteredEB0p14EE0p10+process.HLTL3muonHcalPFisorecoSequenceNoBoolsForMuons+process.hltL3fL1sMu22IsoTau40erL1f0L2f10QL3Filtered24QL3pfhcalIsoRhoFilteredHB0p16HE0p20+process.HLTTrackReconstructionForIsoL3MuonIter02+process.hltMuonTkRelIsolationCut0p07Map)
process.HLTEle16Ele12Ele8CaloIdLTrackIdLSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEle16Ele12Ele8CaloIdLTrackIdLL1MatchFilter+process.hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLEtLeg3Filter+process.hltEgammaClusterShape+process.hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLClusterShapeLeg3Filter+process.HLTDoLocalHcalSequence+process.hltTowerMakerForAll+process.hltEgammaHoverE+process.hltEle16Ele12Ele8CaloIdLTrackIdLHELeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLHELeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLHELeg3Filter+process.HLTElePixelMatchSequence+process.hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLPixelMatchLeg3Filter+process.HLTGsfElectronSequence+process.hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLOneOEMinusOneOPLeg3Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLDetaLeg3Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLDphiLeg1Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLDphiLeg2Filter+process.hltEle16Ele12Ele8CaloIdLTrackIdLDphiLeg3Filter)
process.HLTPhoton50R9Id90HE10IsoMEBOnlySequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG50R9Id90HE10IsoMEBOnlyEtFilter+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG50R9Id90HE10IsoMEBOnlyHEFilter+process.hltEgammaR9ID+process.hltEG50R9Id90HE10IsoMEBOnlyR9Filter+process.hltEgammaEcalPFClusterIso+process.hltEG50R9Id90HE10IsoMEBOnlyEcalIsoFilter+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.hltEG50R9Id90HE10IsoMEBOnlyHcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltEG50R9Id90HE10IsoMEBOnlyTrackIsoFilter)
process.HLTDiphoton3018R9Idb50e90ANDIso60CaloId15b35eANDHE12b10eMass55NoPixelVetoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG30L1SingleAndDoubleEGOrEtFilter+process.hltEgammaR9ID+process.hltEG30R9Id50b80eR9IdFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30HE12b10eR9Id50b80eHEFilter+process.hltEG30R9Id50b90eHE12b10eR9Id50b80eR9IdFilter+process.hltEgammaClusterShape+process.hltEG30CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeFilter+process.hltEgammaEcalPFClusterIso+process.hltEG30Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG18EtUnseededFilter+process.hltEgammaR9IDUnseeded+process.hltDiEG18R9Id50b80eR9IdUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG18HE12b10eR9Id50b80eHEUnseededFilter+process.hltEG18R9Id50b90eHE12b10eR9Id50b80eR9IdUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG18CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeUnseededFilter+process.hltEgammaEcalPFClusterIsoUnseeded+process.hltEG18Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoUnseededFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIsoUnseeded+process.hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eTrackIsoUnseededFilter+process.hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eMass55CombMassLastFilter)
process.HLTDiphoton3018R9Idb50e90ANDIso60CaloId15b35eANDHE12b10eNoPixelVetoSequence = cms.Sequence(process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleAndDoubleEGOrFilter+process.hltEG30L1SingleAndDoubleEGOrEtFilter+process.hltEgammaR9ID+process.hltEG30R9Id50b80eR9IdFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEG30HE12b10eR9Id50b80eHEFilter+process.hltEG30R9Id50b90eHE12b10eR9Id50b80eR9IdFilter+process.hltEgammaClusterShape+process.hltEG30CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeFilter+process.hltEgammaEcalPFClusterIso+process.hltEG30Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoFilter+process.HLTPFClusteringForEgammaUnseeded+process.hltEgammaCandidatesUnseeded+process.hltDiEG18EtUnseededFilter+process.hltEgammaR9IDUnseeded+process.hltDiEG18R9Id50b80eR9IdUnseededFilter+process.hltEgammaHoverEUnseeded+process.hltDiEG18HE12b10eR9Id50b80eHEUnseededFilter+process.hltEG18R9Id50b90eHE12b10eR9Id50b80eR9IdUnseededFilter+process.hltEgammaClusterShapeUnseeded+process.hltEG18CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eClusterShapeUnseededFilter+process.hltEgammaEcalPFClusterIsoUnseeded+process.hltEG18Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eEcalIsoUnseededFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIsoUnseeded+process.hltEG18TrackIso60Iso60CaloId15b35eR9Id50b90eHE12b10eR9Id50b80eTrackIsoUnseededFilter)
process.HLTIterL3IOmuonTkCandidateSequence = cms.Sequence(process.HLTIterL3MuonRecopixelvertexingSequence+process.HLTIterativeTrackingIteration0ForIterL3Muon+process.hltL3MuonsIterL3IO)
process.HLTIterL3IOmuonFromL1TkCandidateSequence = cms.Sequence(process.HLTRecopixelvertexingSequenceForIterL3FromL1Muon+process.HLTIterativeTrackingIteration0ForIterL3FromL1Muon)
process.HLTIterativeTrackingIteration0ROIForBTag = cms.Sequence(process.HLTAK4CaloJetsReconstructionNoIDSequence+process.HLTAK4CaloJetsCorrectionNoIDSequence+process.hltSelectorJets20L1FastJet+process.hltSelectorCentralJets20L1FastJeta+process.hltBTaggingRegion+process.hltPixelTracksCleanForBTag+process.hltPixelTracksForBTag+process.hltIter0PFLowPixelSeedsFromPixelTracksROIForBTag+process.hltIter0PFlowCkfTrackCandidatesROIForBTag+process.hltIter0PFlowCtfWithMaterialTracksROIForBTag+process.hltIter0PFlowTrackCutClassifierROIForBTag+process.hltMergedTracksROIForBTag)
process.HLTIterativeTrackingIter02ROIForBTag = cms.Sequence(process.HLTIterativeTrackingIteration0ROIForBTag)
process.HLTTrackReconstructionForPFROIForBTag = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02ROIForBTag+process.hltPFMuonMergingROIForBTag+process.hltMuonLinksROIForBTag+process.hltMuonsROIForBTag)
process.HLTTrackReconstructionForBTag = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02ROIForBTag)
process.HLTBtagDeepCSVSequenceCaloPat = cms.Sequence(process.hltSelectorJets30L1FastJet+process.hltSelectorCentralJets30L1FastJeta+process.hltSelector8CentralJetsL1FastJet+process.HLTTrackReconstructionForBTag+process.hltVerticesL3ROIForBTag+process.hltVerticesL3SelectorROIForBTag+process.hltVerticesL3FilterROIForBTag+process.hltFastPixelBLifetimeL3AssociatorPat+process.hltImpactParameterPatTagInfos+process.hltInclusiveVertexFinderROIForBTag+process.hltInclusiveSecondaryVerticesROIForBTag+process.hltTrackVertexArbitratorROIForBTag+process.hltInclusiveMergedVerticesROIForBTag+process.hltInclusiveSecondaryVertexFinderPatTagInfos+process.hltDeepCombinedSecondaryVertexBJetCaloPatTagInfos+process.hltDeepCombinedSecondaryVertexCaloPatBJetTags)
process.HLTIterL3OIAndIOFromL2muonTkCandidateSequence = cms.Sequence(process.HLTIterL3OImuonTkCandidateSequence+process.hltIterL3OIL3MuonsLinksCombination+process.hltIterL3OIL3Muons+process.hltIterL3OIL3MuonCandidates+process.hltL2SelectorForL3IO+process.HLTIterL3IOmuonTkCandidateSequence+process.hltIterL3MuonsFromL2LinksCombination)
process.HLTIterL3muonTkCandidateSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.HLTIterL3OIAndIOFromL2muonTkCandidateSequence+process.hltL1MuonsPt0+process.HLTIterL3IOmuonFromL1TkCandidateSequence)
process.HLTL3muonrecoNocandSequence = cms.Sequence(process.HLTIterL3muonTkCandidateSequence+process.hltIterL3MuonMerged+process.hltIterL3MuonAndMuonFromL1Merged+process.hltIterL3GlbMuon+process.hltIterL3MuonsNoID+process.hltIterL3Muons+process.hltL3MuonsIterL3Links+process.hltIterL3MuonTracks)
process.HLTL3muonrecoSequence = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltIterL3MuonCandidates)
process.HLTAK8PFJetsReconstructionSequence = cms.Sequence(process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTTrackReconstructionForPF+process.HLTParticleFlowSequence+process.hltAK8PFJets+process.hltAK8PFJetsLooseID+process.hltAK8PFJetsTightID)
process.HLTAK8PFJetsSequence = cms.Sequence(process.HLTPreAK8PFJetsRecoSequence+process.HLTAK8PFJetsReconstructionSequence+process.HLTAK8PFJetsCorrectionSequence)
process.HLTDiMu5DiEle3CaloIdLTrackIdLMuonlegSequence = cms.Sequence(process.hltDiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltDiMu5Ele3CaloIdLTrackIdLMuonlegL2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3DiMu5Ele3CaloIdLTrackIdLMuonlegL1Filtered0)+process.hltL3fL1DoubleMu5EG3f0Filtered5+process.hltDoubleMu5EG3L3Filtered+process.hltDisplacedmumuVtxProducerDiMu5EG3+process.hltVertexmumuFilterDiMu5EG3)
process.HLTDiMu3DiEle7p5CaloIdLTrackIdLMuonlegSequence = cms.Sequence(process.hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltDiMu3DiEle7p5CaloIdLTrackIdLMuonlegL2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3DiMu3DiEle7p5CaloIdLTrackIdLMuonlegL1Filtered0)+process.hltL3fL1DoubleMu3DiEG7p5f0Filtered3)
process.HLTAK4PFJetsReconstructionSequence = cms.Sequence(process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTTrackReconstructionForPF+process.HLTParticleFlowSequence+process.hltAK4PFJets+process.hltAK4PFJetsLooseID+process.hltAK4PFJetsTightID)
process.HLTAK4PFJetsSequence = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTAK4PFJetsReconstructionSequence+process.HLTAK4PFJetsCorrectionSequence)
process.HLTTrackerMuonSequence = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecoPixelTracksSequence+process.HLTDoLocalStripSequence+process.hltMuTrackSeeds+process.hltMuCkfTrackCandidates+process.hltMuCtfTracks+process.HLTL3muonrecoNocandSequence+process.hltDiMuonMerging+process.hltDiMuonLinks+process.hltGlbTrkMuons+process.hltGlbTrkMuonCands)
process.HLTTrackerMuonSequenceLowPt = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIteration0+process.HLTIterativeTrackingIteration1+process.hltIter1Merged+process.HLTL3muonrecoNocandSequence+process.hltDiMuonMergingIter01TkMu+process.hltDiMuonLinksIter01TkMuMerge+process.hltGlbTrkMuonsLowPtIter01Merge+process.hltGlbTrkMuonLowPtIter01MergeCands)
process.HLTGlobalPFTriggerSequenceForTau = cms.Sequence(process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTRecoJetSequenceAK4PrePF+process.hltTauJet5+process.HLTTrackReconstructionForPF+process.HLTParticleFlowSequenceForTaus+process.hltAK4PFJetsForTaus)
process.HLTGlobalPFTauConeSequence = cms.Sequence(process.HLTGlobalPFTriggerSequenceForTau+process.HLTPFTau)
process.HLTGlobalPFTauHPSSequence = cms.Sequence(process.hltStripTrackerHVOn+process.hltPixelTrackerHVOn+process.HLTGlobalPFTriggerSequenceForTau+process.HLTPFTauHPS)
process.HLTTrackingForBeamSpot = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02+process.hltPFMuonMerging)
process.HLTPFJetTriggerSequenceReg = cms.Sequence(process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTPFJetTriggerSequenceRegNoMu)
process.HLTRegionalPFTauConeSequence = cms.Sequence(process.HLTRecoJetSequenceAK4PrePF+process.HLTPFJetTriggerSequenceReg+process.HLTPFTauReg)
process.HLTRegionalPFTauHPSSequence = cms.Sequence(process.hltStripTrackerHVOn+process.hltPixelTrackerHVOn+process.HLTRecoJetSequenceAK4PrePF+process.HLTPFJetTriggerSequenceReg+process.HLTPFTauHPSReg)
process.HLTBtagDeepCSVSequenceL3 = cms.Sequence(process.hltSelectorJets30L1FastJet+process.hltSelectorCentralJets30L1FastJeta+process.hltSelector8CentralJetsL1FastJet+process.HLTTrackReconstructionForBTag+process.hltVerticesL3+process.hltFastPixelBLifetimeL3Associator+process.hltImpactParameterTagInfos+process.hltInclusiveVertexFinder+process.hltInclusiveSecondaryVertices+process.hltTrackVertexArbitrator+process.hltInclusiveMergedVertices+process.hltInclusiveSecondaryVertexFinderTagInfos+process.hltDeepCombinedSecondaryVertexBJetTagsInfosCalo+process.hltDeepCombinedSecondaryVertexBJetTagsCalo)
process.HLTMu8DiEle12CaloIdLTrackIdLMuonlegSequence = cms.Sequence(process.hltMu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltMu8DiEle12CaloIdLTrackIdLMuonlegL2Filtered5)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Mu8DiEle12CaloIdLTrackIdLMuonlegL1Filtered0)+process.hltL3fL1Mu6DoubleEG10f0Filtered8)
process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence = cms.Sequence(process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL2Filtered5)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Mu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0)+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3Filtered8+process.HLTL3muontrkisovvlSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered8)
process.HLTBTagMuDiJet20L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonDiJet20L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonDiJet20L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuDiJet40L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonDiJet40L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonDiJet40L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuDiJet70L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonDiJet70L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonDiJet70L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuDiJet110L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonDiJet110L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonDiJet110L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuDiJet200L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonDiJet200L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonDiJet200L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuJet300L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonJet300L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonJet300L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuAK8DiJet170L1FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3TagInfos+process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuAK8Jet170L1FastJetDoubleMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoSequence+process.hltL3fL1sDoubleMu5Filtered+process.hltBSoftMuonDoubleMu5L3+process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3TagInfos+process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3BJetTagsByDR)
process.HLTBTagMuJet300L1AK8FastJetMu5SelSequenceL3 = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3+process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3TagInfos+process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3BJetTagsByDR)
process.HLTBTagMuDiJet20L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonDiJet20L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonDiJet20L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuDiJet40L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonDiJet40L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonDiJet40L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuDiJet70L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonDiJet70L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonDiJet70L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuDiJet110L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonDiJet110L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonDiJet110L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuDiJet200L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonDiJet200L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonDiJet200L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuJet300L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonJet300L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonJet300L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuAK8DiJet170L1FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonAK8DiJet170L1FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuAK8Jet170L1FastJetDoubleMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoSequence+process.hltL3fL1sDoubleMu5Filtered+process.hltBSoftMuonDoubleMu5L3noalgo+process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3TagInfosnoalgo+process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5SelL3BJetTagsByDRnoalgo)
process.HLTBTagMuJet300L1AK8FastJetMu5SelSequenceL3noalgo = cms.Sequence(process.HLTL3muonrecoNocandSequence+process.hltBSoftMuonMu5L3noalgo+process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3TagInfosnoalgo+process.hltBSoftMuonJet300L1AK8FastJetMu5SelL3BJetTagsByDRnoalgo)
process.HLTMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegSequence = cms.Sequence(process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Mu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL1Filtered0)+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3Filtered23+process.HLTL3muontrkisovvlSequence+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered23)
process.HLTMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence = cms.Sequence(process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL2Filtered5)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Mu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL1Filtered0)+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3Filtered12+process.HLTL3muontrkisovvlSequence+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegL3IsoFiltered12)
process.HLTDiMu4Ele9CaloIdLTrackIdLMuonlegSequence = cms.Sequence(process.hltDiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltDiMu4Ele9CaloIdLTrackIdLMuonlegL2Filtered4)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3DiMu4Ele9CaloIdLTrackIdLMuonlegL1Filtered0)+process.hltL3fL1DoubleMu4EG9f0Filtered4)
process.HLTDiMu9Ele9CaloIdLTrackIdLMuonlegSequence = cms.Sequence(process.hltDiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltDiMu9Ele9CaloIdLTrackIdLMuonlegL2Filtered5)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3DiMu9Ele9CaloIdLTrackIdLMuonlegL1Filtered0)+process.hltL3fL1DoubleMu7EG7f0Filtered9)
process.HLTPFHT350MinPFJet15Sequence = cms.Sequence(process.HLTAK4CaloJetsSequence+process.hltHtMhtJet10+process.hltHT175Jet10+process.HLTAK4PFJetsSequence+process.hltPFHTJet15+process.hltPFHT350Jet15)
process.HLTAK4PixelOnlyPFJetsReconstructionSequence = cms.Sequence(process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTTrackReconstructionForPixelOnlyPF+process.HLTPixelOnlyParticleFlowSequence+process.hltAK4PixelOnlyPFJets+process.hltAK4PixelOnlyPFJetsLooseID+process.hltAK4PixelOnlyPFJetsTightID)
process.HLTAK4PixelOnlyPFJetsSequence = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTAK4PixelOnlyPFJetsReconstructionSequence+process.HLTAK4PixelOnlyPFJetsCorrectionSequence)
process.HLTPixelOnlyPFScoutingSequence = cms.Sequence(process.HLTAK4PixelOnlyPFJetsSequence+process.hltPixelOnlyPFMETProducer+process.HLTMuIsolationSequence+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEgammaClusterShape+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltEgammaEcalPFClusterIso+process.HLTPFHcalClustering+process.hltEgammaHcalPFClusterIso+process.HLTElePixelMatchSequence+process.HLTGsfElectronSequence+process.HLTTrackReconstructionForIsoElectronPixelOnly+process.hltEgammaEleGsfTrackIsoPixelOnly)
process.HLTTrackerMuonSequenceLowPtIter0and1 = cms.Sequence(process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIteration0+process.HLTIterativeTrackingIteration1+process.hltIter1Merged+process.HLTL3muonrecoNocandSequence+process.hltDiMuonMergingIter01TkMu+process.hltDiMuonLinksIter01TkMuMerge+process.hltGlbTrkMuonsLowPtIter01Merge+process.hltGlbTrkMuonLowPtIter01MergeCands)
process.HLTBtagDeepCSVSequenceL3ROIForBTag = cms.Sequence(process.hltSelectorJets30L1FastJet+process.hltSelectorCentralJets30L1FastJeta+process.hltSelector8CentralJetsL1FastJet+process.HLTTrackReconstructionForBTag+process.hltVerticesL3ROIForBTag+process.hltVerticesL3SelectorROIForBTag+process.hltVerticesL3FilterROIForBTag+process.hltFastPixelBLifetimeL3AssociatorROIForBTag+process.hltImpactParameterTagInfosROIForBTag+process.hltInclusiveVertexFinderROIForBTag+process.hltInclusiveSecondaryVerticesROIForBTag+process.hltTrackVertexArbitratorROIForBTag+process.hltInclusiveMergedVerticesROIForBTag+process.hltInclusiveSecondaryVertexFinderTagInfosROIForBTag+process.hltDeepCombinedSecondaryVertexBJetTagsInfosCaloROIForBTag+process.hltDeepCombinedSecondaryVertexBJetTagsCaloROIForBTag)
process.HLTAK4PFJetsReconstructionSequenceROIForBTag = cms.Sequence(process.HLTL2muonrecoSequence+process.HLTL3muonrecoSequence+process.HLTTrackReconstructionForPFROIForBTag+process.HLTParticleFlowSequenceROIForBTag+process.hltAK4PFJetsROIForBTag+process.hltAK4PFJetsLooseIDROIForBTag+process.hltAK4PFJetsTightIDROIForBTag)
process.HLTAK4PFJetsSequenceROIForBTag = cms.Sequence(process.HLTPreAK4PFJetsRecoSequence+process.HLTAK4PFJetsReconstructionSequenceROIForBTag+process.HLTAK4PFJetsCorrectionSequenceROIForBTag)
process.HLTriggerFirstPath = cms.Path(process.hltGetRaw+process.hltPSetMap+process.hltBoolFalse)
process.HLT_AK8PFJet360_TrimMass30_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet180+process.hltPreAK8PFJet360TrimMass30+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet260+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets260+process.hltAK8SinglePFJet360+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTEndSequence)
process.HLT_AK8PFJet380_TrimMass30_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet180+process.hltPreAK8PFJet380TrimMass30+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet280+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets280+process.hltAK8SinglePFJet380+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTEndSequence)
process.HLT_AK8PFJet400_TrimMass30_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet180+process.hltPreAK8PFJet400TrimMass30+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet300+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets300+process.hltAK8SinglePFJet400+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTEndSequence)
process.HLT_AK8PFJet420_TrimMass30_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet180+process.hltPreAK8PFJet420TrimMass30+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet320+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets320+process.hltAK8SinglePFJet420+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTEndSequence)
process.HLT_AK8PFHT750_TrimMass50_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPreAK8PFHT750TrimMass50+process.HLTAK8CaloJetsSequence+process.hltAK8HtMht+process.hltAK8Ht650+process.HLTAK8PFJetsSequence+process.hltAK8PFHTwJetPt200+process.hltAK8TrimModJets+process.hlt1AK8PFJetsTrimMass50Pt200+process.hltAK8PFHT750+process.HLTEndSequence)
process.HLT_AK8PFHT800_TrimMass50_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPreAK8PFHT800TrimMass50+process.HLTAK8CaloJetsSequence+process.hltAK8HtMht+process.hltAK8Ht700+process.HLTAK8PFJetsSequence+process.hltAK8PFHTwJetPt200+process.hltAK8TrimModJets+process.hlt1AK8PFJetsTrimMass50Pt200+process.hltAK8PFHT800+process.HLTEndSequence)
process.HLT_AK8PFHT850_TrimMass50_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPreAK8PFHT850TrimMass50+process.HLTAK8CaloJetsSequence+process.hltAK8HtMht+process.hltAK8Ht750+process.HLTAK8PFJetsSequence+process.hltAK8PFHTwJetPt200+process.hltAK8TrimModJets+process.hlt1AK8PFJetsTrimMass50Pt200+process.hltAK8PFHT850+process.HLTEndSequence)
process.HLT_AK8PFHT900_TrimMass50_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPreAK8PFHT900TrimMass50+process.HLTAK8CaloJetsSequence+process.hltAK8HtMht+process.hltAK8Ht800+process.HLTAK8PFJetsSequence+process.hltAK8PFHTwJetPt200+process.hltAK8TrimModJets+process.hlt1AK8PFJetsTrimMass50Pt200+process.hltAK8PFHT900+process.HLTEndSequence)
process.HLT_CaloJet500_NoJetID_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreCaloJet500NoJetID+process.HLTAK4CaloJetsReconstructionNoIDSequence+process.HLTAK4CaloJetsCorrectionNoIDSequence+process.hltSingleCaloJet500+process.HLTEndSequence)
process.HLT_CaloJet550_NoJetID_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreCaloJet550NoJetID+process.HLTAK4CaloJetsReconstructionNoIDSequence+process.HLTAK4CaloJetsCorrectionNoIDSequence+process.hltSingleCaloJet550+process.HLTEndSequence)
process.HLT_DoubleMu5_Upsilon_DoubleEle3_CaloIdL_TrackIdL_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu5DoubleEG3+process.hltPreDoubleMu5UpsilonDoubleEle3CaloIdLTrackIdL+process.HLTDiMu5DiEle3CaloIdLTrackIdLMuonlegSequence+process.HLTDiMu5DiEle3CaloIdLTrackIdLElectronlegSequence+process.HLTEndSequence)
process.HLT_DoubleMu3_DoubleEle7p5_CaloIdL_TrackIdL_Upsilon_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu3DoubleEG7p5+process.hltPreDoubleMu3DoubleEle7p5CaloIdLTrackIdLUpsilon+process.HLTDiMu3DiEle7p5CaloIdLTrackIdLMuonlegSequence+process.HLTDiMu3DiEle7p5CaloIdLTrackIdLElectronlegSequence+process.HLTEndSequence)
process.HLT_Trimuon5_3p5_2_Upsilon_Muon_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMuV1OSM5to17+process.hltPreTrimuon53p52UpsilonMuon+process.hltTripleMuonV2L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltTripleMuonV2L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3TripleMuonV2L1Filtered0)+process.hltTripleMuL3V2PreFiltered0+process.hltTripleMuL3V2bPreFiltered0+process.hltTripleMuL3V2cPreFiltered0+process.hltUpsilonMuonL3Filtered+process.hltDisplacedmumuVtxProducerUpsilonMuon+process.hltVertexmumuFilterUpsilonMuon+process.HLTEndSequence)
process.HLT_TrimuonOpen_5_3p5_2_Upsilon_Muon_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMuOpen53p52UpsilonMuon+process.hltPreTrimuonOpen53p52UpsilonMuon+process.hltL1TripleMuOpen53p52UpsilonMuonL1Filtered0+process.HLTL2muonrecoSequenceOpenMu+cms.ignore(process.hltL2TripleMuOpen53p52UpsilonMuonL2PreFiltered0)+process.HLTL3muonrecoOpenMuSequence+cms.ignore(process.hltL1fForIterL3L1TripleMuOpen53p52UpsilonMuonL1Filtered0)+process.hltL3fL1TripleMuOpen53p52UpsilonMuonPreFiltered222+process.hltL3fL1TripleMuOpen53p52UpsilonMuonPreFiltered3p53p52+process.hltL3fL1TripleMuOpen53p52UpsilonMuonPreFiltered53p52+process.hltUpsilonMuon53p52OpenMuonL3Filtered+process.hltDisplacedmumuVtxProducerUpsilonMuon53p52OpenMuon+process.hltVertexmumuFilterUpsilonMuon53p52OpenMuon+process.HLTEndSequence)
process.HLT_DoubleEle25_CaloIdL_MW_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau+process.hltPreDoubleEle25CaloIdLMW+process.HLTEle25CaloIdLMWSequence+process.HLTDoubleEle25CaloIdLMWSequence+process.HLTEndSequence)
process.HLT_DoubleEle27_CaloIdL_MW_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau+process.hltPreDoubleEle27CaloIdLMW+process.HLTEle27CaloIdLMWSequence+process.HLTDoubleEle27CaloIdLMWSequence+process.HLTEndSequence)
process.HLT_DoubleEle33_CaloIdL_MW_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau+process.hltPreDoubleEle33CaloIdLMW+process.HLTEle33CaloIdLMWSequence+process.HLTDoubleEle33CaloIdLMWSequence+process.HLTEndSequence)
process.HLT_DoubleEle24_eta2p1_WPTight_Gsf_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORDoubleLooseIsoEGXXer+process.hltPreDoubleEle24eta2p1WPTightGsf+process.HLTDoubleEle24erWPTightGsfForTauSequence+process.HLTEndSequence)
process.HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_DZ_PFHT350_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleEG6to8HTT250to300IorL1sHTT+process.hltPreDoubleEle8CaloIdMTrackIdMMass8DZPFHT350+process.HLTDoubleEle8CaloIdMGsfTrackIdMSequence+process.hltDoubleEle8Mass8Filter+process.hltDoubleEle8DZFilter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT350Jet30+process.HLTEndSequence)
process.HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_PFHT350_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleEG6to8HTT250to300IorL1sHTT+process.hltPreDoubleEle8CaloIdMTrackIdMMass8PFHT350+process.HLTDoubleEle8CaloIdMGsfTrackIdMSequence+process.hltDoubleEle8Mass8Filter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT350Jet30+process.HLTEndSequence)
process.HLT_Ele27_Ele37_CaloIdL_MW_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau+process.hltPreEle27Ele37CaloIdLMW+process.HLTEle37CaloIdLMWSequence+process.HLTDoubleEle37Ele27CaloIdLMWSequence+process.HLTEndSequence)
process.HLT_Mu27_Ele37_CaloIdL_MW_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu25+process.hltPreMu27Ele37CaloIdLMW+process.hltL1fL1sMu16orMu25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu16orMu25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+process.hltL3fL1sMu16orMu25L1f0L2f10QL3Filtered27Q+process.HLTEle37CaloIdLMWUnseededSequence+process.HLTEndSequence)
process.HLT_Mu37_Ele27_CaloIdL_MW_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu25+process.hltPreMu37Ele27CaloIdLMW+process.hltL1fL1sMu16orMu25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu16orMu25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+process.hltL3fL1sMu16orMu25L1f0L2f10QL3Filtered37Q+process.HLTEle27CaloIdLMWUnseededSequence+process.HLTEndSequence)
process.HLT_Mu37_TkMu27_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreMu37TkMu27+process.hltL1fL1sMu22orMu25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orMu25L1f0L2Filtered25)+process.HLTL3muonrecoSequence+process.hltL3fL1sMu16orMu25L1f0L2f25L3Filtered37+process.HLTTrackerMuonSequence+process.hltDiMuonGlbFiltered37TrkFiltered27+process.hltDiMuonGlb37Trk27DzFiltered0p2+process.HLTEndSequence)
process.HLT_DoubleMu4_3_Bs_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4IorDoubleMu0er1p4SQOSdRMax1p4+process.hltPreDoubleMu43Bs+process.hltL1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5SQOSdR1p4L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0)+process.hltDoubleMu4BsL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu4Bs+process.hltDisplacedmumuFilterDoubleMu4Bs+process.HLTEndSequence)
process.HLT_DoubleMu4_3_Jpsi_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4IorDoubleMu0er1p4SQOSdRMax1p4+process.hltPreDoubleMu43Jpsi+process.hltL1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5SQOSdR1p4L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdR1p4L1Filtered0)+process.hltDoubleMu43JpsiDisplacedL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu43Jpsi+process.hltmumuFilterDoubleMu43Jpsi+process.HLTEndSequence)
process.HLT_DoubleMu4_JpsiTrk_Displaced_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu4JpsiTrkDisplaced+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu4JpsiDisplacedL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu4Jpsi+process.hltDisplacedmumuFilterDoubleMu4Jpsi+process.HLTIterativeTrackingDisplacedJpsiIter02+process.hltJpsiTkAllConeTracksIter+process.hltJpsiTkVertexProducer+process.hltJpsiTkVertexFilter+process.HLTEndSequence)
process.HLT_DoubleMu4_LowMassNonResonantTrk_Displaced_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu4LowMassNonResonantTrkDisplaced+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu4LowMassNonResonantDisplacedL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu4LowMassNonResonant+process.hltDisplacedmumuFilterDoubleMu4LowMassNonResonant+process.HLTIterativeTrackingDisplacedNRIter02+process.hltLowMassNonResonantTkAllConeTracksIter+process.hltLowMassNonResonantTkVertexProducer+process.hltLowMassNonResonantTkVertexFilter+process.HLTEndSequence)
process.HLT_DoubleMu3_Trk_Tau3mu_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4IorTripleMu530DoubleMu53OSMassMax9+process.hltPreDoubleMu3TrkTau3mu+process.hltL1fL1sL1DoubleMuorTripleMuL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMuorTripleMuL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMuorTripleMuL1Filtered0)+process.hltDoubleMu3TrkTau3muL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu3Tau3mu+process.hltDisplacedmumuFilterDoubleMu3Tau3mu+process.HLTIterativeTrackingTau3muIter02+process.hltTau3muTkAllConeTracksIter+process.hltTau3muTkVertexProducer+process.hltTau3muTkVertexFilter+process.HLTEndSequence)
process.HLT_DoubleMu3_TkMu_DsTau3Mu_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4IorTripleMu530DoubleMu53OSMassMax9+process.hltPreDoubleMu3TkMuDsTau3Mu+process.hltL1fL1sL1DoubleMuorTripleMuL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMuorTripleMuL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMuorTripleMuL1Filtered0)+process.hltDoubleMu3TrkTau3muL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu3Tau3mu+process.hltDisplacedmumuFilterDoubleMu3Tau3mu+process.HLTTrackerMuonSequenceLowPt+process.hltdstau3mumuontrkFltr+process.hltdstau3muDisplaced3muVtxProducer+process.hltdstau3muDisplaced3muFltr+process.HLTEndSequence)
process.HLT_DoubleMu4_PsiPrimeTrk_Displaced_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu4PsiPrimeTrkDisplaced+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu4PsiPrimeDisplacedL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu4PsiPrime+process.hltDisplacedmumuFilterDoubleMu4PsiPrime+process.HLTIterativeTrackingDisplacedPsiPrimeIter02+process.hltPsiPrimeTkAllConeTracksIter+process.hltPsiPrimeTkVertexProducer+process.hltPsiPrimeTkVertexFilter+process.HLTEndSequence)
process.HLT_DoubleMu4_Mass3p8_DZ_PFHT350_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu3SQHTT200+process.hltPreDoubleMu4Mass3p8DZPFHT350+process.hltDoubleMuon4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltDoubleMuon4L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3DoubleMuon4L1Filtered0)+process.hltL3fL1DiMu3SQHT200L3PreFiltered4+process.hltDoubleMuon4Mass3p8Filtered+process.hltDoubleMu4Mass3p8DZFilter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT350Jet30+process.HLTEndSequence)
process.HLT_Mu3_PFJet40_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu3IorMu3Jet30er2p5+process.hltPreMu3PFJet40+process.hltL1fL1sMu3Jet30L1Filtered0+process.hltL1sSingleJet35ObjectMap+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu3L1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu3L1Filtered0)+process.hltL3fL1sMu3L1f0L2f0L3Filtered3+process.HLTAK4PFJetsSequence+process.hltMu3JetCollectionsForLeptonPlusPFJets+process.hltMu3PFJet40MuCleaned+process.HLTEndSequence)
process.HLT_Mu7p5_L2Mu2_Jpsi_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQ+process.hltPreMu7p5L2Mu2Jpsi+process.hltL1fL1DoubleMu0SQL1Filtered0+process.HLTL2muonrecoSequence+process.hltL2fSQDoubleMu2L2PreFiltered2+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0)+process.hltL3fSQMu7p5L2Mu2L3Filtered7p5+process.hltSQMu7p5L2Mu2JpsiTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_L2Mu2_Upsilon_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQ+process.hltPreMu7p5L2Mu2Upsilon+process.hltL1fL1DoubleMu0SQL1Filtered0+process.HLTL2muonrecoSequence+process.hltL2fSQDoubleMu2L2PreFiltered2+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0)+process.hltL3fSQMu7p5L2Mu2L3Filtered7p5+process.hltSQMu7p5L2Mu2UpsilonTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_Track2_Jpsi_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu7p5Track2Jpsi+process.hltL1fMu7p5TrackFiltered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fMu7p5TrackL2Filtered7)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fMu7p5TrackFiltered0)+process.hltL3fLMu7p5TrackL3Filtered7p5+process.HLTTrackReconstructionL3MuonIter02+process.hltTracksIter+process.hltMu7p5Track2JpsiTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_Track3p5_Jpsi_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu7p5Track3p5Jpsi+process.hltL1fMu7p5TrackFiltered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fMu7p5TrackL2Filtered7)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fMu7p5TrackFiltered0)+process.hltL3fLMu7p5TrackL3Filtered7p5+process.HLTTrackReconstructionL3MuonIter02+process.hltTracksIter+process.hltMu7p5Track3p5JpsiTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_Track7_Jpsi_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu7p5Track7Jpsi+process.hltL1fMu7p5TrackFiltered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fMu7p5TrackL2Filtered7)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fMu7p5TrackFiltered0)+process.hltL3fLMu7p5TrackL3Filtered7p5+process.HLTTrackReconstructionL3MuonIter02+process.hltTracksIter+process.hltMu7p5Track7JpsiTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_Track2_Upsilon_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu7p5Track2Upsilon+process.hltL1fMu7p5TrackFiltered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fMu7p5TrackL2Filtered7)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fMu7p5TrackFiltered0)+process.hltL3fLMu7p5TrackL3Filtered7p5+process.HLTTrackReconstructionL3MuonIter02+process.hltTracksIter+process.hltMu7p5Track2UpsilonTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_Track3p5_Upsilon_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu7p5Track3p5Upsilon+process.hltL1fMu7p5TrackFiltered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fMu7p5TrackL2Filtered7)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fMu7p5TrackFiltered0)+process.hltL3fLMu7p5TrackL3Filtered7p5+process.HLTTrackReconstructionL3MuonIter02+process.hltTracksIter+process.hltMu7p5Track3p5UpsilonTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu7p5_Track7_Upsilon_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu7p5Track7Upsilon+process.hltL1fMu7p5TrackFiltered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fMu7p5TrackL2Filtered7)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fMu7p5TrackFiltered0)+process.hltL3fLMu7p5TrackL3Filtered7p5+process.HLTTrackReconstructionL3MuonIter02+process.hltTracksIter+process.hltMu7p5Track7UpsilonTrackMassFiltered+process.HLTEndSequence)
process.HLT_Mu3_L1SingleMu5orSingleMu7_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu7+process.hltPreMu3L1SingleMu5orSingleMu7+process.hltL1sEmuSingleMu3+process.hltL1fL1sEmuMu3L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sEmuMu3L1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sEmuMu3L1Filtered0)+process.hltL3fL1sEmuMu3L1f0L2f0L3Filtered3+process.HLTEndSequence)
process.HLT_DoublePhoton33_CaloIdL_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithEG26WithJetAndTau+process.hltPreDoublePhoton33CaloIdL+process.HLTPho33CaloIdLSequence+process.HLTDoublePho33CaloIdLUnseededSequence+process.HLTEndSequence)
process.HLT_DoublePhoton70_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithJetAndTau+process.hltPreDoublePhoton70+process.HLTDoublePho70Sequence+process.HLTEndSequence)
process.HLT_DoublePhoton85_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGNonIsoOrWithJetAndTau+process.hltPreDoublePhoton85+process.HLTDoublePho85Sequence+process.HLTEndSequence)
process.HLT_Ele20_WPTight_Gsf_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGLowETer2p5or+process.hltPreEle20WPTightGsf+process.HLTEle20WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele15_WPLoose_Gsf_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGLowETer2p5or+process.hltPreEle15WPLooseGsf+process.HLTEle15WPLooseGsfSequence+process.HLTEndSequence)
process.HLT_Ele17_WPLoose_Gsf_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGLowETer2p5or+process.hltPreEle17WPLooseGsf+process.HLTEle17WPLooseGsfSequence+process.HLTEndSequence)
process.HLT_Ele20_WPLoose_Gsf_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGLowETer2p5or+process.hltPreEle20WPLooseGsf+process.HLTEle20WPLooseGsfSequence+process.HLTEndSequence)
process.HLT_Ele20_eta2p1_WPLoose_Gsf_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGLowETer2p5or+process.hltPreEle20eta2p1WPLooseGsf+process.HLTEle20Eta2p1WPLooseGsfSequence+process.HLTEndSequence)
process.HLT_DiEle27_WPTightCaloOnly_L1DoubleEG_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiEle27WPTightCaloOnlyL1DoubleEG+process.HLTDiEle27L1DoubleEGWPTightCaloOnlySequence+process.HLTEndSequence)
process.HLT_Ele27_WPTight_Gsf_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle27WPTightGsf+process.HLTEle27WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele28_WPTight_Gsf_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle28WPTightGsf+process.HLTEle28WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele30_WPTight_Gsf_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle30WPTightGsf+process.HLTEle30WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele32_WPTight_Gsf_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle32WPTightGsf+process.HLTEle32WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele35_WPTight_Gsf_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle35WPTightGsf+process.HLTEle35WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele35_WPTight_Gsf_L1EGMT_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sAlCaSingleEle+process.hltPreEle35WPTightGsfL1EGMT+process.HLTSingleEleGsfL1EGMTSequence+process.HLTEndSequence)
process.HLT_Ele38_WPTight_Gsf_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle38WPTightGsf+process.HLTEle38WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele40_WPTight_Gsf_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle40WPTightGsf+process.HLTEle40WPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele32_WPTight_Gsf_L1DoubleEG_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreEle32WPTightGsfL1DoubleEG+process.HLTEle32L1DoubleEGWPTightGsfSequence+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTau30_eta2p1_CrossL1_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfLooseChargedIsoPFTau30eta2p1CrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauConeSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTLooseChargedIsoPFTau30Sequence+process.hltL1JetsHLTPFTauTrackLooseChargedIsolationMatch+process.hltSelectedPFTau30LooseChargedIsolationL1HLTMatched+process.hltOverlapFilterIsoEle24WPTightGsfLooseIsoPFTau30+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTauHPS30_eta2p1_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfLooseChargedIsoPFTauHPS30eta2p1CrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauHPSSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTHPSLooseChargedIsoPFTau30Sequence+process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationMatch+process.hltHpsSelectedPFTau30LooseChargedIsolationL1HLTMatched+process.hltHpsOverlapFilterIsoEle24WPTightGsfLooseIsoPFTau30+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_MediumChargedIsoPFTauHPS30_eta2p1_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfMediumChargedIsoPFTauHPS30eta2p1CrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauHPSSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTHPSMediumChargedIsoPFTau30Sequence+process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationMatch+process.hltHpsSelectedPFTau30MediumChargedIsolationL1HLTMatched+process.hltHpsOverlapFilterIsoEle24WPTightGsfMediumIsoPFTau30+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_TightChargedIsoPFTauHPS30_eta2p1_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfTightChargedIsoPFTauHPS30eta2p1CrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauHPSSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTHPSTightChargedIsoPFTau30Sequence+process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationMatch+process.hltHpsSelectedPFTau30TightChargedIsolationL1HLTMatched+process.hltHpsOverlapFilterIsoEle24WPTightGsfTightIsoPFTau30+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfLooseChargedIsoPFTauHPS30eta2p1TightIDCrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauHPSSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTHPSLooseChargedIsoPFTau30TightOOSCPhotonsSequence+process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationTightOOSCPhotonsMatch+process.hltHpsSelectedPFTau30LooseChargedIsolationTightOOSCPhotonsL1HLTMatched+process.hltHpsOverlapFilterIsoEle24WPTightGsfLooseIsoTightOOSCPhotonsPFTau30+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_MediumChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfMediumChargedIsoPFTauHPS30eta2p1TightIDCrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauHPSSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTHPSMediumChargedIsoPFTau30TightOOSCPhotonsSequence+process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationTightOOSCPhotonsMatch+process.hltHpsSelectedPFTau30MediumChargedIsolationTightOOSCPhotonsL1HLTMatched+process.hltHpsOverlapFilterIsoEle24WPTightGsfMediumIsoTightOOSCPhotonsPFTau30+process.HLTEndSequence)
process.HLT_Ele24_eta2p1_WPTight_Gsf_TightChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPreEle24eta2p1WPTightGsfTightChargedIsoPFTauHPS30eta2p1TightIDCrossL1+process.HLTEle24erWPTightGsfForTauSequence+process.HLTGlobalPFTauHPSSequence+process.hltOverlapFilterIsoEle24IsoTau30WPTightGsfCaloJet5+process.HLTHPSTightChargedIsoPFTau30TightOOSCPhotonsSequence+process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationTightOOSCPhotonsMatch+process.hltHpsSelectedPFTau30TightChargedIsolationTightOOSCPhotonsL1HLTMatched+process.hltHpsOverlapFilterIsoEle24WPTightGsfTightIsoTightOOSCPhotonsPFTau30+process.HLTEndSequence)
process.HLT_HT450_Beamspot_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sHTTForBeamSpot+process.hltPreHT450Beamspot+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT450+process.HLTTrackingForBeamSpot+process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.HLTEndSequence)
process.HLT_HT300_Beamspot_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sHTTForBeamSpot+process.hltPreHT300Beamspot+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT300+process.HLTTrackingForBeamSpot+process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.HLTEndSequence)
process.HLT_ZeroBias_Beamspot_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiasBeamspot+process.HLTTrackingForBeamSpot+process.hltVerticesPF+process.hltVerticesPFSelector+process.hltVerticesPFFilter+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_LooseChargedIsoPFTau27_eta2p1_CrossL1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1LooseChargedIsoPFTau27eta2p1CrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauConeSequence+process.HLTLooseChargedIsoAntiMuonPFTau27Sequence+process.hltL1JetsHLTPFTauTrackLooseChargedIsolationAgainstMuonMatch+process.hltSelectedPFTau27LooseChargedIsolationAgainstMuonL1HLTMatched+process.hltOverlapFilterIsoMu20LooseChargedIsoPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_LooseChargedIsoPFTauHPS27_eta2p1_CrossL1_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1LooseChargedIsoPFTauHPS27eta2p1CrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauHPSSequence+process.HLTHPSLooseChargedIsoAntiMuonPFTau27Sequence+process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationAgainstMuonMatch+process.hltHpsSelectedPFTau27LooseChargedIsolationAgainstMuonL1HLTMatched+process.hltHpsOverlapFilterIsoMu20LooseChargedIsoPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_MediumChargedIsoPFTauHPS27_eta2p1_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1MediumChargedIsoPFTauHPS27eta2p1CrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauHPSSequence+process.HLTHPSMediumChargedIsoAntiMuonPFTau27Sequence+process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationAgainstMuonMatch+process.hltHpsSelectedPFTau27MediumChargedIsolationAgainstMuonL1HLTMatched+process.hltHpsOverlapFilterIsoMu20MediumChargedIsoPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_TightChargedIsoPFTauHPS27_eta2p1_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1TightChargedIsoPFTauHPS27eta2p1CrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauHPSSequence+process.HLTHPSTightChargedIsoAntiMuonPFTau27Sequence+process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationAgainstMuonMatch+process.hltHpsSelectedPFTau27TightChargedIsolationAgainstMuonL1HLTMatched+process.hltHpsOverlapFilterIsoMu20TightChargedIsoPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_LooseChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1LooseChargedIsoPFTauHPS27eta2p1TightIDCrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauHPSSequence+process.HLTHPSLooseChargedIsoTightOOSCPhotonsAntiMuonPFTau27Sequence+process.hltHpsL1JetsHLTPFTauTrackLooseChargedIsolationTightOOSCPhotonsAgainstMuonMatch+process.hltHpsSelectedPFTau27LooseChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched+process.hltHpsOverlapFilterIsoMu20LooseChargedIsoTightOOSCPhotonsPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_MediumChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1MediumChargedIsoPFTauHPS27eta2p1TightIDCrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauHPSSequence+process.HLTHPSMediumChargedIsoTightOOSCPhotonsAntiMuonPFTau27Sequence+process.hltHpsL1JetsHLTPFTauTrackMediumChargedIsolationTightOOSCPhotonsAgainstMuonMatch+process.hltHpsSelectedPFTau27MediumChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched+process.hltHpsOverlapFilterIsoMu20MediumChargedIsoTightOOSCPhotonsPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu20_eta2p1_TightChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORMu18erTauXXer2p1+process.hltPreIsoMu20eta2p1TightChargedIsoPFTauHPS27eta2p1TightIDCrossL1+process.hltL1fL1sBigORMu18erTauXXer2p1L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fBigORMu18erTauXXer2p1L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fBigORMu18erTauXXer2p1L1Filtered0)+process.hltL3fL1BigORMu18erTauXXer2p1L1f0L2f10QL3Filtered20Q+process.HLTMu20Eta2p1Tau24Eta2p1IsolationSequence+process.hltL3crIsoBigORMu18erTauXXer2p1L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTGlobalPFTauHPSSequence+process.HLTHPSTightChargedIsoTightOOSCPhotonsAntiMuonPFTau27Sequence+process.hltHpsL1JetsHLTPFTauTrackTightChargedIsolationTightOOSCPhotonsAgainstMuonMatch+process.hltHpsSelectedPFTau27TightChargedIsolationTightOOSCPhotonsAgainstMuonL1HLTMatched+process.hltHpsOverlapFilterIsoMu20TightChargedIsoTightOOSCPhotonsPFTau27L1Seeded+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau35_Trk1_eta2p1_Reg_CrossL1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1MediumChargedIsoPFTau35Trk1eta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTSinglePFTauPt35Eta2p1Trk1Reg+process.HLTMediumChargedIsoPFTauSequenceReg+process.hltSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchReg+process.hltSelectedPFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltOverlapFilterIsoMu24MediumChargedIsoPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_CrossL1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1MediumChargedIsoPFTau35Trk1TightIDeta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTSinglePFTauPt35Eta2p1Trk1Reg+process.HLTMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltL1JetsHLTPFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltSelectedPFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltOverlapFilterIsoMu24MediumChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTau35_Trk1_eta2p1_Reg_CrossL1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1TightChargedIsoPFTau35Trk1eta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTSinglePFTauPt35Eta2p1Trk1Reg+process.HLTTightChargedIsoPFTauSequenceReg+process.hltSelectedPFTausTrackPt1TightChargedIsolationReg+process.hltL1JetsHLTPFTauTrackPt1TightChargedIsolationMatchReg+process.hltSelectedPFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg+process.hltOverlapFilterIsoMu24TightChargedIsoPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_CrossL1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1TightChargedIsoPFTau35Trk1TightIDeta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTSinglePFTauPt35Eta2p1Trk1Reg+process.HLTTightChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltL1JetsHLTPFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltSelectedPFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltOverlapFilterIsoMu24TightChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1TightChargedIsoPFTauHPS35Trk1eta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSSinglePFTauPt35Eta2p1Trk1Reg+process.HLTHPSTightChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg+process.hltHpsL1JetsHLTPFTauTrackPt1TightChargedIsolationMatchReg+process.hltHpsSelectedPFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg+process.hltHpsOverlapFilterIsoMu24TightChargedIsoPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1MediumChargedIsoPFTauHPS35Trk1TightIDeta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSSinglePFTauPt35Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltHpsSelectedPFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltHpsOverlapFilterIsoMu24MediumChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1TightChargedIsoPFTauHPS35Trk1TightIDeta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSSinglePFTauPt35Eta2p1Trk1Reg+process.HLTHPSTightChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsL1JetsHLTPFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltHpsSelectedPFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltHpsOverlapFilterIsoMu24TightChargedIsoAndTightOOSCPhotonsPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_CrossL1_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sBigOrMuXXerIsoTauYYer+process.hltPreIsoMu24eta2p1MediumChargedIsoPFTauHPS35Trk1eta2p1RegCrossL1+process.hltL1fL1sBigOrMuXXerIsoTauYYerL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sBigOrMuXXerIsoTauYYerL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sBigOrMuXXerIsoTauYYerL1Filtered0)+process.hltL3fL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTauYYEta2p1IsolationSequence+process.hltL3crIsoL1sBigOrMuXXerIsoTauYYerL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSSinglePFTauPt35Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchReg+process.hltHpsSelectedPFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltHpsOverlapFilterIsoMu24MediumChargedIsoPFTau35MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTauHPS30_Trk1_eta2p1_Reg_CrossL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu22erIsoTau28er+process.hltPreIsoMu24eta2p1MediumChargedIsoPFTauHPS30Trk1eta2p1RegCrossL1+process.hltL1fL1sMu22erIsoTau28erL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22erIsoTau28erL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22erIsoTau28erL1Filtered0)+process.hltL3fL1sMu22erIsoTau28erL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTau30Eta2p1IsolationSequence+process.hltL3crIsoL1sMu22erIsoTau28erL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsL1TauSeededSequence+process.hltSingleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltSingleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSSinglePFTauPt30Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltHpsL1JetsHLTPFTauTrackPt1MediumChargedIsolationMatchForMu22Tau28Reg+process.hltHpsSelectedPFTau30TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltHpsOverlapFilterIsoMu24MediumChargedIsoPFTau30MonitoringReg+process.HLTEndSequence)
process.HLT_IsoMu27_LooseChargedIsoPFTau20_Trk1_eta2p1_SingleL1_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu27LooseChargedIsoPFTau20Trk1eta2p1SingleL1+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTMu27IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07+process.HLTL2TauJetsSequence+process.hltSingleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltSingleL2IsoTau20eta2p2+process.HLTGlobalPFTauConeSequence+process.HLTLooseChargedIsoAntiMuonPFTau20Sequence+process.hltOverlapFilterIsoMu27LooseChargedIsoPFTau20+process.HLTEndSequence)
process.HLT_IsoMu27_LooseChargedIsoPFTauHPS20_Trk1_eta2p1_SingleL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu27LooseChargedIsoPFTauHPS20Trk1eta2p1SingleL1+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTMu27IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07+process.HLTL2TauJetsSequence+process.hltSingleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltSingleL2IsoTau20eta2p2+process.HLTGlobalPFTauHPSSequence+process.HLTHPSLooseChargedIsoAntiMuonPFTau20Sequence+process.hltHpsOverlapFilterIsoMu27LooseChargedIsoPFTau20+process.HLTEndSequence)
process.HLT_IsoMu27_MediumChargedIsoPFTauHPS20_Trk1_eta2p1_SingleL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu27MediumChargedIsoPFTauHPS20Trk1eta2p1SingleL1+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTMu27IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07+process.HLTL2TauJetsSequence+process.hltSingleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltSingleL2IsoTau20eta2p2+process.HLTGlobalPFTauHPSSequence+process.HLTHPSMediumChargedIsoAntiMuonPFTau20Sequence+process.hltHpsOverlapFilterIsoMu27MediumChargedIsoPFTau20+process.HLTEndSequence)
process.HLT_IsoMu27_TightChargedIsoPFTauHPS20_Trk1_eta2p1_SingleL1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu27TightChargedIsoPFTauHPS20Trk1eta2p1SingleL1+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTMu27IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07+process.HLTL2TauJetsSequence+process.hltSingleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltSingleL2IsoTau20eta2p2+process.HLTGlobalPFTauHPSSequence+process.HLTHPSTightChargedIsoAntiMuonPFTau20Sequence+process.hltHpsOverlapFilterIsoMu27TightChargedIsoPFTau20+process.HLTEndSequence)
process.HLT_IsoMu20_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu18+process.hltPreIsoMu20+process.hltL1fL1sMu18L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu18L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu18L1Filtered0)+process.hltL3fL1sMu18L1f0L2f10QL3Filtered20Q+process.HLTMu20IsolationSequence+process.hltL3crIsoL1sMu18L1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTEndSequence)
process.HLT_IsoMu24_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22+process.hltPreIsoMu24+process.hltL1fL1sMu22L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMu22L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22L1Filtered0)+process.hltL3fL1sSingleMu22L1f0L2f10QL3Filtered24Q+process.HLTMu24IsolationSequence+process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22+process.hltPreIsoMu24eta2p1+process.hltL1fL1sMu22erL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMu22erL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22erL1Filtered0)+process.hltL3fL1sSingleMu22erL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsolationSequence+process.hltL3crIsoL1sSingleMu22erL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTEndSequence)
process.HLT_IsoMu27_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu27+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTMu27IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07+process.HLTEndSequence)
process.HLT_IsoMu30_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu30+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered30Q+process.HLTMu30IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f30QL3trkIsoFiltered0p07+process.HLTEndSequence)
process.HLT_UncorrectedJetE30_NoBPTX_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sV0SingleJetC20NotBptxOR+process.hltPreUncorrectedJetE30NoBPTX+process.HLTStoppedHSCPLocalHcalReco+process.HLTStoppedHSCPJetSequence+process.hltStoppedHSCP1CaloJetEnergy30+process.HLTEndSequence)
process.HLT_UncorrectedJetE30_NoBPTX3BX_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sV0SingleJetC20NotBptxOR+process.hltPreUncorrectedJetE30NoBPTX3BX+process.hltL1sSingleJetC20NotBptxOR3BXEmulated+process.HLTStoppedHSCPLocalHcalReco+process.hltStoppedHSCPHpdFilter+process.HLTStoppedHSCPJetSequence+process.hltStoppedHSCP1CaloJetEnergy30+process.HLTEndSequence)
process.HLT_UncorrectedJetE60_NoBPTX3BX_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJetC43NotBptxOR3BXorSingleJetC46NotBptxOR3BX+process.hltPreUncorrectedJetE60NoBPTX3BX+process.HLTStoppedHSCPLocalHcalReco+process.hltStoppedHSCPHpdFilter+process.HLTStoppedHSCPJetSequence+process.hltStoppedHSCP1CaloJetEnergy60+process.HLTEndSequence)
process.HLT_UncorrectedJetE70_NoBPTX3BX_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJetC43NotBptxOR3BXorSingleJetC46NotBptxOR3BX+process.hltPreUncorrectedJetE70NoBPTX3BX+process.HLTStoppedHSCPLocalHcalReco+process.hltStoppedHSCPHpdFilter+process.HLTStoppedHSCPJetSequence+process.hltStoppedHSCP1CaloJetEnergy70+process.HLTEndSequence)
process.HLT_L1SingleMu18_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu18+process.hltPreL1SingleMu18+process.hltL1fL1sMu18L1Filtered0+process.HLTEndSequence)
process.HLT_L1SingleMu25_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreL1SingleMu25+process.hltL1fL1sMu22or25L1Filtered0+process.HLTEndSequence)
process.HLT_L1SingleMuCosmics_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuCosmics+process.hltPreL1SingleMuCosmics+process.hltL1MuCosmicsL1Filtered0+process.HLTEndSequence)
process.HLT_L2Mu10_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreL2Mu10+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+process.hltL2fL1sMu22or25L1f0L2FilteredQ+process.HLTEndSequence)
process.HLT_L2Mu10_NoVertex_NoBPTX3BX_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOpenEr1p4NotBptxOR3BXORL1sSingleMuOpenEr1p1NotBptxOR3BX+process.hltPreL2Mu10NoVertexNoBPTX3BX+process.hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered10+process.HLTEndSequence)
process.HLT_L2Mu10_NoVertex_NoBPTX_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOpenNotBptxOR+process.hltPreL2Mu10NoVertexNoBPTX+process.hltL1fL1sMuOpenNotBptxORL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuOpenNotBptxORL1f0NoVtxCosmicSeedMeanTimerL2Filtered10+process.HLTEndSequence)
process.HLT_L2Mu45_NoVertex_3Sta_NoBPTX3BX_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOpenEr1p4NotBptxOR3BXORL1sSingleMuOpenEr1p1NotBptxOR3BX+process.hltPreL2Mu45NoVertex3StaNoBPTX3BX+process.hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered45Sta3+process.HLTEndSequence)
process.HLT_L2Mu40_NoVertex_3Sta_NoBPTX3BX_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOpenEr1p4NotBptxOR3BXORL1sSingleMuOpenEr1p1NotBptxOR3BX+process.hltPreL2Mu40NoVertex3StaNoBPTX3BX+process.hltL1fL1sMuOpenNotBptxORNoHaloMu3BXL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuOpenNotBptxORNoHaloMu3BXL1f0NoVtxCosmicSeedMeanTimerL2Filtered40Sta3+process.HLTEndSequence)
process.HLT_L2Mu50_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreL2Mu50+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequenceAllBx+process.hltL2fL1sMu22or25L1f0L2AllBxFiltered50Q+process.HLTEndSequence)
process.HLT_L2Mu23NoVtx_2Cha_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOR+process.hltPreL2Mu23NoVtx2Cha+process.hltL1fL1sMuORL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+process.hltL2fL1sMuORL1f0L2NoVtx23Q2Cha+process.HLTEndSequence)
process.HLT_L2Mu23NoVtx_2Cha_CosmicSeed_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOR+process.hltPreL2Mu23NoVtx2ChaCosmicSeed+process.hltL1fL1sMuORL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0L2NoVtx23Q2ChaCosmicSeed+process.HLTEndSequence)
process.HLT_DoubleL2Mu30NoVtx_2Cha_CosmicSeed_Eta2p4_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu30NoVtx2ChaCosmicSeedEta2p4+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0DoubleL2NoVtx30Q2ChaCosmicSeedEta2p4+process.HLTEndSequence)
process.HLT_DoubleL2Mu30NoVtx_2Cha_Eta2p4_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu30NoVtx2ChaEta2p4+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+process.hltL2fL1sMuORL1f0DoubleL2NoVtx30Q+process.hltL2DoubleMu30NoVtxFiltered2ChaEta2p4+process.HLTEndSequence)
process.HLT_DoubleL2Mu50_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMuOR+process.hltPreDoubleL2Mu50+process.hltL1fL1sMuORL1Filtered0+process.HLTL2muonrecoSequenceAllBx+process.hltL2fL1sMuORL1f0DoubleL2AllBxFiltered50Q+process.HLTEndSequence)
process.HLT_DoubleL2Mu23NoVtx_2Cha_CosmicSeed_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu23NoVtx2ChaCosmicSeed+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q2ChaCosmicSeed+process.HLTEndSequence)
process.HLT_DoubleL2Mu23NoVtx_2Cha_CosmicSeed_NoL2Matched_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444ORSingleMu22+process.hltPreDoubleL2Mu23NoVtx2ChaCosmicSeedNoL2Matched+process.hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q2ChaCosmicSeedNoMatched+process.HLTEndSequence)
process.HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu25NoVtx2ChaCosmicSeed+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaCosmicSeed+process.HLTEndSequence)
process.HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_NoL2Matched_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444ORSingleMu22+process.hltPreDoubleL2Mu25NoVtx2ChaCosmicSeedNoL2Matched+process.hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaCosmicSeedNoMatched+process.HLTEndSequence)
process.HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_Eta2p4_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu25NoVtx2ChaCosmicSeedEta2p4+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaCosmicSeedEta2p4+process.HLTEndSequence)
process.HLT_DoubleL2Mu23NoVtx_2Cha_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu23NoVtx2Cha+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx)+cms.ignore(process.hltL2fL1sDoubleMu155ORTripleMu444L1f0L2Filtered10OneMuNoVtx)+process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q+process.hltL2DoubleMu23NoVertexL2Filtered2Cha+process.HLTEndSequence)
process.HLT_DoubleL2Mu23NoVtx_2Cha_NoL2Matched_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444ORSingleMu22+process.hltPreDoubleL2Mu23NoVtx2ChaNoL2Matched+process.hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+process.hltL2fL1sMuORL1f0DoubleL2NoVtx23Q2ChaNoL2Matched+process.HLTEndSequence)
process.HLT_DoubleL2Mu25NoVtx_2Cha_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu25NoVtx2Cha+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q+process.hltL2DoubleMu25NoVtxFiltered2Cha+process.HLTEndSequence)
process.HLT_DoubleL2Mu25NoVtx_2Cha_NoL2Matched_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444ORSingleMu22+process.hltPreDoubleL2Mu25NoVtx2ChaNoL2Matched+process.hltL1fL1sDoubleMu155ORTripleMu444SingleMu22L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q2ChaNoL2Matched+process.HLTEndSequence)
process.HLT_DoubleL2Mu25NoVtx_2Cha_Eta2p4_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreDoubleL2Mu25NoVtx2ChaEta2p4+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+process.hltL2fL1sMuORL1f0DoubleL2NoVtx25Q+process.hltL2DoubleMu25NoVtxFiltered2ChaEta2p4+process.HLTEndSequence)
process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu17TrkIsoVVLMu8TrkIsoVVL+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered8+process.hltL3fL1DoubleMu155fFiltered17+process.HLTL3muontrkisovvlSequence+process.hltDiMuon178RelTrkIsoFiltered0p4+process.HLTEndSequence)
process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu19TrkIsoVVLMu9TrkIsoVVL+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered9+process.hltL3fL1DoubleMu155fFiltered19+process.HLTL3muontrkisovvlSequence+process.hltDiMuon199RelTrkIsoFiltered0p4+process.HLTEndSequence)
process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu17TrkIsoVVLMu8TrkIsoVVLDZ+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered8+process.hltL3fL1DoubleMu155fFiltered17+process.HLTL3muontrkisovvlSequence+process.hltDiMuon178RelTrkIsoFiltered0p4+process.hltDiMuon178RelTrkIsoFiltered0p4DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu19TrkIsoVVLMu9TrkIsoVVLDZ+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered9+process.hltL3fL1DoubleMu155fFiltered19+process.HLTL3muontrkisovvlSequence+process.hltDiMuon199RelTrkIsoFiltered0p4+process.hltDiMuon199RelTrkIsoFiltered0p4DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_Mass8_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu17TrkIsoVVLMu8TrkIsoVVLDZMass8+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered8+process.hltL3fL1DoubleMu155fFiltered17+process.HLTL3muontrkisovvlSequence+process.hltDiMuon178RelTrkIsoFiltered0p4+process.hltDiMuon178RelTrkIsoFiltered0p4DzFiltered0p2+process.hltDiMuon178Mass8Filtered+process.HLTEndSequence)
process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_Mass8_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu19TrkIsoVVLMu9TrkIsoVVLDZMass8+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered9+process.hltL3fL1DoubleMu155fFiltered19+process.HLTL3muontrkisovvlSequence+process.hltDiMuon199RelTrkIsoFiltered0p4+process.hltDiMuon199RelTrkIsoFiltered0p4DzFiltered0p2+process.hltDiMuon199Mass8Filtered+process.HLTEndSequence)
process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_Mass3p8_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu17TrkIsoVVLMu8TrkIsoVVLDZMass3p8+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered8+process.hltL3fL1DoubleMu155fFiltered17+process.HLTL3muontrkisovvlSequence+process.hltDiMuon178RelTrkIsoFiltered0p4+process.hltDiMuon178RelTrkIsoFiltered0p4DzFiltered0p2+process.hltDiMuon178Mass3p8Filtered+process.HLTEndSequence)
process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_Mass3p8_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu19TrkIsoVVLMu9TrkIsoVVLDZMass3p8+process.hltL1fL1sDoubleMu155L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu155L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu155L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu155L1Filtered0)+process.hltL3fL1DoubleMu155fPreFiltered9+process.hltL3fL1DoubleMu155fFiltered19+process.HLTL3muontrkisovvlSequence+process.hltDiMuon199RelTrkIsoFiltered0p4+process.hltDiMuon199RelTrkIsoFiltered0p4DzFiltered0p2+process.hltDiMuon199Mass3p8Filtered+process.HLTEndSequence)
process.HLT_Mu25_TkMu0_Onia_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu20or22or25+process.hltPreMu25TkMu0Onia+process.hltL1fL1sMu22orMu20erorMu25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orMu20erorMu25L1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orMu20erorMu25L1Filtered0)+process.hltL3fL1sMu22orMu20erorMu25L1f0L2f0L3Filtered25+process.HLTTrackerMuonSequence+process.hltDiMuonGlbFiltered25TrkFiltered0+process.hltDiMuonGlb25Trk0DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu30_TkMu0_Psi_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu20or22or25+process.hltPreMu30TkMu0Psi+process.hltL1fL1sMu22orMu20erorMu25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orMu20erorMu25L1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orMu20erorMu25L1Filtered0)+process.hltL3fL1sMu22orMu20erorMu25L1f0L2f0L3Filtered30+process.HLTTrackerMuonSequence+process.hltDiMuonGlbFiltered30TrkPsiFiltered0+process.hltDiMuonGlb30Trk0DzPsiFiltered0p2+process.HLTEndSequence)
process.HLT_Mu30_TkMu0_Upsilon_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu20or22or25+process.hltPreMu30TkMu0Upsilon+process.hltL1fL1sMu22orMu20erorMu25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orMu20erorMu25L1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orMu20erorMu25L1Filtered0)+process.hltL3fL1sMu22orMu20erorMu25L1f0L2f0L3Filtered30+process.HLTTrackerMuonSequence+process.hltDiMuonGlbFiltered30TrkUpsilonFiltered0+process.hltDiMuonGlb30TrkUpsilon0DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu20_TkMu0_Phi_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu16IorSingleMu18IorSingleMu20IorSingleMu16erlorSingleMu18erlorSingleMu20erlorSingleMu22erlorSingleMu25+process.hltPreMu20TkMu0Phi+process.hltL1fL1sMu16orMu18erorMu20erL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu16orMu18erorMu20erL1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu16orMu18erorMu20erL1Filtered0)+process.hltL3fL1sMu16orMu18erorMu20L1f0L2f0L3Filtered20+process.HLTTrackerMuonSequence+process.hltDiMuonGlbFiltered20TrkFiltered0+process.hltDiMuonGlb20Trk0DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu25_TkMu0_Phi_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu16IorSingleMu18IorSingleMu20IorSingleMu16erlorSingleMu18erlorSingleMu20erlorSingleMu22erlorSingleMu25+process.hltPreMu25TkMu0Phi+process.hltL1fL1sMu16orMu18erorMu20erL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu16orMu18erorMu20erL1f0L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu16orMu18erorMu20erL1Filtered0)+process.hltL3fL1sMu16orMu18erorMu20L1f0L2f0L3Filtered25+process.HLTTrackerMuonSequence+process.hltDiMuonGlbFiltered25PhiTrkFiltered0+process.hltDiMuonGlb25PhiTrk0DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu12_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu15DQ+process.hltPreMu12+process.hltL1fL1sMu15DQlqL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu15DQlqL1f0L2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0)+process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered12+process.HLTEndSequence)
process.HLT_Mu15_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu15DQ+process.hltPreMu15+process.hltL1fL1sMu15DQlqL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu15DQlqL1f0L2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0)+process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered15+process.HLTEndSequence)
process.HLT_Mu20_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu18+process.hltPreMu20+process.hltL1fL1sMu18L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu18L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu18L1Filtered0)+process.hltL3fL1sMu18L1f0L2f10QL3Filtered20Q+process.HLTEndSequence)
process.HLT_Mu27_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreMu27+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTEndSequence)
process.HLT_Mu50_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreMu50+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered50Q+process.HLTEndSequence)
process.HLT_Mu55_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreMu55+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered55Q+process.HLTEndSequence)
process.HLT_OldMu100_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreOldMu100+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+process.hltL2fOldL1sMu22or25L1f0L2Filtered10Q+process.HLTOldL3muonrecoSequence+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered100Q+process.HLTEndSequence)
process.HLT_TkMu100_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreTkMu100+process.hltL1fL1sMu22or25L1Filtered0+process.HLTMuonLocalRecoSequence+process.HLTHighPt50TrackerMuonSequence+process.hltL3fL1sMu25f0TkFiltered100Q+process.HLTEndSequence)
process.HLT_DiPFJet15_NoCaloMatched_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJet15NoCaloMatched+process.HLTAK4PFJetsSequence+process.hltDoublePFJet15+process.HLTEndSequence)
process.HLT_DiPFJet25_NoCaloMatched_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJet25NoCaloMatched+process.HLTAK4PFJetsSequence+process.hltDoublePFJet25+process.HLTEndSequence)
process.HLT_DiPFJet15_FBEta3_NoCaloMatched_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJet15FBEta3NoCaloMatched+process.HLTAK4PFJetsSequence+process.hltDoublePFJet15FBEta3+process.HLTEndSequence)
process.HLT_DiPFJet25_FBEta3_NoCaloMatched_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJet25FBEta3NoCaloMatched+process.HLTAK4PFJetsSequence+process.hltDoublePFJet25FBEta3+process.HLTEndSequence)
process.HLT_DiPFJetAve40_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJetAve40+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve30+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve40+process.HLTEndSequence)
process.HLT_DiPFJetAve60_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJetAve60+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve45+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve60+process.HLTEndSequence)
process.HLT_DiPFJetAve80_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPreDiPFJetAve80+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve60+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve80+process.HLTEndSequence)
process.HLT_DiPFJetAve140_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet90+process.hltPreDiPFJetAve140+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve110+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve140+process.HLTEndSequence)
process.HLT_DiPFJetAve200_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet120+process.hltPreDiPFJetAve200+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve170+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve200+process.HLTEndSequence)
process.HLT_DiPFJetAve260_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreDiPFJetAve260+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve210+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve260+process.HLTEndSequence)
process.HLT_DiPFJetAve320_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreDiPFJetAve320+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve270+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve320+process.HLTEndSequence)
process.HLT_DiPFJetAve400_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreDiPFJetAve400+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve350+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve400+process.HLTEndSequence)
process.HLT_DiPFJetAve500_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreDiPFJetAve500+process.HLTAK4CaloJetsSequence+process.hltDiCaloJetAve450+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve500+process.HLTEndSequence)
process.HLT_DiPFJetAve15_HFJEC_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJetAve15HFJEC+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve15ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve25_HFJEC_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJetAve25HFJEC+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve25ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve35_HFJEC_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDiPFJetAve35HFJEC+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve35ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve60_HFJEC_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35OrZeroBias+process.hltPreDiPFJetAve60HFJEC+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet40ForHFJECBase+process.hltSingleCaloJet40ForHFJECEtaLimited+process.hltSingleCaloJet40ForHFJECEtaLimitedFilter+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve60ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve80_HFJEC_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60Or60Fwd+process.hltPreDiPFJetAve80HFJEC+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet50ForHFJECBase+process.hltSingleCaloJet50ForHFJECEtaLimited+process.hltSingleCaloJet50ForHFJECEtaLimitedFilter+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve80ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve100_HFJEC_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sV0SingleJet60Or60Fwd+process.hltPreDiPFJetAve100HFJEC+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet60ForHFJECBase+process.hltSingleCaloJet60ForHFJECEtaLimited+process.hltSingleCaloJet60ForHFJECEtaLimitedFilter+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve100ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve160_HFJEC_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet120Or120Fwd+process.hltPreDiPFJetAve160HFJEC+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet100ForHFJECBase+process.hltSingleCaloJet100ForHFJECEtaLimited+process.hltSingleCaloJet100ForHFJECEtaLimitedFilter+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve160ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve220_HFJEC_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreDiPFJetAve220HFJEC+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet140ForHFJECBase+process.hltSingleCaloJet140ForHFJECEtaLimited+process.hltSingleCaloJet140ForHFJECEtaLimitedFilter+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve220ForHFJEC+process.HLTEndSequence)
process.HLT_DiPFJetAve300_HFJEC_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreDiPFJetAve300HFJEC+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet200ForHFJECBase+process.hltSingleCaloJet200ForHFJECEtaLimited+process.hltSingleCaloJet200ForHFJECEtaLimitedFilter+process.HLTAK4PFJetsSequence+process.hltDiPFJetAve300ForHFJEC+process.HLTEndSequence)
process.HLT_AK8PFJet15_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK8PFJet15+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet10AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets10AK8+process.hltSinglePFJet40AK8+process.HLTEndSequence)
process.HLT_AK8PFJet25_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK8PFJet25+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet5AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets5AK8+process.hltSinglePFJet25AK8+process.HLTEndSequence)
process.HLT_AK8PFJet40_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK8PFJet40+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet10AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets10AK8+process.hltSinglePFJet40AK8+process.HLTEndSequence)
process.HLT_AK8PFJet60_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35+process.hltPreAK8PFJet60+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet40AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets40AK8+process.hltSinglePFJet60AK8+process.HLTEndSequence)
process.HLT_AK8PFJet80_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPreAK8PFJet80+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet50AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets50AK8+process.hltSinglePFJet80AK8+process.HLTEndSequence)
process.HLT_AK8PFJet140_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet90+process.hltPreAK8PFJet140+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet110AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets110AK8+process.hltSinglePFJet140AK8+process.HLTEndSequence)
process.HLT_AK8PFJet200_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet120+process.hltPreAK8PFJet200+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet170AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets170AK8+process.hltSinglePFJet200AK8+process.HLTEndSequence)
process.HLT_AK8PFJet260_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet260+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet210AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets210AK8+process.hltSinglePFJet260AK8+process.HLTEndSequence)
process.HLT_AK8PFJet320_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet320+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet270AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets270AK8+process.hltSinglePFJet320AK8+process.HLTEndSequence)
process.HLT_AK8PFJet400_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet400+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet350AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets350AK8+process.hltSinglePFJet400AK8+process.HLTEndSequence)
process.HLT_AK8PFJet450_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet450+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet400AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets400AK8+process.hltSinglePFJet450AK8+process.HLTEndSequence)
process.HLT_AK8PFJet500_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet500+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet450AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets450AK8+process.hltSinglePFJet500AK8+process.HLTEndSequence)
process.HLT_AK8PFJet550_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet550+process.HLTAK8CaloJetsSequence+process.hltSingleCaloJet500AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets500AK8+process.hltSinglePFJet550AK8+process.HLTEndSequence)
process.HLT_PFJet15_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePFJet15+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet5+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets5+process.hltSinglePFJet15+process.HLTEndSequence)
process.HLT_PFJet25_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePFJet25+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet10+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets10+process.hltSinglePFJet25+process.HLTEndSequence)
process.HLT_PFJet40_v21 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePFJet40+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet10+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets10+process.hltSinglePFJet40+process.HLTEndSequence)
process.HLT_PFJet60_v21 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35+process.hltPrePFJet60+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet40+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets40+process.hltSinglePFJet60+process.HLTEndSequence)
process.HLT_PFJet80_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPrePFJet80+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet50+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets50+process.hltSinglePFJet80+process.HLTEndSequence)
process.HLT_PFJet140_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet90+process.hltPrePFJet140+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet110+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets110+process.hltSinglePFJet140+process.HLTEndSequence)
process.HLT_PFJet200_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet120+process.hltPrePFJet200+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet170+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets170+process.hltSinglePFJet200+process.HLTEndSequence)
process.HLT_PFJet260_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJet260+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet210+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets210+process.hltSinglePFJet260+process.HLTEndSequence)
process.HLT_PFJet320_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJet320+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet270+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets270+process.hltSinglePFJet320+process.HLTEndSequence)
process.HLT_PFJet400_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJet400+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet350+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets350+process.hltSinglePFJet400+process.HLTEndSequence)
process.HLT_PFJet450_v21 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJet450+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet400+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets400+process.hltSinglePFJet450+process.HLTEndSequence)
process.HLT_PFJet500_v21 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJet500+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet450+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets450+process.hltSinglePFJet500+process.HLTEndSequence)
process.HLT_PFJet550_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJet550+process.HLTAK4CaloJetsSequence+process.hltSingleCaloJet450+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets450+process.hltSinglePFJet550+process.HLTEndSequence)
process.HLT_PFJetFwd15_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePFJetFwd15+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet5+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets5+process.hltSinglePFFwdJet15+process.HLTEndSequence)
process.HLT_PFJetFwd25_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePFJetFwd25+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet10+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets10+process.hltSinglePFFwdJet25+process.HLTEndSequence)
process.HLT_PFJetFwd40_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePFJetFwd40+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet10+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets10+process.hltSinglePFFwdJet40+process.HLTEndSequence)
process.HLT_PFJetFwd60_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35Fwd+process.hltPrePFJetFwd60+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet40+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets40+process.hltSinglePFFwdJet60+process.HLTEndSequence)
process.HLT_PFJetFwd80_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60Fwd+process.hltPrePFJetFwd80+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet50+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets50+process.hltSinglePFFwdJet80+process.HLTEndSequence)
process.HLT_PFJetFwd140_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet90Fwd+process.hltPrePFJetFwd140+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet110+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets110+process.hltSinglePFFwdJet140+process.HLTEndSequence)
process.HLT_PFJetFwd200_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet120Fwd+process.hltPrePFJetFwd200+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet170+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets170+process.hltSinglePFFwdJet200+process.HLTEndSequence)
process.HLT_PFJetFwd260_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJetFwd260+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet210+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets210+process.hltSinglePFFwdJet260+process.HLTEndSequence)
process.HLT_PFJetFwd320_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJetFwd320+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet270+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets270+process.hltSinglePFFwdJet320+process.HLTEndSequence)
process.HLT_PFJetFwd400_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJetFwd400+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet350+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets350+process.hltSinglePFFwdJet400+process.HLTEndSequence)
process.HLT_PFJetFwd450_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJetFwd450+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet400+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets400+process.hltSinglePFFwdJet450+process.HLTEndSequence)
process.HLT_PFJetFwd500_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPrePFJetFwd500+process.HLTAK4CaloJetsSequence+process.hltSingleCaloFwdJet450+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets450+process.hltSinglePFFwdJet500+process.HLTEndSequence)
process.HLT_AK8PFJetFwd15_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK8PFJetFwd15+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet5AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets5AK8+process.hltSinglePFFwdJet15AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd25_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK8PFJetFwd25+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet10AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets10AK8+process.hltSinglePFFwdJet25AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd40_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK8PFJetFwd40+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet10AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets10AK8+process.hltSinglePFFwdJet40AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd60_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35Fwd+process.hltPreAK8PFJetFwd60+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet40AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets40AK8+process.hltSinglePFFwdJet60AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd80_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60Fwd+process.hltPreAK8PFJetFwd80+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet50AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets50AK8+process.hltSinglePFFwdJet80AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd140_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet90Fwd+process.hltPreAK8PFJetFwd140+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet110AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets110AK8+process.hltSinglePFFwdJet140AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd200_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet120Fwd+process.hltPreAK8PFJetFwd200+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet170AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets170AK8+process.hltSinglePFFwdJet200AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd260_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJetFwd260+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet210AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets210AK8+process.hltSinglePFFwdJet260AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd320_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJetFwd320+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet270AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets270AK8+process.hltSinglePFFwdJet320AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd400_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJetFwd400+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet350AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets350AK8+process.hltSinglePFFwdJet400AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd450_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJetFwd450+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet400AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets400AK8+process.hltSinglePFFwdJet450AK8+process.HLTEndSequence)
process.HLT_AK8PFJetFwd500_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJetFwd500+process.HLTAK8CaloJetsSequence+process.hltSingleCaloFwdJet450AK8+process.HLTAK8PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloFwdJets450AK8+process.hltSinglePFFwdJet500AK8+process.HLTEndSequence)
process.HLT_PFHT180_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT120er+process.hltPrePFHT180+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT130Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT180Jet30+process.HLTEndSequence)
process.HLT_PFHT250_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT160er+process.hltPrePFHT250+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT250Jet30+process.HLTEndSequence)
process.HLT_PFHT370_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT200er+process.hltPrePFHT370+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT320Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT370Jet30+process.HLTEndSequence)
process.HLT_PFHT430_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT255er+process.hltPrePFHT430+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT380Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT430Jet30+process.HLTEndSequence)
process.HLT_PFHT510_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT510+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT460Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT510Jet30+process.HLTEndSequence)
process.HLT_PFHT590_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT590+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT515Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT590Jet30+process.HLTEndSequence)
process.HLT_PFHT680_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT680+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT580Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT680Jet30+process.HLTEndSequence)
process.HLT_PFHT780_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT780+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT680Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT780Jet30+process.HLTEndSequence)
process.HLT_PFHT890_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT890+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT790Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT890Jet30+process.HLTEndSequence)
process.HLT_PFHT1050_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT1050+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT900Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT1050Jet30+process.HLTEndSequence)
process.HLT_PFHT500_PFMET100_PFMHT100_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT500PFMET100PFMHT100IDTight+process.HLTRecoMETSequence+process.hltMET70+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT70+process.hltHtMhtJet30+process.hltHT400Jet30+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID100+process.hltPFMETProducer+process.hltPFMET100+process.hltPFHTJet30+process.hltPFHT500Jet30+process.HLTEndSequence)
process.HLT_PFHT500_PFMET110_PFMHT110_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT500PFMET110PFMHT110IDTight+process.HLTRecoMETSequence+process.hltMET80+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT80+process.hltHtMhtJet30+process.hltHT400Jet30+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID110+process.hltPFMETProducer+process.hltPFMET110+process.hltPFHTJet30+process.hltPFHT500Jet30+process.HLTEndSequence)
process.HLT_PFHT700_PFMET85_PFMHT85_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT700PFMET85PFMHT85IDTight+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT60+process.hltHtMhtJet30+process.hltHT550Jet30+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID85+process.hltPFMETProducer+process.hltPFMET85+process.hltPFHTJet30+process.hltPFHT700Jet30+process.HLTEndSequence)
process.HLT_PFHT700_PFMET95_PFMHT95_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT700PFMET95PFMHT95IDTight+process.HLTRecoMETSequence+process.hltMET70+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT70+process.hltHtMhtJet30+process.hltHT550Jet30+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID95+process.hltPFMETProducer+process.hltPFMET95+process.hltPFHTJet30+process.hltPFHT700Jet30+process.HLTEndSequence)
process.HLT_PFHT800_PFMET75_PFMHT75_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT800PFMET75PFMHT75IDTight+process.HLTRecoMETSequence+process.hltMET50+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT50+process.hltHtMhtJet30+process.hltHT650Jet30+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID75+process.hltPFMETProducer+process.hltPFMET75+process.hltPFHTJet30+process.hltPFHT800Jet30+process.HLTEndSequence)
process.HLT_PFHT800_PFMET85_PFMHT85_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllHTTSeeds+process.hltPrePFHT800PFMET85PFMHT85IDTight+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT60+process.hltHtMhtJet30+process.hltHT650Jet30+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID85+process.hltPFMETProducer+process.hltPFMET85+process.hltPFHTJet30+process.hltPFHT800Jet30+process.HLTEndSequence)
process.HLT_PFMET110_PFMHT110_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET110PFMHT110IDTight+process.HLTRecoMETSequence+process.hltMET80+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT80+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID110+process.hltPFMETProducer+process.hltPFMET110+process.HLTEndSequence)
process.HLT_PFMET120_PFMHT120_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET120PFMHT120IDTight+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID120+process.hltPFMETProducer+process.hltPFMET120+process.HLTEndSequence)
process.HLT_PFMET130_PFMHT130_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET130PFMHT130IDTight+process.HLTRecoMETSequence+process.hltMET100+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT100+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID130+process.hltPFMETProducer+process.hltPFMET130+process.HLTEndSequence)
process.HLT_PFMET140_PFMHT140_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET140PFMHT140IDTight+process.HLTRecoMETSequence+process.hltMET110+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT110+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID140+process.hltPFMETProducer+process.hltPFMET140+process.HLTEndSequence)
process.HLT_PFMET120_PFMHT120_IDTight_PFHT60_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFHTT60Seeds+process.hltPrePFMET120PFMHT120IDTightPFHT60+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT60Jet30+process.hltPFMHTTightID+process.hltPFMHTTightID120+process.hltPFMETProducer+process.hltPFMET120+process.HLTEndSequence)
process.HLT_PFMETNoMu120_PFMHTNoMu120_IDTight_PFHT60_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFHTT60Seeds+process.hltPrePFMETNoMu120PFMHTNoMu120IDTightPFHT60+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT60Jet30+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID120+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu120+process.HLTEndSequence)
process.HLT_PFMETTypeOne120_PFMHT120_IDTight_PFHT60_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFHTT60Seeds+process.hltPrePFMETTypeOne120PFMHT120IDTightPFHT60+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT60Jet30+process.hltPFMHTTightID+process.hltPFMHTTightID120+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne120+process.HLTEndSequence)
process.HLT_PFMETTypeOne110_PFMHT110_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETTypeOne110PFMHT110IDTight+process.HLTRecoMETSequence+process.hltMET80+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT80+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID110+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne110+process.HLTEndSequence)
process.HLT_PFMETTypeOne120_PFMHT120_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETTypeOne120PFMHT120IDTight+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID120+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne120+process.HLTEndSequence)
process.HLT_PFMETTypeOne130_PFMHT130_IDTight_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETTypeOne130PFMHT130IDTight+process.HLTRecoMETSequence+process.hltMET100+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT100+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID130+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne130+process.HLTEndSequence)
process.HLT_PFMETTypeOne140_PFMHT140_IDTight_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETTypeOne140PFMHT140IDTight+process.HLTRecoMETSequence+process.hltMET110+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT110+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID140+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne140+process.HLTEndSequence)
process.HLT_PFMETNoMu110_PFMHTNoMu110_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETNoMu110PFMHTNoMu110IDTight+process.HLTRecoMETSequence+process.hltMET80+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT80+process.HLTAK4PFJetsSequence+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID110+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu110+process.HLTEndSequence)
process.HLT_PFMETNoMu120_PFMHTNoMu120_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETNoMu120PFMHTNoMu120IDTight+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID120+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu120+process.HLTEndSequence)
process.HLT_PFMETNoMu130_PFMHTNoMu130_IDTight_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETNoMu130PFMHTNoMu130IDTight+process.HLTRecoMETSequence+process.hltMET100+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT100+process.HLTAK4PFJetsSequence+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID130+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu130+process.HLTEndSequence)
process.HLT_PFMETNoMu140_PFMHTNoMu140_IDTight_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETNoMu140PFMHTNoMu140IDTight+process.HLTRecoMETSequence+process.hltMET110+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT110+process.HLTAK4PFJetsSequence+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID140+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu140+process.HLTEndSequence)
process.HLT_MonoCentralPFJet80_PFMETNoMu110_PFMHTNoMu110_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreMonoCentralPFJet80PFMETNoMu110PFMHTNoMu110IDTight+process.HLTRecoMETSequence+process.hltMET80+process.HLTAK4CaloJetsSequence+process.hltCentralCaloJet65+process.hltMht+process.hltMHT80+process.HLTAK4PFJetsSequence+process.hltCentralPFJet80+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID110+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu110+process.HLTEndSequence)
process.HLT_MonoCentralPFJet80_PFMETNoMu120_PFMHTNoMu120_IDTight_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreMonoCentralPFJet80PFMETNoMu120PFMHTNoMu120IDTight+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltCentralCaloJet65+process.hltMht+process.hltMHT90+process.HLTAK4PFJetsSequence+process.hltCentralPFJet80+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID120+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu120+process.HLTEndSequence)
process.HLT_MonoCentralPFJet80_PFMETNoMu130_PFMHTNoMu130_IDTight_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreMonoCentralPFJet80PFMETNoMu130PFMHTNoMu130IDTight+process.HLTRecoMETSequence+process.hltMET100+process.HLTAK4CaloJetsSequence+process.hltCentralCaloJet65+process.hltMht+process.hltMHT100+process.HLTAK4PFJetsSequence+process.hltCentralPFJet80+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID130+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu130+process.HLTEndSequence)
process.HLT_MonoCentralPFJet80_PFMETNoMu140_PFMHTNoMu140_IDTight_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreMonoCentralPFJet80PFMETNoMu140PFMHTNoMu140IDTight+process.HLTRecoMETSequence+process.hltMET110+process.HLTAK4CaloJetsSequence+process.hltCentralCaloJet65+process.hltMht+process.hltMHT110+process.HLTAK4PFJetsSequence+process.hltCentralPFJet80+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID140+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu140+process.HLTEndSequence)
process.HLT_L1ETMHadSeeds_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreL1ETMHadSeeds+process.HLTEndSequence)
process.HLT_CaloMHT90_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMHT90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTEndSequence)
process.HLT_CaloMET80_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET80NotCleaned+process.HLTRecoMETSequence+process.hltMET80+process.HLTEndSequence)
process.HLT_CaloMET90_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET90NotCleaned+process.HLTRecoMETSequence+process.hltMET90+process.HLTEndSequence)
process.HLT_CaloMET100_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET100NotCleaned+process.HLTRecoMETSequence+process.hltMET100+process.HLTEndSequence)
process.HLT_CaloMET110_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET110NotCleaned+process.HLTRecoMETSequence+process.hltMET110+process.HLTEndSequence)
process.HLT_CaloMET250_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET250NotCleaned+process.HLTRecoMETSequence+process.hltMET250+process.HLTEndSequence)
process.HLT_CaloMET300_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET300NotCleaned+process.HLTRecoMETSequence+process.hltMET300+process.HLTEndSequence)
process.HLT_CaloMET350_NotCleaned_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPreCaloMET350NotCleaned+process.HLTRecoMETSequence+process.hltMET350+process.HLTEndSequence)
process.HLT_PFMET200_NotCleaned_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET200NotCleaned+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET200+process.HLTEndSequence)
process.HLT_PFMET250_NotCleaned_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET250NotCleaned+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET250+process.HLTEndSequence)
process.HLT_PFMET300_NotCleaned_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET300NotCleaned+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET300+process.HLTEndSequence)
process.HLT_PFMET200_BeamHaloCleaned_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET200BeamHaloCleaned+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET200+process.HLTBeamHaloCleanerSequence+process.hltMetCleanBH+process.hltMETCleanBH80+process.HLTEndSequence)
process.HLT_PFMETTypeOne200_BeamHaloCleaned_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMETTypeOne200BeamHaloCleaned+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne200+process.HLTBeamHaloCleanerSequence+process.hltMetCleanBH+process.hltMETCleanBH80+process.HLTEndSequence)
process.HLT_MET105_IsoTrk50_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sETM80ToETM150+process.hltPreMET105IsoTrk50+process.HLTRecoMETSequence+process.hltMET105+process.HLTRecoJetSequenceAK4PrePF+process.HLTDoLocalPixelSequence+process.HLTDoLocalStripSequence+process.HLTRecopixelvertexingSequence+process.HLTIterativeTrackingIter02+process.hltDeDxEstimatorProducer+process.hltTrk50Filter+process.HLTEndSequence)
process.HLT_MET120_IsoTrk50_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sETM80ToETM150+process.hltPreMET120IsoTrk50+process.HLTRecoMETSequence+process.hltMET120+process.HLTRecoJetSequenceAK4PrePF+process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02+process.hltDeDxEstimatorProducer+process.hltTrk50Filter+process.HLTEndSequence)
process.HLT_SingleJet30_Mu12_SinglePFJet40_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC16dRMax0p4+process.hltPreSingleJet30Mu12SinglePFJet40+process.hltL1fL1sMu3Jet16L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltSingleCaloBJets30eta2p3+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu3Jet16L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu3Jet16L1Filtered0)+process.hltL3fL1sMu3Jet16L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequence+process.hltSinglePFBJets40Eta2p3+process.HLTBTagMuJet40PFMu12SequenceL3+process.hltBSoftMuonJet40Mu12L3FilterByDR+process.HLTEndSequence)
process.HLT_Photon300_NoHE_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPrePhoton300NoHE+process.HLTSinglePhoton300erNoHESequence+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu3IorSingleMu5IorSingleMu7+process.hltPreMu8TrkIsoVVL+process.hltL1fL1sMu3or5or7L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu5L1f0L2Filtered5)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu5L1Filtered0)+process.hltL3fL1sMu5L1f0L2f5L3Filtered8+process.HLTL3muontrkisovvlSequence+process.hltL3fL1sMu5L1f0L2f5L3Filtered8TkIsoFiltered0p4+process.HLTEndSequence)
process.HLT_Mu8_DiEle12_CaloIdL_TrackIdL_DZ_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6DoubleEG10+process.hltPreMu8DiEle12CaloIdLTrackIdLDZ+process.HLTMu8DiEle12CaloIdLTrackIdLMuonlegSequence+process.HLTMu8DiEle12CaloIdLTrackIdLElectronlegSequence+process.hltMu8Ele12DZFilter+process.hltEle12Ele12DZFilter+process.HLTEndSequence)
process.HLT_Mu8_DiEle12_CaloIdL_TrackIdL_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6DoubleEG10+process.hltPreMu8DiEle12CaloIdLTrackIdL+process.HLTMu8DiEle12CaloIdLTrackIdLMuonlegSequence+process.HLTMu8DiEle12CaloIdLTrackIdLElectronlegSequence+process.HLTEndSequence)
process.HLT_Mu8_Ele8_CaloIdM_TrackIdM_Mass8_PFHT350_DZ_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6HTT240+process.hltPreMu8Ele8CaloIdMTrackIdMMass8PFHT350DZ+process.hltMuon8L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltMuon8L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Muon8L1Filtered0)+process.hltL3fL1sMu6HTT240Filtered8+process.HLTSingleEle8CaloIdMGsfTrackIdMSequence+process.hltElectronMuonInvMassFilter8+process.hltMu8Ele8CaloIdMTrackIdMDZFilter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT350Jet30+process.HLTEndSequence)
process.HLT_Mu8_Ele8_CaloIdM_TrackIdM_Mass8_PFHT350_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6HTT240+process.hltPreMu8Ele8CaloIdMTrackIdMMass8PFHT350+process.hltMuon8L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltMuon8L2Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Muon8L1Filtered0)+process.hltL3fL1sMu6HTT240Filtered8+process.HLTSingleEle8CaloIdMGsfTrackIdMSequence+process.hltElectronMuonInvMassFilter8+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT350Jet30+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZ+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZPFDiJet30+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTAK4PFJetsSequence+process.hltPFJetFilterTwoC30+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZCaloDiJet30+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterTwoC30+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVL+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.HLTEndSequence)
process.HLT_Mu17_TrkIsoVVL_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu15DQ+process.hltPreMu17TrkIsoVVL+process.hltL1fL1sMu15DQlqL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu15DQlqL1f0L2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0)+process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered17+process.HLTL3muontrkisovvlSequence+process.hltL3fL1sMu1lqL1f0L2f10L3Filtered17TkIsoFiltered0p4+process.HLTEndSequence)
process.HLT_Mu19_TrkIsoVVL_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu15DQ+process.hltPreMu19TrkIsoVVL+process.hltL1fL1sMu15DQlqL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu15DQlqL1f0L2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0)+process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered19+process.HLTL3muontrkisovvlSequence+process.hltL3fL1sMu1lqL1f0L2f10L3Filtered19TkIsoFiltered0p4+process.HLTEndSequence)
process.HLT_Ele15_Ele8_CaloIdL_TrackIdL_IsoVL_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sLowETSingleAndDoubleEG+process.hltPreEle15Ele8CaloIdLTrackIdLIsoVL+process.HLTEle15Ele8CaloIdLTrackIdLIsoVLSequence+process.HLTEndSequence)
process.HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEG+process.hltPreEle23Ele12CaloIdLTrackIdLIsoVLDZ+process.HLTEle23Ele12CaloIdLTrackIdLIsoVLSequence+process.hltEle23Ele12CaloIdLTrackIdLIsoVLDZFilter+process.HLTEndSequence)
process.HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEG+process.hltPreEle23Ele12CaloIdLTrackIdLIsoVL+process.HLTEle23Ele12CaloIdLTrackIdLIsoVLSequence+process.HLTEndSequence)
process.HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sMu23EG10IorMu20EG17+process.hltPreMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLDZ+process.HLTMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLDZFilter+process.HLTEndSequence)
process.HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sMu23EG10IorMu20EG17+process.hltPreMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVL+process.HLTMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu23TrkIsoVVLEle12CaloIdLTrackIdLIsoVLElectronlegSequence+process.HLTEndSequence)
process.HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVL+process.HLTMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.HLTEndSequence)
process.HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZ+process.HLTMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu12TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTEndSequence)
process.HLT_Mu12_DoublePhoton20_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6DoubleEG17OrDoubleEGOrSingleEG+process.hltPreMu12DoublePhoton20+process.hltL1fMu12Diphoton20L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu12Diphoton20L1f0L2Filtered8Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu12Diphoton20L1Filtered0)+process.hltL3fL1sMu12Diphoton20L1f0L2f8QL3Filtered12+process.HLTMu12DoubleUnSeededPho20Sequence+process.HLTEndSequence)
process.HLT_TriplePhoton_20_20_20_CaloIdLV2_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleEGOrDoubleEGOrSingleEG+process.hltPreTriplePhoton202020CaloIdLV2+process.HLTPho20CaloIdLV2TripleSeededSequence+process.HLTTriplePho20CaloIdLV2UnseededSequence+process.HLTEndSequence)
process.HLT_TriplePhoton_20_20_20_CaloIdLV2_R9IdVL_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleEGOrDoubleEGOrSingleEG+process.hltPreTriplePhoton202020CaloIdLV2R9IdVL+process.HLTTriplePho20CaloIdLV2R9IdVLSequence+process.HLTEndSequence)
process.HLT_TriplePhoton_30_30_10_CaloIdLV2_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleEGOrDoubleEGOrSingleEG+process.hltPreTriplePhoton303010CaloIdLV2+process.HLTTriplePho303010CaloIdLV2Sequence+process.HLTEndSequence)
process.HLT_TriplePhoton_30_30_10_CaloIdLV2_R9IdVL_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleEGOrDoubleEGOrSingleEG+process.hltPreTriplePhoton303010CaloIdLV2R9IdVL+process.HLTTriplePho303010CaloIdLV2R9IdVLSequence+process.HLTEndSequence)
process.HLT_TriplePhoton_35_35_5_CaloIdLV2_R9IdVL_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleEGOrDoubleEGOrSingleEG+process.hltPreTriplePhoton35355CaloIdLV2R9IdVL+process.HLTTriplePho35355CaloIdLV2R9IdVLSequence+process.HLTEndSequence)
process.HLT_Photon20_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG15er2p5+process.hltPrePhoton20+process.HLTPhoton20Sequence+process.HLTEndSequence)
process.HLT_Photon33_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG26+process.hltPrePhoton33+process.HLTPhoton33Sequence+process.HLTEndSequence)
process.HLT_Photon50_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG34to45+process.hltPrePhoton50+process.HLTPhoton50Sequence+process.HLTEndSequence)
process.HLT_Photon75_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG34to50+process.hltPrePhoton75+process.HLTPhoton75Sequence+process.HLTEndSequence)
process.HLT_Photon90_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG34to50+process.hltPrePhoton90+process.HLTPhoton90Sequence+process.HLTEndSequence)
process.HLT_Photon120_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG34to50+process.hltPrePhoton120+process.HLTPhoton120Sequence+process.HLTEndSequence)
process.HLT_Photon150_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPrePhoton150+process.HLTPhoton150Sequence+process.HLTEndSequence)
process.HLT_Photon175_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPrePhoton175+process.HLTPhoton175Sequence+process.HLTEndSequence)
process.HLT_Photon200_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPrePhoton200+process.HLTPhoton200Sequence+process.HLTEndSequence)
process.HLT_Photon100EB_TightID_TightIso_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton100EBTightIDTightIso+process.HLTPhoton100EBTightIDTightIsoSequence+process.HLTEndSequence)
process.HLT_Photon110EB_TightID_TightIso_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton110EBTightIDTightIso+process.HLTPhoton110EBTightIDTightIsoSequence+process.HLTEndSequence)
process.HLT_Photon120EB_TightID_TightIso_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton120EBTightIDTightIso+process.HLTPhoton120EBTightIDTightIsoSequence+process.HLTEndSequence)
process.HLT_Photon100EBHE10_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton100EBHE10+process.HLTPhoton100EBHE10Sequence+process.HLTEndSequence)
process.HLT_Photon100EEHE10_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton100EEHE10+process.HLTPhoton100EEHE10Sequence+process.HLTEndSequence)
process.HLT_Photon100EE_TightID_TightIso_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton100EETightIDTightIso+process.HLTPhoton100EETightIDTightIsoSequence+process.HLTEndSequence)
process.HLT_Photon50_R9Id90_HE10_IsoM_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton50R9Id90HE10IsoM+process.HLTPhoton50R9Id90HE10IsoMSequence+process.HLTEndSequence)
process.HLT_Photon75_R9Id90_HE10_IsoM_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton75R9Id90HE10IsoM+process.HLTPhoton75R9Id90HE10IsoMSequence+process.HLTEndSequence)
process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_CaloMJJ300_PFJetsMJJ400DEta3_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton75R9Id90HE10IsoMEBOnlyCaloMJJ300PFJetsMJJ400DEta3+process.HLTPhoton75R9Id90HE10IsoMEBOnlySequence+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet30MJJ300AllJetsDEta3Filter+process.HLTAK4PFJetsSequence+process.hltDiPFJet30MJJ400AllJetsDEta3Filter+process.HLTEndSequence)
process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_CaloMJJ400_PFJetsMJJ600DEta3_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton75R9Id90HE10IsoMEBOnlyCaloMJJ400PFJetsMJJ600DEta3+process.HLTPhoton75R9Id90HE10IsoMEBOnlySequence+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet30MJJ400AllJetsDEta3Filter+process.HLTAK4PFJetsSequence+process.hltDiPFJet30MJJ600AllJetsDEta3Filter+process.HLTEndSequence)
process.HLT_Photon90_R9Id90_HE10_IsoM_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton90R9Id90HE10IsoM+process.HLTPhoton90R9Id90HE10IsoMSequence+process.HLTEndSequence)
process.HLT_Photon120_R9Id90_HE10_IsoM_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton120R9Id90HE10IsoM+process.HLTPhoton120R9Id90HE10IsoMSequence+process.HLTEndSequence)
process.HLT_Photon165_R9Id90_HE10_IsoM_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton165R9Id90HE10IsoM+process.HLTPhoton165R9Id90HE10IsoMSequence+process.HLTEndSequence)
process.HLT_Photon90_CaloIdL_PFHT700_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton90CaloIdLPFHT700+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1SingleEG40Filter+process.hltEG90PFHT700EtFilter+process.hltEgammaClusterShape+process.hltPhoton90CaloIdLPFHT700ClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltPhoton90CaloIdLPFHT700HEFilter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT700Jet30+process.HLTEndSequence)
process.HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiphoton3022R9IdORIsoCaloIdANDHER9IdMass90+process.HLTDiphoton30L22R9Id85b90eORIso60CaloId15b35eANDHE12R9Id50b80eSequence+process.hltDiEG22R9Id85b90eORIso60CaloId15b35eANDHE12R9Id50b80eMass90CombMassLastFilter+process.HLTEndSequence)
process.HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiphoton3022R9IdORIsoCaloIdANDHER9IdMass95+process.HLTDiphoton30L22R9Id85b90eORIso60CaloId15b35eANDHE12R9Id50b80eSequence+process.hltDiEG22R9Id85b95eORIso60CaloId15b35eANDHE12R9Id50b80eMass95CombMassLastFilter+process.HLTEndSequence)
process.HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_PixelVeto_Mass55_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiphoton30PV18PVR9IdANDIsoCaloIdANDHER9IdPixelVetoMass55+process.HLTDiphoton30PV18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55NewPixelMatchSequence+process.HLTEndSequence)
process.HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_NoPixelVeto_Mass55_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiphoton30PV18PVR9IdANDIsoCaloIdANDHER9IdNoPixelVetoMass55+process.HLTDiphoton30PV18PVR9Idb85e90ANDIso60CaloId15b35eANDHE10R9Id50b80eMass55NoPixelVetoSequence+process.HLTEndSequence)
process.HLT_Photon35_TwoProngs35_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sBigORLooseIsoEGXXerIsoTauYYerdRMin0p3+process.hltPrePhoton35TwoProngs35+process.HLTPhoton35R9Id90HE10IsoMSequence+process.HLTGlobalPFTauConeSequence+process.hltOverlapFilterPhoton35IsoTau35WPTightGsfCaloJet5+process.HLTMediumChargedIsoPFTau35Sequence+process.hltOverlapFilterPhoton35MediumChargedIsoPFTau35+process.HLTEndSequence)
process.HLT_IsoMu24_TwoProngs35_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22+process.hltPreIsoMu24TwoProngs35+process.hltL1fL1sMu22L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMu22L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22L1Filtered0)+process.hltL3fL1sSingleMu22L1f0L2f10QL3Filtered24Q+process.HLTMu24IsolationSequence+process.hltL3crIsoL1sSingleMu22L1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau35Sequence+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi_L1_NoOS_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQ+process.hltPreDimuon0JpsiL1NoOS+process.hltL1fL1DoubleMu0SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0SQL2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0)+process.hltDimuon0JpsiL1sNoOSL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0JpsiL1sNoOS+process.hltDisplacedmumuFilterDimuon0JpsiL1sNoOS+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi_NoVertexing_NoOS_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQ+process.hltPreDimuon0JpsiNoVertexingNoOS+process.hltL1fL1DoubleMu0SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0SQL2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQL1Filtered0)+process.hltDimuon0JpsiNoVtxNoOSL3Filtered+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQOS+process.hltPreDimuon0Jpsi+process.hltL1sEmuDoubleMu0SQOS+process.hltL1fL1DoubleMu0SQOSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0SQOSL2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQOSL1Filtered0)+process.hltDimuon0JpsiL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0Jpsi+process.hltDisplacedmumuFilterDimuon0Jpsi+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi_NoVertexing_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQOS+process.hltPreDimuon0JpsiNoVertexing+process.hltL1sEmuDoubleMu0SQOS+process.hltL1fL1DoubleMu0SQOSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0SQOSL2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQOSL1Filtered0)+process.hltDimuon0JpsiL3Filtered+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi_L1_4R_0er1p5R_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDimuon0JpsiL14R0er1p5R+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDimuon0JpsiL1s4R0er1p5RL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0JpsiL1s4R0er1p5R+process.hltDisplacedmumuFilterDimuon0JpsiL1s4R0er1p5R+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi_NoVertexing_L1_4R_0er1p5R_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDimuon0JpsiNoVertexingL14R0er1p5R+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDimuon0JpsiL1s4R0er1p5RL3Filtered+process.HLTEndSequence)
process.HLT_Dimuon0_Jpsi3p5_Muon2_v5 = cms.Path(process.HLTBeginSequence+process.hltL1TripleMu5SQ3SQ0OQDoubleMu53SQOSMassMax9+process.hltPreDimuon0Jpsi3p5Muon2+process.hltTripleMuonL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltTripleMuonL2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3TripleMuonL1Filtered0)+process.hltTripleMuL3PreFiltered222+process.hltJpsiMuonL3Filtered3p5+process.hltDisplacedmumuVtxProducerJpsiMuon3p5+process.hltVertexmumuFilterJpsiMuon3p5+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_L1_4p5_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4p5SQOS+process.hltPreDimuon0UpsilonL14p5+process.hltL1sEmuDoubleMu4p5SQOS+process.hltL1fL1sL1DoubleMu4p5SQOSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4p5SQOSL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4p5SQOSL1Filtered0)+process.hltDimuon0UpsilonL1s4p5L3Filtered+process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5+process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_L1_5_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu5SQOS+process.hltPreDimuon0UpsilonL15+process.hltL1sEmuDoubleMu5SQOS+process.hltL1fL1sL1DoubleMu5SQOSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu5SQOSL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu5SQOSL1Filtered0)+process.hltDimuon0UpsilonL1s5L3Filtered+process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s5+process.hltDisplacedmumuFilterDimuon0UpsilonL1s5+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_L1_4p5NoOS_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4p5SQ+process.hltPreDimuon0UpsilonL14p5NoOS+process.hltL1fL1sL1DoubleMu4p5SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4p5SQL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4p5SQL1Filtered0)+process.hltDimuon0UpsilonL1s4p5NoOSL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5NoOS+process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5NoOS+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_L1_4p5er2p0_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4p5er2p0SQ+process.hltPreDimuon0UpsilonL14p5er2p0+process.hltL1sEmuDoubleMu4p5er2p0SQ+process.hltL1fL1sL1DoubleMu4p5er2p0SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4p5er2p0SQL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQL1Filtered0)+process.hltDimuon0UpsilonL1s4p5er2p0L3Filtered+process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5er2p0+process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5er2p0+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_L1_4p5er2p0M_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4p5er2p0SQMass7to18+process.hltPreDimuon0UpsilonL14p5er2p0M+process.hltL1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4p5er2p0SQMass7to18L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0)+process.hltDimuon0UpsilonL1s4p5er2p0ML3Filtered+process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s4p5er2p0M+process.hltDisplacedmumuFilterDimuon0UpsilonL1s4p5er2p0M+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_NoVertexing_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4p5er2p0SQMass7to18+process.hltPreDimuon0UpsilonNoVertexing+process.hltL1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4p5er2p0SQMass7to18L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4p5er2p0SQMass7to18L1Filtered0)+process.hltDimuon0UpsilonL1s4p5er2p0ML3Filtered+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_L1_5M_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu5SQMass7to18+process.hltPreDimuon0UpsilonL15M+process.hltL1fL1sL1DoubleMu5SQMass7to18L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu5SQMass7to18L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu5SQMass7to18L1Filtered0)+process.hltDimuon0UpsilonL1s5ML3Filtered+process.hltDisplacedmumuVtxProducerDimuon0UpsilonL1s5M+process.hltDisplacedmumuFilterDimuon0UpsilonL1s5M+process.HLTEndSequence)
process.HLT_Dimuon0_LowMass_L1_0er1p5R_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5dR1p4+process.hltPreDimuon0LowMassL10er1p5R+process.hltL1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5dR1p4L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5dR1p4L1Filtered0)+process.hltDimuon0LowMassL1s0er1p5RL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s0er1p5R+process.hltDisplacedmumuFilterDimuon0LowMassL1s0er1p5R+process.HLTEndSequence)
process.HLT_Dimuon0_LowMass_L1_0er1p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5+process.hltPreDimuon0LowMassL10er1p5+process.hltL1sEmuDoubleMu0er1p5+process.hltL1fL1sL1DoubleMu0er1p5L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5L1Filtered0)+process.hltDimuon0LowMassL1s0er1p5L3Filtered+process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s0er1p5+process.hltDisplacedmumuFilterDimuon0LowMassL1s0er1p5+process.HLTEndSequence)
process.HLT_Dimuon0_LowMass_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQOS+process.hltPreDimuon0LowMass+process.hltL1sEmuDoubleMu0SQOS+process.hltL1fL1DoubleMu0SQOSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0SQOSL2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1DoubleMu0SQOSL1Filtered0)+process.hltDimuon0LowMassL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0LowMass+process.hltDisplacedmumuFilterDimuon0LowMass+process.HLTEndSequence)
process.HLT_Dimuon0_LowMass_L1_4_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4SQOS+process.hltPreDimuon0LowMassL14+process.hltL1sEmuDoubleMu4SQOS+process.hltL1fL1sL1DoubleMu4SQOSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4SQOSL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4SQOSL1Filtered0)+process.hltDimuon0LowMassL1s4L3Filtered+process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s4+process.hltDisplacedmumuFilterDimuon0LowMassL1s4+process.HLTEndSequence)
process.HLT_Dimuon0_LowMass_L1_4R_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4dR1p2+process.hltPreDimuon0LowMassL14R+process.hltL1fL1sL1DoubleMu4dR1p2L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu4dR1p2L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu4dR1p2L1Filtered0)+process.hltDimuon0LowMassL1s4RL3Filtered+process.hltDisplacedmumuVtxProducerDimuon0LowMassL1s4R+process.hltDisplacedmumuFilterDimuon0LowMassL1s4R+process.HLTEndSequence)
process.HLT_Dimuon0_LowMass_L1_TM530_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu530NoMass+process.hltPreDimuon0LowMassL1TM530+process.hltL1fL1sL1TripleMuNoMassL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1TripleMuNoMassL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1TripleMuNoMassL1Filtered0)+process.hltDimuon0LowMassL1sTM530L3Filtered+process.hltDisplacedmumuVtxProducerDimuon0LowMassL1sTM530+process.hltDisplacedmumuFilterDimuon0LowMassL1sTM530+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_Muon_L1_TM0_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu0+process.hltPreDimuon0UpsilonMuonL1TM0+process.hltTripleMuon0L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltTripleMuon0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3TripleMuon0L1Filtered0)+process.hltTripleMu0L3PreFiltered0+process.hltUpsilon0MuonL3FilteredL1sTM0+process.hltDisplacedmumuVtxProducerUpsilon0MuonL1sTM0+process.hltVertexmumuFilterUpsilon0MuonL1sTM0+process.HLTEndSequence)
process.HLT_Dimuon0_Upsilon_Muon_NoL1Mass_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu53p52p5+process.hltPreDimuon0UpsilonMuonNoL1Mass+process.hltTripleMuon53p52p5L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltTripleMuon53p52p5L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3TripleMuon53p52p5L1Filtered0)+process.hltTripleMu0NoL1MassL3PreFiltered0+process.hltUpsilon0MuonL3FilteredNoL1Mass+process.hltDisplacedmumuVtxProducerUpsilon0MuonNoL1Mass+process.hltVertexmumuFilterUpsilon0MuonNoL1Mass+process.HLTEndSequence)
process.HLT_TripleMu_5_3_3_Mass3p8_DZ_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu0IorTripleMu553+process.hltPreTripleMu533Mass3p8DZ+process.hltL1TripleMu553L1TriMuFiltered3+process.HLTL2muonrecoSequence+cms.ignore(process.hltL1TripleMu553L2TriMuFiltered3)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1TripleMu553L1TriMuFiltered3)+process.hltL3fL1TripleMu553f0PreFiltered333+process.hltL3fL1TripleMu553f0Filtered533+process.hltTripleMu533TripleDZ0p2+process.hltTripleMu533Mass3p8toInfFilter+process.HLTEndSequence)
process.HLT_TripleMu_10_5_5_DZ_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu0IorTripleMu553+process.hltPreTripleMu1055DZ+process.hltL1TripleMu553L1TriMuFiltered3+process.HLTL2muonrecoSequence+cms.ignore(process.hltL1TripleMu553L2TriMuFiltered3)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1TripleMu553L1TriMuFiltered3)+process.hltL3fL1TripleMu553f0PreFiltered555+process.hltL3fL1TripleMu553f0Filtered1055+process.hltTripleMu555TripleDZ0p2+process.HLTEndSequence)
process.HLT_TripleMu_12_10_5_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu0IorTripleMu553+process.hltPreTripleMu12105+process.hltL1TripleMu553L1TriMuFiltered3+process.HLTL2muonrecoSequence+cms.ignore(process.hltL1TripleMu553L2TriMuFiltered3)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1TripleMu553L1TriMuFiltered3)+process.hltL3fL1TripleMu553f0PreFiltered555+process.hltL3fL1TripleMu553f0Filtered10105+process.hltL3fL1TripleMu553f0Filtered12105+process.HLTEndSequence)
process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_Tau15_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu157IorDoubleMu4p5SQOSdR1p2IorSingleMu25IorSingleMu22erIorTripleMuMassMax9+process.hltPreTau3MuMu7Mu1TkMu1Tau15+process.hltL1fL1sL1WTau3MuSeedsL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1WTau3MuSeedsL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+process.hltMu1Mu1TrkPairPt2DR0p5MassMax1p9+process.hltDiMuonForTau3MuDzFiltered0p3+process.HLTTrackerMuonSequenceLowPt+process.hltTau3MuTriMuon1filter+process.HLTL3muontrkisorecoSequence+process.hltTauPt15MuPts711Mass1p3to2p1Iso+process.hltTau3MuPreFilter+process.HLTEndSequence)
process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_Tau15_Charge1_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu157IorDoubleMu4p5SQOSdR1p2IorSingleMu25IorSingleMu22erIorTripleMuMassMax9+process.hltPreTau3MuMu7Mu1TkMu1Tau15Charge1+process.hltL1fL1sL1WTau3MuSeedsL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1WTau3MuSeedsL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+process.hltMu1Mu1TrkPairPt2DR0p5MassMax1p9+process.hltDiMuonForTau3MuDzFiltered0p3+process.HLTTrackerMuonSequenceLowPt+process.hltTau3MuTriMuon1filter+process.HLTL3muontrkisorecoSequence+process.hltTauPt15MuPts711Mass1p3to2p1IsoCharge1+process.hltTau3MuPreFilterCharge1+process.HLTEndSequence)
process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_IsoTau15_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu157IorDoubleMu4p5SQOSdR1p2IorSingleMu25IorSingleMu22erIorTripleMuMassMax9+process.hltPreTau3MuMu7Mu1TkMu1IsoTau15+process.hltL1fL1sL1WTau3MuSeedsL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1WTau3MuSeedsL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+process.hltMu1Mu1TrkPairPt2DR0p5MassMax1p9+process.hltDiMuonForTau3MuDzFiltered0p3+process.HLTTrackerMuonSequenceLowPt+process.hltTau3MuTriMuon1filter+process.HLTL3muontrkisorecoSequence+process.hltTauPt15MuPts711Mass1p3to2p1Iso+process.hltTau3MuPreFilter+process.hltTau3MuIsoFilter+process.HLTEndSequence)
process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_IsoTau15_Charge1_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu157IorDoubleMu4p5SQOSdR1p2IorSingleMu25IorSingleMu22erIorTripleMuMassMax9+process.hltPreTau3MuMu7Mu1TkMu1IsoTau15Charge1+process.hltL1fL1sL1WTau3MuSeedsL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1WTau3MuSeedsL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+process.hltMu1Mu1TrkPairPt2DR0p5MassMax1p9+process.hltDiMuonForTau3MuDzFiltered0p3+process.HLTTrackerMuonSequenceLowPt+process.hltTau3MuTriMuon1filter+process.HLTL3muontrkisorecoSequence+process.hltTauPt15MuPts711Mass1p3to2p1IsoCharge1+process.hltTau3MuPreFilterCharge1+process.hltTau3MuIsoFilterCharge1+process.HLTEndSequence)
process.HLT_DoubleMu3_DZ_PFMET50_PFMHT60_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0ETM40IorDoubleMu0ETM55IorDoubleMu0ETM60IorDoubleMu0ETM65IorDoubleMu0ETM70+process.hltPreDoubleMu3DZPFMET50PFMHT60+process.hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.hltL3fL1DiMu3SQETM50f0PreFiltered3+process.hltDoubleMuon3Mass3p8to60Filter+process.hltDoubleMuon3Mass3p8to60DZFilter+process.HLTRecoMETSequence+process.hltMET40+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET50+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID60+process.HLTEndSequence)
process.HLT_DoubleMu3_DZ_PFMET70_PFMHT70_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0ETM40IorDoubleMu0ETM55IorDoubleMu0ETM60IorDoubleMu0ETM65IorDoubleMu0ETM70+process.hltPreDoubleMu3DZPFMET70PFMHT70+process.hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.hltL3fL1DiMu3SQETM50f0PreFiltered3+process.hltDoubleMuon3Mass3p8to60Filter+process.hltDoubleMuon3Mass3p8to60DZFilter+process.HLTRecoMETSequence+process.hltMET40+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET70+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID70+process.HLTEndSequence)
process.HLT_DoubleMu3_DZ_PFMET90_PFMHT90_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0ETM40IorDoubleMu0ETM55IorDoubleMu0ETM60IorDoubleMu0ETM65IorDoubleMu0ETM70+process.hltPreDoubleMu3DZPFMET90PFMHT90+process.hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.hltL3fL1DiMu3SQETM50f0PreFiltered3+process.hltDoubleMuon3Mass3p8to60Filter+process.hltDoubleMuon3Mass3p8to60DZFilter+process.HLTRecoMETSequence+process.hltMET40+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMET90+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID90+process.HLTEndSequence)
process.HLT_DoubleMu3_Trk_Tau3mu_NoL1Mass_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu530NoMass+process.hltPreDoubleMu3TrkTau3muNoL1Mass+process.hltL1fL1sL1TripleMuNoMassL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1TripleMuNoMassL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1TripleMuNoMassL1Filtered0)+process.hltDoubleMu3TrkTau3muNoL1MassL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu3Tau3muNoL1Mass+process.hltDisplacedmumuFilterDoubleMu3Tau3muNoL1Mass+process.HLTIterativeTrackingTau3muNoL1MassIter02+process.hltTau3muNoL1MassTkAllConeTracksIter+process.hltTau3muNoL1MassTkVertexProducer+process.hltTau3muNoL1MassTkVertexFilter+process.HLTEndSequence)
process.HLT_DoubleMu4_Jpsi_Displaced_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu4JpsiDisplaced+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu4JpsiDisplacedL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu4Jpsi+process.hltDisplacedmumuFilterDoubleMu4Jpsi+process.HLTEndSequence)
process.HLT_DoubleMu4_Jpsi_NoVertexing_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu4JpsiNoVertexing+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu4JpsiDisplacedL3Filtered+process.HLTEndSequence)
process.HLT_DoubleMu4_JpsiTrkTrk_Displaced_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu4JpsiTrkTrkDisplaced+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu4JpsiDisplacedL3Filtered+process.hltDisplacedmumuVtxProducerDoubleMu4Jpsi+process.hltDisplacedmumuFilterDoubleMu4Jpsi+process.HLTIterativeTrackingDisplacedJpsiIter02+process.hltJpsiTkAllConeTracksIter+process.hltJpsiTrkTrkVertexProducerPhiKstar+process.hltJpsiTkTkVertexFilterPhiKstar+process.HLTEndSequence)
process.HLT_DoubleMu43NoFiltersNoVtx_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreDoubleMu43NoFiltersNoVtx+process.hltL1fDimuonL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fDimuonL1f0L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered43+process.HLTEndSequence)
process.HLT_DoubleMu48NoFiltersNoVtx_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreDoubleMu48NoFiltersNoVtx+process.hltL1fDimuonL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fDimuonL1f0L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered48+process.HLTEndSequence)
process.HLT_Mu43NoFiltersNoVtx_Photon43_CaloIdL_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10+process.hltPreMu43NoFiltersNoVtxPhoton43CaloIdL+process.hltL1fL1sMu5EG20orMu20EG15L1Filtered5+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered43+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1Mu5EG20Filter+process.hltMu43NoFiltersNoVtxPhoton43CaloIdLEtFilter+process.hltEgammaClusterShape+process.hltMu43NoFiltersNoVtxPhoton43CaloIdLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu43NoFiltersNoVtxPhoton43CaloIdLHEFilter+process.HLTEndSequence)
process.HLT_Mu48NoFiltersNoVtx_Photon48_CaloIdL_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10+process.hltPreMu48NoFiltersNoVtxPhoton48CaloIdL+process.hltL1fL1sMu5EG20orMu20EG15L1Filtered5+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered48+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1Mu5EG20Filter+process.hltMu48NoFiltersNoVtxPhoton48CaloIdLEtFilter+process.hltEgammaClusterShape+process.hltMu48NoFiltersNoVtxPhoton48CaloIdLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu48NoFiltersNoVtxPhoton48CaloIdLHEFilter+process.HLTEndSequence)
process.HLT_Mu38NoFiltersNoVtxDisplaced_Photon38_CaloIdL_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10+process.hltPreMu38NoFiltersNoVtxDisplacedPhoton38CaloIdL+process.hltL1fL1sMu5EG20orMu20EG15L1Filtered5+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered38Displaced+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1Mu5EG20Filter+process.hltMu38NoFiltersNoVtxPhoton38CaloIdLEtFilter+process.hltEgammaClusterShape+process.hltMu38NoFiltersNoVtxPhoton38CaloIdLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu38NoFiltersNoVtxPhoton38CaloIdLHEFilter+process.HLTEndSequence)
process.HLT_Mu43NoFiltersNoVtxDisplaced_Photon43_CaloIdL_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu7EG23IorMu20EG17IorMu23EG10+process.hltPreMu43NoFiltersNoVtxDisplacedPhoton43CaloIdL+process.hltL1fL1sMu5EG20orMu20EG15L1Filtered5+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fL1sMu5EG20orMu20EG15L1f5L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fL1sMu5EG20orMu20EG15L1f5L2NVf16L3NoFiltersNoVtxFiltered43Displaced+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltEGL1Mu5EG20Filter+process.hltMu43NoFiltersNoVtxPhoton43CaloIdLEtFilter+process.hltEgammaClusterShape+process.hltMu43NoFiltersNoVtxPhoton43CaloIdLClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu43NoFiltersNoVtxPhoton43CaloIdLHEFilter+process.HLTEndSequence)
process.HLT_DoubleMu33NoFiltersNoVtxDisplaced_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreDoubleMu33NoFiltersNoVtxDisplaced+process.hltL1fDimuonL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fDimuonL1f0L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered33Displaced+process.HLTEndSequence)
process.HLT_DoubleMu40NoFiltersNoVtxDisplaced_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreDoubleMu40NoFiltersNoVtxDisplaced+process.hltL1fDimuonL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fDimuonL1f0L2NoVtxFiltered16)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fDimuonL1f0L2NVf16L3NoFiltersNoVtxFiltered40Displaced+process.HLTEndSequence)
process.HLT_DoubleMu20_7_Mass0to30_L1_DM4_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4OS+process.hltPreDoubleMu207Mass0to30L1DM4+process.hltL1fL1sDoubleMu4OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu4OSL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu4OSL1Filtered0)+process.hltDoubleMu207Mass0to30L1DM4L3Filtered+process.HLTEndSequence)
process.HLT_DoubleMu20_7_Mass0to30_L1_DM4EG_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4OSEG12ORDoubleMu5OSEG12+process.hltPreDoubleMu207Mass0to30L1DM4EG+process.hltL1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0)+process.hltDoubleMu207Mass0to30Photon23L3Filtered+process.HLTEndSequence)
process.HLT_HT425_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT380+process.hltPreHT425+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT425+process.HLTEndSequence)
process.HLT_HT430_DisplacedDijet40_DisplacedTrack_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT380+process.hltPreHT430DisplacedDijet40DisplacedTrack+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT430+process.hltEmFraction0p01To0p99CaloJetSelector+process.hltDoubleCentralCaloJetpt40+process.hltCentralCaloJetptLowPtCollectionProducer+process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets+(process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter0PFlowCkfTrackCandidatesForBTag+process.hltIter0PFlowCtfWithMaterialTracksForBTag+process.hltIter0PFlowTrackCutClassifierForBTag+process.hltIter0PFlowTrackSelectionHighPurityForBTag)+process.HLT2PromptTrackRequirementIter0DisplacedJetsLowPt+process.hltDisplacedHLTCaloJetCollectionProducerLowPt+process.HLTIterativeTrackingIter12ForBTag+process.HLT2PromptTrackRequirementIter12DisplacedJetsLowPt+process.hltIter02DisplacedHLTCaloJetCollectionProducerLowPt+process.HLTIterativeTrackingIteration4DisplacedJets+process.HLTDisplacedTrackRequirementDisplacedJetsLowPt+process.HLTEndSequence)
process.HLT_HT500_DisplacedDijet40_DisplacedTrack_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT320orHTT340orHTT380+process.hltPreHT500DisplacedDijet40DisplacedTrack+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT500+process.hltEmFraction0p01To0p99CaloJetSelector+process.hltDoubleCentralCaloJetpt40+process.hltCentralCaloJetptLowPtCollectionProducer+process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets+(process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter0PFlowCkfTrackCandidatesForBTag+process.hltIter0PFlowCtfWithMaterialTracksForBTag+process.hltIter0PFlowTrackCutClassifierForBTag+process.hltIter0PFlowTrackSelectionHighPurityForBTag)+process.HLT2PromptTrackRequirementIter0DisplacedJetsLowPt+process.hltDisplacedHLTCaloJetCollectionProducerLowPt+process.HLTIterativeTrackingIter12ForBTag+process.HLT2PromptTrackRequirementIter12DisplacedJetsLowPt+process.hltIter02DisplacedHLTCaloJetCollectionProducerLowPt+process.HLTIterativeTrackingIteration4DisplacedJets+process.HLTDisplacedTrackRequirementDisplacedJetsLowPt+process.HLTEndSequence)
process.HLT_HT430_DisplacedDijet60_DisplacedTrack_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT380+process.hltPreHT430DisplacedDijet60DisplacedTrack+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT430+process.hltEmFraction0p01To0p99CaloJetSelector+process.hltDoubleCentralCaloJetpt60+process.hltCentralCaloJetptMidPtCollectionProducer+process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets+(process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter0PFlowCkfTrackCandidatesForBTag+process.hltIter0PFlowCtfWithMaterialTracksForBTag+process.hltIter0PFlowTrackCutClassifierForBTag+process.hltIter0PFlowTrackSelectionHighPurityForBTag)+process.HLT2PromptTrackRequirementIter0DisplacedJetsMidPt+process.hltDisplacedHLTCaloJetCollectionProducerMidPt+process.HLTIterativeTrackingIter12ForBTag+process.HLT2PromptTrackRequirementIter12DisplacedJetsMidPt+process.hltIter02DisplacedHLTCaloJetCollectionProducerMidPt+process.HLTIterativeTrackingIteration4DisplacedJets+process.HLTDisplacedTrackRequirementDisplacedJetsMidPt+process.HLTEndSequence)
process.HLT_HT400_DisplacedDijet40_DisplacedTrack_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT380+process.hltPreHT400DisplacedDijet40DisplacedTrack+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT400+process.hltEmFraction0p01To0p99CaloJetSelector+process.hltDoubleCentralCaloJetpt40+process.hltCentralCaloJetptLowPtCollectionProducer+process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets+(process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter0PFlowCkfTrackCandidatesForBTag+process.hltIter0PFlowCtfWithMaterialTracksForBTag+process.hltIter0PFlowTrackCutClassifierForBTag+process.hltIter0PFlowTrackSelectionHighPurityForBTag)+process.HLT2PromptTrackRequirementIter0DisplacedJetsLowPt+process.hltDisplacedHLTCaloJetCollectionProducerLowPt+process.HLTIterativeTrackingIter12ForBTag+process.HLT2PromptTrackRequirementIter12DisplacedJetsLowPt+process.hltIter02DisplacedHLTCaloJetCollectionProducerLowPt+process.HLTIterativeTrackingIteration4DisplacedJets+process.HLTDisplacedTrackRequirementDisplacedJetsLowPt+process.HLTEndSequence)
process.HLT_HT650_DisplacedDijet60_Inclusive_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT380+process.hltPreHT650DisplacedDijet60Inclusive+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT650+process.hltEmFraction0p01To0p99CaloJetSelector+process.hltDoubleCentralCaloJetpt60+process.hltCentralCaloJetptMidPtCollectionProducer+process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets+(process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter0PFlowCkfTrackCandidatesForBTag+process.hltIter0PFlowCtfWithMaterialTracksForBTag+process.hltIter0PFlowTrackCutClassifierForBTag+process.hltIter0PFlowTrackSelectionHighPurityForBTag)+process.HLT2PromptTrackRequirementIter0DisplacedJetsMidPt+process.hltDisplacedHLTCaloJetCollectionProducerMidPt+process.HLTIterativeTrackingIter12ForBTag+process.HLT2PromptTrackRequirementIter12DisplacedJetsMidPt+process.HLTEndSequence)
process.HLT_HT550_DisplacedDijet60_Inclusive_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sVoHTT380+process.hltPreHT550DisplacedDijet60Inclusive+process.hltPixelTrackerHVOn+process.hltStripTrackerHVOn+process.HLTAK4CaloJetsSequence+process.hltHtMht+process.hltHT550+process.hltEmFraction0p01To0p99CaloJetSelector+process.hltDoubleCentralCaloJetpt60+process.hltCentralCaloJetptMidPtCollectionProducer+process.HLTBTagPixelAndStripSetupForInclusiveDisplacedJets+(process.hltIter0PFLowPixelSeedsFromPixelTracksForBTag+process.hltIter0PFlowCkfTrackCandidatesForBTag+process.hltIter0PFlowCtfWithMaterialTracksForBTag+process.hltIter0PFlowTrackCutClassifierForBTag+process.hltIter0PFlowTrackSelectionHighPurityForBTag)+process.HLT2PromptTrackRequirementIter0DisplacedJetsMidPt+process.hltDisplacedHLTCaloJetCollectionProducerMidPt+process.HLTIterativeTrackingIter12ForBTag+process.HLT2PromptTrackRequirementIter12DisplacedJetsMidPt+process.HLTEndSequence)
process.HLT_DiJet110_35_Mjj650_PFMET110_v9 = cms.Path(process.HLTBeginSequence+process.hltL1DiJetVBF+process.hltPreDiJet11035Mjj650PFMET110+process.HLTRecoMETSequence+process.hltMETOpen+process.hltMET66+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETVBFProducer+process.hltPFMETVBF110+process.hltL1TPFJetsMatching+process.hltL1PFJetCategories+process.HLTEndSequence)
process.HLT_DiJet110_35_Mjj650_PFMET120_v9 = cms.Path(process.HLTBeginSequence+process.hltL1DiJetVBF+process.hltPreDiJet11035Mjj650PFMET120+process.HLTRecoMETSequence+process.hltMETOpen+process.hltMET72+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETVBFProducer+process.hltPFMETVBF120+process.hltL1TPFJetsMatching+process.hltL1PFJetCategories+process.HLTEndSequence)
process.HLT_DiJet110_35_Mjj650_PFMET130_v9 = cms.Path(process.HLTBeginSequence+process.hltL1DiJetVBF+process.hltPreDiJet11035Mjj650PFMET130+process.HLTRecoMETSequence+process.hltMETOpen+process.hltMET78+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETVBFProducer+process.hltPFMETVBF130+process.hltL1TPFJetsMatching+process.hltL1PFJetCategories+process.HLTEndSequence)
process.HLT_TripleJet110_35_35_Mjj650_PFMET110_v9 = cms.Path(process.HLTBeginSequence+process.hltL1DiJetVBF+process.hltPreTripleJet1103535Mjj650PFMET110+process.HLTRecoMETSequence+process.hltMETOpen+process.hltMET66+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETVBFProducer+process.hltPFMETVBF110+process.hltL1TPFJetsMatching+process.hlt1PFJetCategories3+process.HLTEndSequence)
process.HLT_TripleJet110_35_35_Mjj650_PFMET120_v9 = cms.Path(process.HLTBeginSequence+process.hltL1DiJetVBF+process.hltPreTripleJet1103535Mjj650PFMET120+process.HLTRecoMETSequence+process.hltMETOpen+process.hltMET72+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETVBFProducer+process.hltPFMETVBF120+process.hltL1TPFJetsMatching+process.hlt1PFJetCategories3+process.HLTEndSequence)
process.HLT_TripleJet110_35_35_Mjj650_PFMET130_v9 = cms.Path(process.HLTBeginSequence+process.hltL1DiJetVBF+process.hltPreTripleJet1103535Mjj650PFMET130+process.HLTRecoMETSequence+process.hltMETOpen+process.hltMET78+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETVBFProducer+process.hltPFMETVBF130+process.hltL1TPFJetsMatching+process.hlt1PFJetCategories3+process.HLTEndSequence)
process.HLT_Ele30_eta2p1_WPTight_Gsf_CentralPFJet35_EleCleaned_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoEG30erJetC34drMin0p3+process.hltPreEle30eta2p1WPTightGsfCentralPFJet35EleCleaned+process.HLTEle30erJetC34WPTightGsfSequence+process.HLTAK4CaloJetsSequence+process.hltDoubleCentralCaloJet10+process.HLTAK4PFJetsSequence+process.hltEle30JetCollectionsForLeptonPlusPFJets+process.hltEle30PFJet35EleCleaned+process.HLTEndSequence)
process.HLT_Ele28_eta2p1_WPTight_Gsf_HT150_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoEG28erHTT100+process.hltPreEle28eta2p1WPTightGsfHT150+process.HLTEle28erHTT100WPTightGsfSequence+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT100Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT150Jet30+process.HLTEndSequence)
process.HLT_Ele28_HighEta_SC20_Mass55_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGor+process.hltPreEle28HighEtaSC20Mass55+process.HLTEle28HighEtaSC20Mass55Sequence+process.HLTEndSequence)
process.HLT_DoubleMu20_7_Mass0to30_Photon23_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4OSEG12ORDoubleMu5OSEG12+process.hltPreDoubleMu207Mass0to30Photon23+process.hltL1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu4OSEG12ORDoubleMu5OSEG12L1Filtered0)+process.hltDoubleMu207Mass0to30Photon23L3Filtered+process.HLTPhoton23Sequence+process.HLTEndSequence)
process.HLT_Ele15_IsoVVVL_PFHT450_PFMET50_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreEle15IsoVVVLPFHT450PFMET50+cms.ignore(process.hltL1sSingleEG5ObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.HLTEle15VVVLGsfSequence+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT450Jet30+process.hltPFMETProducer+process.hltPFMET50+process.HLTEndSequence)
process.HLT_Ele15_IsoVVVL_PFHT450_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreEle15IsoVVVLPFHT450+cms.ignore(process.hltL1sSingleEG5ObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.HLTEle15VVVLGsfSequence+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT450Jet30+process.HLTEndSequence)
process.HLT_Ele50_IsoVVVL_PFHT450_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreEle50IsoVVVLPFHT450+cms.ignore(process.hltL1sSingleEG5ObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.HLTEle50VVVLGsfSequence+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT450Jet30+process.HLTEndSequence)
process.HLT_Ele15_IsoVVVL_PFHT600_v20 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreEle15IsoVVVLPFHT600+cms.ignore(process.hltL1sSingleEG5ObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.HLTEle15VVVLGsfSequence+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT600Jet30+process.HLTEndSequence)
process.HLT_Mu4_TrkIsoVVL_DiPFJet90_40_DEta3p5_MJJ750_HTT300_PFMETNoMu60_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6HTT240IorDoubleJet100and35MassMin620+process.hltPreMu4TrkIsoVVLDiPFJet9040DEta3p5MJJ750HTT300PFMETNoMu60+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenL1f0L2f3QL3Filtered4Q+process.HLTL3muontrkisovvlSequence+process.hltMuon4RelTrkIsoVVLFiltered0p4+process.HLTRecoMETSequence+process.hltMET35+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet7020MJJ500DEta3p5+process.HLTAK4PFJetsSequence+process.hltDiPFJet9040MJJ750DEta3p5+process.hltPFHTJet30Eta5+process.hltPFHT300Jet30+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu60+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_DiPFJet40_DEta3p5_MJJ750_HTT300_PFMETNoMu60_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6HTT240IorDoubleJet100and35MassMin620+process.hltPreMu8TrkIsoVVLDiPFJet40DEta3p5MJJ750HTT300PFMETNoMu60+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered8Q+process.HLTL3muontrkisovvlSequence+process.hltMuon8RelTrkIsoVVLFiltered0p4+process.HLTRecoMETSequence+process.hltMET20+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet20MJJ400DEta3p5+process.HLTAK4PFJetsSequence+process.hltDiPFJet40MJJ750DEta3p5+process.hltPFHTJet30Eta5+process.hltPFHT300Jet30+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu60+process.HLTEndSequence)
process.HLT_Mu10_TrkIsoVVL_DiPFJet40_DEta3p5_MJJ750_HTT350_PFMETNoMu60_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sMu6HTT240IorDoubleJet100and35MassMin620+process.hltPreMu10TrkIsoVVLDiPFJet40DEta3p5MJJ750HTT350PFMETNoMu60+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered10Q+process.HLTL3muontrkisovvlSequence+process.hltMuon10RelTrkIsoVVLFiltered0p4+process.HLTRecoMETSequence+process.hltMET20+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet20MJJ400DEta3p5+process.HLTAK4PFJetsSequence+process.hltDiPFJet40MJJ750DEta3p5+process.hltPFHTJet30Eta5+process.hltPFHT350Jet30Eta5+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu60+process.HLTEndSequence)
process.HLT_Mu15_IsoVVVL_PFHT450_PFMET50_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreMu15IsoVVVLPFHT450PFMET50+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered15Q+process.HLTMuVVVLCombinedIsolationR02Sequence+process.hltL3MuVVVLIsoFIlter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT450Jet30+process.hltPFMETProducer+process.hltPFMET50+process.HLTEndSequence)
process.HLT_Mu15_IsoVVVL_PFHT450_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreMu15IsoVVVLPFHT450+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered15Q+process.HLTMuVVVLCombinedIsolationR02Sequence+process.hltL3MuVVVLIsoFIlter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT450Jet30+process.HLTEndSequence)
process.HLT_Mu50_IsoVVVL_PFHT450_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreMu50IsoVVVLPFHT450+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered50Q+process.HLTMuVVVLCombinedIsolationR02Sequence+process.hltL3Mu50VVVLIsoFIlter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT450Jet30+process.HLTEndSequence)
process.HLT_Mu15_IsoVVVL_PFHT600_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreMu15IsoVVVLPFHT600+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered15Q+process.HLTMuVVVLCombinedIsolationR02Sequence+process.hltL3MuVVVLIsoFIlter+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT600Jet30+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMET70_PFMHT70_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMET70PFMHT70IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET40+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT40+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTTightID+process.hltPFMHTTightID70+process.hltPFMETProducer+process.hltPFMET70+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMET80_PFMHT80_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMET80PFMHT80IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET50+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT50+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTTightID+process.hltPFMHTTightID80+process.hltPFMETProducer+process.hltPFMET80+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMET90_PFMHT90_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMET90PFMHT90IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT60+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTTightID+process.hltPFMHTTightID90+process.hltPFMETProducer+process.hltPFMET90+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMET100_PFMHT100_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMET100PFMHT100IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET70+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT70+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTTightID+process.hltPFMHTTightID100+process.hltPFMETProducer+process.hltPFMET100+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu70_PFMHTNoMu70_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu70PFMHTNoMu70IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET40+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT40+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID70+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu70+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu80_PFMHTNoMu80_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu80PFMHTNoMu80IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET50+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT50+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID80+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu80+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu90_PFMHTNoMu90_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu90PFMHTNoMu90IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT60+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID90+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu90+process.HLTEndSequence)
process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu100_PFMHTNoMu100_IDTight_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu3er1p5Jet100er2p5ETMHF40ORETMHF50+process.hltPreMu3er1p5PFJet100er2p5PFMETNoMu100PFMHTNoMu100IDTight+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3MuFiltered3er1p5+process.HLTRecoMETSequence+process.hltMET70+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.hltMht+process.hltMHT70+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToCaloJets70+process.hltSinglePFJet100er2p5+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID100+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu100+process.HLTEndSequence)
process.HLT_Dimuon10_PsiPrime_Barrel_Seagulls_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4+process.hltPreDimuon10PsiPrimeBarrelSeagulls+process.hltL1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0)+process.hltDimuon10PsiPrimeBarrelnoCowL3Filtered+process.hltDisplacedmumuVtxProducerDimuon10PsiPrimeBarrelnoCow+process.hltDisplacedmumuFilterDimuon10PsiPrimeBarrelnoCow+process.HLTEndSequence)
process.HLT_Dimuon20_Jpsi_Barrel_Seagulls_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4+process.hltPreDimuon20JpsiBarrelSeagulls+process.hltL1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0)+process.hltDimuon20JpsiBarrelnoCowL3Filtered+process.hltDisplacedmumuVtxProducerDimuon20JpsiBarrelnoCow+process.hltDisplacedmumuFilterDimuon20JpsiBarrelnoCow+process.HLTEndSequence)
process.HLT_Dimuon12_Upsilon_y1p4_v2 = cms.Path(process.HLTBeginSequence+process.hltL1s12DoubleMu4p5er2p0SQOSMass7to18+process.hltPreDimuon12Upsilony1p4+process.hltL1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1f0L2v2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1s12DoubleMu4p5er2p0SQOSMass7to18L1v2Filtered0)+process.hltDimuon12Upsilony1p4L3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon12Upsilonsv3+process.hltDisplacedmumuFilterDimuon12Upsilonsv3+process.HLTEndSequence)
process.HLT_Dimuon14_Phi_Barrel_Seagulls_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5SQOSdRMax1p4+process.hltPreDimuon14PhiBarrelSeagulls+process.hltL1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0er1p5SQOSdRMax1p4L1Filtered0)+process.hltDimuon14PhiBarrelnoCowL3Filtered+process.hltDisplacedmumuVtxProducerDimuon14PhiBarrelnoCow+process.hltDisplacedmumuFilterDimuon14PhiBarrelnoCow+process.HLTEndSequence)
process.HLT_Dimuon18_PsiPrime_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4SQOSdRMax1p2DoubleMu0er1p5SQOSdRMax1p4+process.hltPreDimuon18PsiPrime+process.hltL1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1sDoubleMu4SQOSdRMax1p2L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0)+process.hltDimuon18PsiPrimeL3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon18PsiPrimes+process.hltDisplacedmumuFilterDimuon18PsiPrimes+process.HLTEndSequence)
process.HLT_Dimuon25_Jpsi_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4SQOSdRMax1p2DoubleMu0er1p5SQOSdRMax1p4+process.hltPreDimuon25Jpsi+process.hltL1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1sDoubleMu4SQOSdRMax1p2L1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1sDoubleMu4SQOSdRMax1p2L1Filtered0)+process.hltDimuon25JpsiL3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon25Jpsis+process.hltDisplacedmumuFilterDimuon25Jpsis+process.HLTEndSequence)
process.HLT_Dimuon18_PsiPrime_noCorrL1_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu9SQ+process.hltPreDimuon18PsiPrimenoCorrL1+process.hltL1fL1sL1sDoubleMu9SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0)+process.hltDimuon18PsiPrimeNoCorrL1L3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon18PsiPrimesNoCorrL1+process.hltDisplacedmumuFilterDimuon18PsiPrimesNoCorrL1+process.HLTEndSequence)
process.HLT_Dimuon24_Upsilon_noCorrL1_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu9SQ+process.hltPreDimuon24UpsilonnoCorrL1+process.hltL1fL1sL1sDoubleMu9SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0)+process.hltDimuon24UpsilonNoCorrL1L3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon24UpsilonsNoCorrL1+process.hltDisplacedmumuFilterDimuon24UpsilonsNoCorrL1+process.HLTEndSequence)
process.HLT_Dimuon24_Phi_noCorrL1_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu9SQ+process.hltPreDimuon24PhinoCorrL1+process.hltL1fL1sL1sDoubleMu9SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0)+process.hltDimuon24PhiNoCorrL1L3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon24PhiNoCorrL1+process.hltDisplacedmumuFilterDimuon24PhiBarrelNoCorrL1+process.HLTEndSequence)
process.HLT_Dimuon25_Jpsi_noCorrL1_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu9SQ+process.hltPreDimuon25JpsinoCorrL1+process.hltL1fL1sL1sDoubleMu9SQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1sDoubleMu9SQL1f0L2PreFiltered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1sDoubleMu9SQL1Filtered0)+process.hltDimuon25JpsiNoCorrL1L3fL3Filtered+process.hltDisplacedmumuVtxProducerDimuon25JpsisNoCorrL1+process.hltDisplacedmumuFilterDimuon25JpsisNoCorrL1+process.HLTEndSequence)
process.HLT_DiMu4_Ele9_CaloIdL_TrackIdL_DZ_Mass3p8_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu4EG9+process.hltPreDiMu4Ele9CaloIdLTrackIdLDZMass3p8+process.HLTDiMu4Ele9CaloIdLTrackIdLMuonlegSequence+process.hltDoubleMu4DZFilter+process.hltEle9DoubleMu4Mass3p8Filtered+process.HLTDiMu4Ele9CaloIdLTrackIdLElectronlegSequence+process.hltMu4Ele9DZFilter+process.HLTEndSequence)
process.HLT_DiMu9_Ele9_CaloIdL_TrackIdL_DZ_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu7EG7+process.hltPreDiMu9Ele9CaloIdLTrackIdLDZ+process.HLTDiMu9Ele9CaloIdLTrackIdLMuonlegSequence+process.HLTDiMu9Ele9CaloIdLTrackIdLElectronlegSequence+process.hltMu9Ele9DZFilter+process.hltDoubleMu9DZFilter+process.HLTEndSequence)
process.HLT_DiMu9_Ele9_CaloIdL_TrackIdL_v17 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu7EG7+process.hltPreDiMu9Ele9CaloIdLTrackIdL+process.HLTDiMu9Ele9CaloIdLTrackIdLMuonlegSequence+process.HLTDiMu9Ele9CaloIdLTrackIdLElectronlegSequence+process.HLTEndSequence)
process.HLT_DoubleIsoMu20_eta2p1_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu18er+process.hltPreDoubleIsoMu20eta2p1+process.hltL1fL1sDoubleMu18erL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu18erL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu18erL1Filtered0)+process.hltL3fL1sDoubleMu18erL1f0L2f10QL3Filtered20Q+process.HLTDoubleMu20Eta2p1IsolationSequence+process.hltL3crIsoL1sDoubleMu18erL1f0L2f10QL3f20QL3trkIsoFiltered0p07+process.HLTEndSequence)
process.HLT_TrkMu12_DoubleTrkMu5NoFiltersNoVtx_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreTrkMu12DoubleTrkMu5NoFiltersNoVtx+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx)+cms.ignore(process.hltL2fL1sDoubleMu155ORTripleMu444L1f0L2Filtered10OneMuNoVtx)+process.HLTL3muonrecoSequenceNoVtx+process.hltL3pfL1sDoubleMu155ORTripleMu444L1f0L2pf0TwoMuL3PreFiltered5NoVtx+process.hltL3fL1sDoubleMu155ORTripleMu444L1f0L2f10OneMuL3Filtered12NoVtx+process.HLTTrackerMuonSequenceNoVtx+process.hltTripleTrkMuFiltered5NoVtx+process.hltSingleTrkMuFiltered12NoVtx+process.HLTEndSequence)
process.HLT_TrkMu16_DoubleTrkMu6NoFiltersNoVtx_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreTrkMu16DoubleTrkMu6NoFiltersNoVtx+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx)+cms.ignore(process.hltL2fL1sDoubleMu155ORTripleMu444L1f0L2Filtered10OneMuNoVtx)+process.HLTL3muonrecoSequenceNoVtx+process.hltL3pfL1sDoubleMu155ORTripleMu444L1f0L2pf0TwoMuL3PreFiltered6NoVtx+process.hltL3fL1sDoubleMu155ORTripleMu444L1f0L2f10OneMuL3Filtered16NoVtx+process.HLTTrackerMuonSequenceNoVtx+process.hltTripleTrkMuFiltered6NoVtx+process.hltSingleTrkMuFiltered16NoVtx+process.HLTEndSequence)
process.HLT_TrkMu17_DoubleTrkMu8NoFiltersNoVtx_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157ORTripleMu444+process.hltPreTrkMu17DoubleTrkMu8NoFiltersNoVtx+process.hltL1fL1sDoubleMu155ORTripleMu444L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2pfL1sDoubleMu155ORTripleMu444L1f0L2PreFiltered0NoVtx)+cms.ignore(process.hltL2fL1sDoubleMu155ORTripleMu444L1f0L2Filtered10OneMuNoVtx)+process.HLTL3muonrecoSequenceNoVtx+process.hltL3pfL1sDoubleMu155ORTripleMu444L1f0L2pf0TwoMuL3PreFiltered8NoVtx+process.hltL3fL1sDoubleMu155ORTripleMu444L1f0L2f10OneMuL3Filtered17NoVtx+process.HLTTrackerMuonSequenceNoVtx+process.hltTripleTrkMuFiltered8NoVtx+process.hltSingleTrkMuFiltered17NoVtx+process.HLTEndSequence)
process.HLT_Mu8_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu3IorSingleMu5IorSingleMu7+process.hltPreMu8+process.hltL1fL1sMu3or5or7L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu5L1f0L2Filtered5)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu5L1Filtered0)+process.hltL3fL1sMu5L1f0L2f5L3Filtered8+process.HLTEndSequence)
process.HLT_Mu17_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu15DQ+process.hltPreMu17+process.hltL1fL1sMu15DQlqL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu15DQlqL1f0L2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0)+process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered17+process.HLTEndSequence)
process.HLT_Mu19_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu15DQ+process.hltPreMu19+process.hltL1fL1sMu15DQlqL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu15DQlqL1f0L2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu15DQlqL1Filtered0)+process.hltL3fL1sMu15DQlqL1f0L2f10L3Filtered19+process.HLTEndSequence)
process.HLT_Mu17_Photon30_IsoCaloId_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu17Photon30IsoCaloId+process.hltMu17Photon30IsoCaloIdMuonlegL1Filtered7+process.HLTL2muonrecoSequence+cms.ignore(process.hltMu17Photon30IsoCaloIdMuonlegL2Filtered10)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3Mu17Photon30IsoCaloIdMuonlegL1Filtered7)+process.hltMu17Photon30IsoCaloIdMuonlegL3Filtered17Q+process.HLTDoFullUnpackingEgammaEcalSequence+process.HLTPFClusteringForEgamma+process.hltEgammaCandidates+process.hltMu17Photon30IsoCaloIdPhotonlegFilter+process.hltMu17Photon30IsoCaloIdPhotonlegEtFilter+process.hltEgammaClusterShape+process.hltMu17Photon30IsoCaloIdPhotonlegClusterShapeFilter+process.HLTDoLocalHcalSequence+process.HLTFastJetForEgamma+process.hltEgammaHoverE+process.hltMu17Photon30IsoCaloIdPhotonlegHEFilter+process.hltEgammaEcalPFClusterIso+process.hltMu17Photon30IsoCaloIdPhotonlegEcalIsoFilter+process.HLTTrackReconstructionForIsoForPhotons+process.hltEgammaHollowTrackIso+process.hltMu17Photon30IsoCaloIdPhotonlegTrackIsoFilter+process.HLTEndSequence)
process.HLT_Ele8_CaloIdL_TrackIdL_IsoVL_PFJet30_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10IorSingleEG5+process.hltPreEle8CaloIdLTrackIdLIsoVLPFJet30+process.HLTEle8CaloIdLTrackIdLIsoVLSequence+process.HLTAK4PFJetsSequence+process.hltEle8JetCollectionsForLeptonPlusPFJets+process.hltEle8PFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele12_CaloIdL_TrackIdL_IsoVL_PFJet30_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10IorSingleEG15+process.hltPreEle12CaloIdLTrackIdLIsoVLPFJet30+process.HLTEle12CaloIdLTrackIdLIsoVLSequence+process.HLTAK4PFJetsSequence+process.hltEle12JetCollectionsForLeptonPlusPFJets+process.hltEle12PFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele15_CaloIdL_TrackIdL_IsoVL_PFJet30_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10OR15er2p5+process.hltPreEle15CaloIdLTrackIdLIsoVLPFJet30+process.HLTEle15CaloIdLTrackIdLIsoVLJet30Sequence+process.HLTAK4PFJetsSequence+process.hltEle15JetCollectionsForLeptonPlusPFJets+process.hltEle15PFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele23_CaloIdL_TrackIdL_IsoVL_PFJet30_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG15er2p5+process.hltPreEle23CaloIdLTrackIdLIsoVLPFJet30+process.HLTEle23CaloIdLTrackIdLIsoVLJet30Sequence+process.HLTAK4PFJetsSequence+process.hltEle23JetCollectionsForLeptonPlusPFJets+process.hltEle23PFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele8_CaloIdM_TrackIdM_PFJet30_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10IorSingleEG5+process.hltPreEle8CaloIdMTrackIdMPFJet30+process.HLTEle8CaloIdMGsfTrkIdMSequence+process.HLTAK4PFJetsSequence+process.hltGsfEle8NoIsoJetCollectionsForLeptonPlusPFJets+process.hltEle8NoIsoPFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele17_CaloIdM_TrackIdM_PFJet30_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG15er2p5+process.hltPreEle17CaloIdMTrackIdMPFJet30+process.HLTEle17CaloIdMGsfTrkIdMSequence+process.HLTAK4PFJetsSequence+process.hltGsfEle17NoIsoJetCollectionsForLeptonPlusPFJets+process.hltEle17NoIsoPFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele23_CaloIdM_TrackIdM_PFJet30_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG15er2p5+process.hltPreEle23CaloIdMTrackIdMPFJet30+process.HLTEle23CaloIdMGsfTrkIdMSequence+process.HLTAK4PFJetsSequence+process.hltGsfEle23NoIsoJetCollectionsForLeptonPlusPFJets+process.hltEle23NoIsoPFJet30EleCleaned+process.HLTEndSequence)
process.HLT_Ele50_CaloIdVT_GsfTrkIdT_PFJet165_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPreEle50CaloIdVTGsfTrkIdTPFJet165+process.HLTEle50CaloIdVTGsfTrkIdTGsfSequence+process.HLTAK4PFJetsSequence+process.hltPFJetsCorrectedMatchedToL1+process.hltMonoPFJet165+process.hltEle50CaloIdVTGsfTrkIdTCleanAK4PFJet+process.hltEle50CaloIdVTGsfTrkIdTCentralPFJet165EleCleaned+process.HLTEndSequence)
process.HLT_Ele115_CaloIdVT_GsfTrkIdT_v14 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPreEle115CaloIdVTGsfTrkIdT+process.HLTEle115CaloIdVTGsfTrkIdTGsfSequence+process.HLTEndSequence)
process.HLT_Ele135_CaloIdVT_GsfTrkIdT_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPreEle135CaloIdVTGsfTrkIdT+process.HLTEle135CaloIdVTGsfTrkIdTGsfSequence+process.HLTEndSequence)
process.HLT_Ele145_CaloIdVT_GsfTrkIdT_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPreEle145CaloIdVTGsfTrkIdT+process.HLTEle145CaloIdVTGsfTrkIdTGsfSequence+process.HLTEndSequence)
process.HLT_Ele200_CaloIdVT_GsfTrkIdT_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPreEle200CaloIdVTGsfTrkIdT+process.HLTEle200CaloIdVTGsfTrkIdTGsfSequence+process.HLTEndSequence)
process.HLT_Ele250_CaloIdVT_GsfTrkIdT_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPreEle250CaloIdVTGsfTrkIdT+process.HLTEle250CaloIdVTGsfTrkIdTGsfSequence+process.HLTEndSequence)
process.HLT_Ele300_CaloIdVT_GsfTrkIdT_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTau+process.hltPreEle300CaloIdVTGsfTrkIdT+process.HLTEle300CaloIdVTGsfTrkIdTGsfSequence+process.HLTEndSequence)
process.HLT_PFHT330PT30_QuadPFJet_75_60_45_40_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet+process.hltPrePFHT330PT30QuadPFJet75604540+process.HLTAK4CaloJetsSequence+process.hltQuadCentralJet30+process.hltCaloJetsQuad30ForHt+process.hltHtMhtCaloJetsQuadC30+process.hltCaloQuadJet30HT320+process.HLTAK4PFJetsSequence+process.hltPFCentralJetLooseIDQuad30+process.hlt1PFCentralJetLooseID75+process.hlt2PFCentralJetLooseID60+process.hlt3PFCentralJetLooseID45+process.hlt4PFCentralJetLooseID40+process.hltPFCentralJetLooseIDQuad30forHt+process.hltHtMhtPFCentralJetsLooseIDQuadC30+process.hltPFCentralJetsLooseIDQuad30HT330+process.HLTEndSequence)
process.HLT_PFHT400_SixPFJet32_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT400SixPFJet32+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterSixC25+process.hltCaloJetsSix25ForHt+process.hltHtMhtCaloJetsSixC25+process.hltCaloSixJet25HT300+process.HLTAK4PFJetsSequence+process.hltPFJetFilterSix30er2p5+process.hltPFJetFilterSix32er2p5+process.hltPFJetsSix30ForHt+process.hltHtMhtPFJetsSix30er2p5+process.hltPFSixJet30HT400+process.HLTEndSequence)
process.HLT_PFHT450_SixPFJet36_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT450SixPFJet36+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterSixC30+process.hltCaloJetsSix30ForHt+process.hltHtMhtCaloJetsSixC30+process.hltCaloSixJet30HT350+process.HLTAK4PFJetsSequence+process.hltPFJetFilterSix30er2p5+process.hltPFJetFilterSix36er2p5+process.hltPFJetsSix30ForHt+process.hltHtMhtPFJetsSix30er2p5+process.hltPFSixJet30HT450+process.HLTEndSequence)
process.HLT_PFHT400_FivePFJet_100_100_60_30_30_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJetTripleJet+process.hltPrePFHT400FivePFJet100100603030+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterFiveC25+process.hltCaloJetsFive25ForHt+process.hltHtMhtCaloJetsFiveC25+process.hltCaloFiveJet25HT300+process.HLTAK4PFJetsSequence+process.hltPFJetFilterTwo100er3p0+process.hltPFJetFilterThree60er3p0+process.hltPFJetFilterFive30er3p0+process.hltPFJetsFive30ForHt+process.hltHtMhtPFJetsFive30er3p0+process.hltPFFiveJet30HT400+process.HLTEndSequence)
process.HLT_PFHT350_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT350+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT300Jet30+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT350Jet30+process.HLTEndSequence)
process.HLT_PFHT350MinPFJet15_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTauNoPS+process.hltPrePFHT350MinPFJet15+process.HLTPFHT350MinPFJet15Sequence+process.HLTEndSequence)
process.HLT_Photon60_R9Id90_CaloIdL_IsoL_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTauNoPS+process.hltPrePhoton60R9Id90CaloIdLIsoL+process.HLTPhoton60R9Id90CaloIdLIsoLSequence+process.HLTEndSequence)
process.HLT_Photon60_R9Id90_CaloIdL_IsoL_DisplacedIdL_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTauNoPS+process.hltPrePhoton60R9Id90CaloIdLIsoLDisplacedIdL+process.HLTPhoton60R9Id90CaloIdLIsoLDisplacedIdLSequence+process.HLTEndSequence)
process.HLT_Photon60_R9Id90_CaloIdL_IsoL_DisplacedIdL_PFHT350MinPFJet15_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEGNonIsoOrWithJetAndTauNoPS+process.hltPrePhoton60R9Id90CaloIdLIsoLDisplacedIdLPFHT350MinPFJet15+process.HLTPhoton60R9Id90CaloIdLIsoLDisplacedIdLSequence+process.HLTPFHT350MinPFJet15Sequence+process.HLTEndSequence)
process.HLT_ECALHT800_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sEG40To45IorJet170To200IorHTT300To500IorETM70ToETM150+process.hltPreECALHT800+process.HLTDoFullUnpackingEgammaEcalWithoutPreshowerSequence+process.hltTowerMakerEcal+process.hltHtMhtEcal+process.hltHtEcal800+process.HLTEndSequence)
process.HLT_DiSC30_18_EIso_AND_HE_Mass70_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGWithJetAndTau+process.hltPreDiSC3018EIsoANDHEMass70+process.HLTSC3018EIso15HE30eMass70Sequence+process.HLTEndSequence)
process.HLT_Physics_v7 = cms.Path(process.HLTBeginSequenceL1Fat+process.hltPrePhysics+process.HLTEndSequence)
process.HLT_Physics_part0_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart0+process.HLTEndSequence)
process.HLT_Physics_part1_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart1+process.HLTEndSequence)
process.HLT_Physics_part2_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart2+process.HLTEndSequence)
process.HLT_Physics_part3_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart3+process.HLTEndSequence)
process.HLT_Physics_part4_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart4+process.HLTEndSequence)
process.HLT_Physics_part5_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart5+process.HLTEndSequence)
process.HLT_Physics_part6_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart6+process.HLTEndSequence)
process.HLT_Physics_part7_v7 = cms.Path(process.HLTBeginSequence+process.hltPrePhysicspart7+process.HLTEndSequence)
process.DST_Physics_v7 = cms.Path(process.HLTBeginSequence+process.hltPreDSTPhysics+process.HLTEndSequence)
process.HLT_Random_v3 = cms.Path(process.HLTBeginSequenceRandom+process.hltPreRandom+process.HLTEndSequence)
process.HLT_ZeroBias_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBias+process.HLTEndSequence)
process.HLT_ZeroBias_Alignment_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiasAlignment+process.HLTEndSequence)
process.HLT_ZeroBias_part0_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart0+process.HLTEndSequence)
process.HLT_ZeroBias_part1_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart1+process.HLTEndSequence)
process.HLT_ZeroBias_part2_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart2+process.HLTEndSequence)
process.HLT_ZeroBias_part3_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart3+process.HLTEndSequence)
process.HLT_ZeroBias_part4_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart4+process.HLTEndSequence)
process.HLT_ZeroBias_part5_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart5+process.HLTEndSequence)
process.HLT_ZeroBias_part6_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart6+process.HLTEndSequence)
process.HLT_ZeroBias_part7_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreZeroBiaspart7+process.HLTEndSequence)
process.DST_ZeroBias_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreDSTZeroBias+process.HLTEndSequence)
process.DST_Run3_PFScoutingPixelTracking_v16 = cms.Path(process.HLTBeginSequence+process.hltL1sDSTRun3PFScoutingPixelTracking+process.hltPreDSTRun3PFScoutingPixelTracking+process.HLTAK4CaloJetsSequence+process.HLTPixelOnlyPFScoutingSequence+process.hltEgammaR9ID+process.HLTL2muonrecoSequenceNoVtx+process.HLTL3muonrecoSequenceNoVtx+process.hltDisplacedmumuVtxNoMatchingProducer+process.HLTMuIsolationSequenceNoVtx+process.HLTEndSequence)
process.HLT_AK4CaloJet30_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK4CaloJet30+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet30+process.HLTEndSequence)
process.HLT_AK4CaloJet40_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK4CaloJet40+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet40+process.HLTEndSequence)
process.HLT_AK4CaloJet50_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK4CaloJet50+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet50+process.HLTEndSequence)
process.HLT_AK4CaloJet80_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35+process.hltPreAK4CaloJet80+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet80+process.HLTEndSequence)
process.HLT_AK4CaloJet100_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPreAK4CaloJet100+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet100+process.HLTEndSequence)
process.HLT_AK4CaloJet120_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPreAK4CaloJet120+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet120+process.HLTEndSequence)
process.HLT_AK4PFJet30_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK4PFJet30+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet15+process.HLTAK4PFJetsSequence+process.hltAK4PFJetsCorrectedMatchedToCaloJets15+process.hltSingleAK4PFJet30+process.HLTEndSequence)
process.HLT_AK4PFJet50_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAK4PFJet50+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet30+process.HLTAK4PFJetsSequence+process.hltAK4PFJetsCorrectedMatchedToCaloJets30+process.hltSingleAK4PFJet50+process.HLTEndSequence)
process.HLT_AK4PFJet80_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet35+process.hltPreAK4PFJet80+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet50+process.HLTAK4PFJetsSequence+process.hltAK4PFJetsCorrectedMatchedToCaloJets50+process.hltSingleAK4PFJet80+process.HLTEndSequence)
process.HLT_AK4PFJet100_v19 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPreAK4PFJet100+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.HLTAK4PFJetsSequence+process.hltAK4PFJetsCorrectedMatchedToCaloJets70+process.hltSingleAK4PFJet100+process.HLTEndSequence)
process.HLT_AK4PFJet120_v18 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet60+process.hltPreAK4PFJet120+process.HLTAK4CaloJetsSequence+process.hltSingleAK4CaloJet70+process.HLTAK4PFJetsSequence+process.hltAK4PFJetsCorrectedMatchedToCaloJets70+process.hltSingleAK4PFJet120+process.HLTEndSequence)
process.HLT_SinglePhoton10_Eta3p1ForPPRef_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreSinglePhoton10Eta3p1ForPPRef+process.HLTDoCaloSequence+process.HLTDoHIEcalClusWithCleaningSequence+process.hltHIPhoton10Eta3p1+process.HLTEndSequence)
process.HLT_SinglePhoton20_Eta3p1ForPPRef_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10er2p5+process.hltPreSinglePhoton20Eta3p1ForPPRef+process.HLTDoCaloSequence+process.HLTDoHIEcalClusWithCleaningSequence+process.hltHIPhoton20Eta3p1+process.HLTEndSequence)
process.HLT_SinglePhoton30_Eta3p1ForPPRef_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10er2p5+process.hltPreSinglePhoton30Eta3p1ForPPRef+process.HLTDoCaloSequence+process.HLTDoHIEcalClusWithCleaningSequence+process.hltHIPhoton30Eta3p1+process.HLTEndSequence)
process.HLT_Photon20_HoverELoose_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10er2p5+process.hltPrePhoton20HoverELoose+process.HLTPhoton20SequenceLooseHOverE+process.HLTEndSequence)
process.HLT_Photon30_HoverELoose_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG10er2p5+process.hltPrePhoton30HoverELoose+process.HLTPhoton30SequenceLooseHOverE+process.HLTEndSequence)
process.HLT_EcalCalibration_v4 = cms.Path(process.HLTBeginSequenceCalibration+process.hltPreEcalCalibration+process.hltEcalCalibrationRaw+process.HLTEndSequence)
process.HLT_HcalCalibration_v5 = cms.Path(process.HLTBeginSequenceCalibration+process.hltPreHcalCalibration+process.hltHcalCalibTypeFilter+process.hltHcalCalibrationRaw+process.HLTEndSequence)
process.AlCa_EcalPhiSym_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBiasIorAlwaysTrueIorIsolatedBunch+process.hltPreAlCaEcalPhiSym+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltEcalPhiSymFilter+process.HLTEndSequence)
process.HLT_L1UnpairedBunchBptxMinus_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sL1UnpairedBunchBptxMinus+process.hltPreL1UnpairedBunchBptxMinus+process.HLTEndSequence)
process.HLT_L1UnpairedBunchBptxPlus_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sL1UnpairedBunchBptxPlus+process.hltPreL1UnpairedBunchBptxPlus+process.HLTEndSequence)
process.HLT_L1NotBptxOR_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sNotBptxOR+process.hltPreL1NotBptxOR+process.HLTEndSequence)
process.HLT_L1_CDC_SingleMu_3_er1p2_TOP120_DPHI2p618_3p142_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sL1CDCSingleMu3er1p2TOP120DPHI2p618to3p142+process.hltPreL1CDCSingleMu3er1p2TOP120DPHI2p6183p142+process.HLTEndSequence)
process.HLT_CDC_L2cosmic_10_er1p0_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sCDC+process.hltPreCDCL2cosmic10er1p0+process.hltL1fL1sCDCL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sCDCL2CosmicMuL2Filtered3er2stations10er1p0+process.HLTEndSequence)
process.HLT_CDC_L2cosmic_5p5_er1p0_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sCDC+process.hltPreCDCL2cosmic5p5er1p0+process.hltL1fL1sCDCL1Filtered0+process.HLTL2muonrecoSequenceNoVtxCosmicSeedMeanTimer+process.hltL2fL1sCDCL2CosmicMuL2Filtered3er2stations5p5er1p0+process.HLTEndSequence)
process.HLT_HcalNZS_v13 = cms.Path(process.HLTBeginSequenceNZS+process.hltL1sHcalNZS+process.hltPreHcalNZS+process.HLTEndSequence)
process.HLT_HcalPhiSym_v15 = cms.Path(process.HLTBeginSequenceNZS+process.hltL1sSingleEGorSingleorDoubleMu+process.hltPreHcalPhiSym+process.HLTEndSequence)
process.HLT_HcalIsolatedbunch_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sIsolatedBunch+process.hltL1sSingleJetOR+process.hltPreHcalIsolatedbunch+process.HLTEndSequence)
process.HLT_IsoTrackHB_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sV0SingleJet3OR+process.hltPreIsoTrackHB+process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.hltPixelTracksQuadruplets+process.hltIsolPixelTrackProdHB+process.hltIsolPixelTrackL2FilterHB+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltIsolEcalPixelTrackProdHB+process.hltEcalIsolPixelTrackL2FilterHB+process.HLTDoLocalStripSequence+process.hltIter0PFLowPixelSeedsFromPixelTracks+process.hltIter0PFlowCkfTrackCandidates+process.hltIter0PFlowCtfWithMaterialTracks+process.hltHcalITIPTCorrectorHB+process.hltIsolPixelTrackL3FilterHB+process.HLTEndSequence)
process.HLT_IsoTrackHE_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sV0SingleJet3OR+process.hltPreIsoTrackHE+process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.hltPixelTracksQuadruplets+process.hltIsolPixelTrackProdHE+process.hltIsolPixelTrackL2FilterHE+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltIsolEcalPixelTrackProdHE+process.hltEcalIsolPixelTrackL2FilterHE+process.HLTDoLocalStripSequence+process.hltIter0PFLowPixelSeedsFromPixelTracks+process.hltIter0PFlowCkfTrackCandidates+process.hltIter0PFlowCtfWithMaterialTracks+process.hltHcalITIPTCorrectorHE+process.hltIsolPixelTrackL3FilterHE+process.HLTEndSequence)
process.HLT_ZeroBias_FirstCollisionAfterAbortGap_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sL1ZeroBiasFirstCollisionAfterAbortGap+process.hltPreZeroBiasFirstCollisionAfterAbortGap+process.HLTEndSequence)
process.HLT_ZeroBias_IsolatedBunches_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sIsolatedBunch+process.hltPreZeroBiasIsolatedBunches+process.HLTEndSequence)
process.HLT_ZeroBias_FirstCollisionInTrain_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sL1ZeroBiasFirstCollisionInTrainNOTFirstCollisionInOrbit+process.hltPreZeroBiasFirstCollisionInTrain+process.HLTEndSequence)
process.HLT_ZeroBias_LastCollisionInTrain_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sL1ZeroBiasLastBunchInTrain+process.hltPreZeroBiasLastCollisionInTrain+process.HLTEndSequence)
process.HLT_ZeroBias_FirstBXAfterTrain_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sL1ZeroBiasFirstBunchAfterTrain+process.hltPreZeroBiasFirstBXAfterTrain+process.HLTEndSequence)
process.AlCa_RPCMuonNormalisation_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu5IorSingleMu14erIorSingleMu16er+process.hltPreAlCaRPCMuonNormalisation+process.hltRPCMuonNormaL1Filtered0+process.HLTMuonLocalRecoSequence+process.HLTEndSequence)
process.AlCa_LumiPixelsCounts_Random_v2 = cms.Path(process.HLTBeginSequenceRandom+process.hltPreAlCaLumiPixelsCountsRandom+process.hltScalersRawToDigi+process.hltOnlineMetaDataDigis+process.hltPixelTrackerHVOn+process.HLTDoLocalPixelSequence+process.hltAlcaPixelClusterCounts+process.HLTEndSequence)
process.AlCa_LumiPixelsCounts_ZeroBias_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPreAlCaLumiPixelsCountsZeroBias+process.hltPixelTrackerHVOn+process.HLTDoLocalPixelSequence+process.hltAlcaPixelClusterCounts+process.HLTEndSequence)
process.MC_PFMET_v17 = cms.Path(process.HLTBeginSequence+process.hltPreMCPFMET+process.HLTAK4PFJetsSequence+process.hltPFMETProducer+process.hltPFMETOpenFilter+process.HLTEndSequence)
process.MC_AK4PFJets_v17 = cms.Path(process.HLTBeginSequence+process.hltPreMCAK4PFJets+process.HLTAK4PFJetsSequence+process.hltAK4PFJetCollection20Filter+process.HLTEndSequence)
process.MC_PFHT_v16 = cms.Path(process.HLTBeginSequence+process.hltPreMCPFHT+process.HLTAK4PFJetsSequence+process.hltPFHTForMC+process.hltPFHTOpenFilter+process.HLTEndSequence)
process.MC_PFMHT_v16 = cms.Path(process.HLTBeginSequence+process.hltPreMCPFMHT+process.HLTAK4PFJetsSequence+process.hltPFHTForMC+process.hltPFMHTOpenFilter+process.HLTEndSequence)
process.MC_CaloMET_v8 = cms.Path(process.HLTBeginSequence+process.hltPreMCCaloMET+process.HLTDoCaloSequence+process.hltMet+process.hltMETOpen+process.HLTEndSequence)
process.MC_CaloMET_JetIdCleaned_v9 = cms.Path(process.HLTBeginSequence+process.hltPreMCCaloMETJetIdCleaned+process.HLTDoCaloSequence+process.hltMet+process.HLTAK4CaloJetsSequence+process.hltMetCleanUsingJetID+process.hltMETCleanUsingJetIDOpenFilter+process.HLTEndSequence)
process.MC_AK4CaloJets_v9 = cms.Path(process.HLTBeginSequence+process.hltPreMCAK4CaloJets+process.HLTAK4CaloJetsSequence+process.hltCaloJetCollection20Filter+process.HLTEndSequence)
process.MC_CaloHT_v8 = cms.Path(process.HLTBeginSequence+process.hltPreMCCaloHT+process.HLTAK4CaloJetsSequence+process.hltHtMhtForMC+process.hltCaloHTOpenFilter+process.HLTEndSequence)
process.MC_CaloMHT_v8 = cms.Path(process.HLTBeginSequence+process.hltPreMCCaloMHT+process.HLTAK4CaloJetsSequence+process.hltHtMhtForMC+process.hltMhtFilter+process.HLTEndSequence)
process.MC_AK8PFJets_v17 = cms.Path(process.HLTBeginSequence+process.hltPreMCAK8PFJets+process.HLTAK8PFJetsSequence+process.hltAK8PFJetCollection20Filter+process.HLTEndSequence)
process.MC_AK8TrimPFJets_v17 = cms.Path(process.HLTBeginSequence+process.hltPreMCAK8TrimPFJets+process.HLTAK8PFJetsSequence+process.hltAK8TrimModJets+process.hltAK8TrimPFJetCollection20Filter+process.HLTEndSequence)
process.MC_AK8PFHT_v16 = cms.Path(process.HLTBeginSequence+process.hltPreMCAK8PFHT+process.HLTAK8PFJetsSequence+process.hltAK8PFHTForMC+process.hltAK8PFHTOpenFilter+process.HLTEndSequence)
process.MC_AK8CaloHT_v8 = cms.Path(process.HLTBeginSequence+process.hltPreMCAK8CaloHT+process.HLTAK8CaloJetsSequence+process.hltAK8HtMhtForMC+process.hltAK8CaloHTOpenFilter+process.HLTEndSequence)
process.MC_Diphoton10_10_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass10_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG5+process.hltPreMCDiphoton1010R9IdORIsoCaloIdANDHER9IdMass10+process.HLTDiphoton1010R9Id85b90eORIso60CaloId15b35eANDHE10R9Id50b80eMass10Sequence+process.HLTEndSequence)
process.MC_DoubleEle5_CaloIdL_MW_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG5WithJetAndTau+process.hltPreMCDoubleEle5CaloIdLMW+process.HLTEle5CaloIdLMWSequence+process.HLTDoubleEle5CaloIdLMWSequence+process.HLTEndSequence)
process.MC_Ele5_WPTight_Gsf_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG5+process.hltPreMCEle5WPTightGsf+process.HLTEle5WPTightGsfSequence+process.HLTEndSequence)
process.MC_Ele15_Ele10_CaloIdL_TrackIdL_IsoVL_DZ_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG5+process.hltPreMCEle15Ele10CaloIdLTrackIdLIsoVLDZ+process.HLTEle15Ele10CaloIdLTrackIdLIsoVLSequence+process.hltEle15Ele10CaloIdLTrackIdLIsoVLDZFilter+process.HLTEndSequence)
process.MC_IsoMu_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu3IorSingleMu5IorSingleMu7+process.hltPreMCIsoMu+process.hltL1fL1sMu3or5or7L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu5L1L2SingleMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu5L1Filtered0)+process.hltL3fL1sMu5L1L2L3SingleMu+process.HLTMuIsolationSequenceForMC+process.hltL3crIsoL1sMu16L1L2L3TrkIsoFiltered0p07SingleMu+process.HLTEndSequence)
process.MC_DoubleMu_TrkIsoVVL_DZ_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0+process.hltPreMCDoubleMuTrkIsoVVLDZ+process.hltL1fL1sDoubleMu0HighQL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu0L1f0L2doubleMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0HighQL1Filtered0)+process.hltL3pfL1sDoubleMu0L1f0L2pf0L3doubleMu+process.HLTL3muontrkisovvlSequence+process.hltDiMuonRelTrkIsoFiltered0p4+process.hltDiMuonRelTrkIsoFiltered0p4DzFiltered0p2+process.HLTEndSequence)
process.MC_DoubleMuNoFiltersNoVtx_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0+process.hltPreMCDoubleMuNoFiltersNoVtx+process.hltL1fL1sDoubleMu0HighQL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fDimuonL1f0L2NoVtx)+process.HLTL3NoFiltersNoVtxmuonrecoSequence+process.hltL3fDimuonL1f0L2NVL3NoFiltersNoVtx+process.HLTEndSequence)
process.AlCa_EcalPi0EBonly_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sAlCaEcalPi0Eta+process.hltPreAlCaEcalPi0EBonly+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltSimple3x3Clusters+process.hltAlCaPi0RecHitsFilterEBonlyRegional+process.hltAlCaPi0EBUncalibrator+process.hltAlCaPi0EBRechitsToDigis+process.HLTEndSequence)
process.AlCa_EcalPi0EEonly_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sAlCaEcalPi0Eta+process.hltPreAlCaEcalPi0EEonly+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltSimple3x3Clusters+process.hltAlCaPi0RecHitsFilterEEonlyRegional+process.hltAlCaPi0EEUncalibrator+process.hltAlCaPi0EERechitsToDigis+process.HLTEndSequence)
process.AlCa_EcalEtaEBonly_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sAlCaEcalPi0Eta+process.hltPreAlCaEcalEtaEBonly+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltSimple3x3Clusters+process.hltAlCaEtaRecHitsFilterEBonlyRegional+process.hltAlCaEtaEBUncalibrator+process.hltAlCaEtaEBRechitsToDigis+process.HLTEndSequence)
process.AlCa_EcalEtaEEonly_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sAlCaEcalPi0Eta+process.hltPreAlCaEcalEtaEEonly+process.HLTDoFullUnpackingEgammaEcalSequence+process.hltSimple3x3Clusters+process.hltAlCaEtaRecHitsFilterEEonlyRegional+process.hltAlCaEtaEEUncalibrator+process.hltAlCaEtaEERechitsToDigis+process.HLTEndSequence)
process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sMu22erIsoTau40er+process.hltPreIsoMu24eta2p1MediumChargedIsoPFTau50Trk30eta2p11pr+process.hltL1fL1sMu22erIsoTau40erL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22erIsoTau40erL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22erIsoTau40erL1Filtered0)+process.hltL3fL1sMu22erIsoTau40erL1f0L2f10QL3Filtered24Q+process.HLTMu24Eta2p1IsoTau40Eta2p1IsolationSequence+process.hltL3crIsoL1sMu22erIsoTau40erL1f0L2f10QL3f24QL3trkIsoFiltered0p07+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatchMu22IsoTau40+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatchedMu22IsoTau40+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET90_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoTau40erETMHF90To120+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET90+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTRecoMETSequence+process.hltMET90+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET100_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoTau40erETMHF90To120+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET100+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTRecoMETSequence+process.hltMET100+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET110_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoTau40erETMHF90To120+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET110+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTRecoMETSequence+process.hltMET110+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET120_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoTau40erETMHF90To120+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET120+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTRecoMETSequence+process.hltMET120+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET130_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoTau40erETMHF90To120+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET130+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTRecoMETSequence+process.hltMET130+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET140_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sIsoTau40erETMHF90To120+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11prMET140+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTRecoMETSequence+process.hltMET140+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatch+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sQuadJet36IsoTau52+process.hltPreMediumChargedIsoPFTau50Trk30eta2p11pr+process.HLTL2TauJetsSequence+process.hltSingleL2Tau35eta2p2+process.HLTGlobalPFTauConeSequence+process.HLTMediumChargedIsoPFTau50Trk30OnePrSequence+process.hltL1JetsHLTPFTau50Track30MediumChargedIsolationMatchQuadJetIsoTau+process.hltSelectedPFTau50MediumChargedIsolationL1HLTMatchedQuadIsoTau+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau180HighPtRelaxedIso_Trk50_eta2p1_1pr_v11 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleTau+process.hltPreMediumChargedIsoPFTau180HighPtRelaxedIsoTrk50eta2p11pr+process.HLTL2TauJetsSequence+process.hltSingleL2Tau80eta2p2+process.HLTGlobalPFTauConeSequence+process.hltPFTau180Track+process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50OnePr+process.hltPFTau180TrackPt50LooseAbsOrRelMediumHighPtRelaxedIso1Prong+process.hltL1JetsHLTPFTauTrackMediumChargedIsolationMatch1Prong+process.hltSelectedPFTau180MediumChargedIsolationL1HLTMatched1Prong+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau180HighPtRelaxedIso_Trk50_eta2p1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleTau+process.hltPreMediumChargedIsoPFTau180HighPtRelaxedIsoTrk50eta2p1+process.HLTL2TauJetsSequence+process.hltSingleL2Tau80eta2p2+process.HLTGlobalPFTauConeSequence+process.hltPFTau180Track+process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50+process.hltPFTau180TrackPt50LooseAbsOrRelMediumHighPtRelaxedIsoIso+process.hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch+process.hltSelectedPFTau180MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau200HighPtRelaxedIso_Trk50_eta2p1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleTau+process.hltPreMediumChargedIsoPFTau200HighPtRelaxedIsoTrk50eta2p1+process.HLTL2TauJetsSequence+process.hltSingleL2Tau80eta2p2+process.HLTGlobalPFTauConeSequence+process.hltPFTau200Track+process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50+process.hltPFTau200TrackPt50LooseAbsOrRelMediumHighPtRelaxedIsoIso+process.hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch+process.hltSelectedPFTau200MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_MediumChargedIsoPFTau220HighPtRelaxedIso_Trk50_eta2p1_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleTau+process.hltPreMediumChargedIsoPFTau220HighPtRelaxedIsoTrk50eta2p1+process.HLTL2TauJetsSequence+process.hltSingleL2Tau80eta2p2+process.HLTGlobalPFTauConeSequence+process.hltPFTau220Track+process.HLTMediumChargedIsoPFTauHighPtRelaxedIsoTrk50+process.hltPFTau220TrackPt50LooseAbsOrRelMediumHighPtRelaxedIsoIso+process.hltL1JetsHLTSinglePFTauTrackMediumChargedIsolationMatch+process.hltSelectedPFTau220MediumChargedIsolationL1HLTMatched+process.HLTEndSequence)
process.HLT_Ele16_Ele12_Ele8_CaloIdL_TrackIdL_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleEG14108IorTripleEG18178+process.hltPreEle16Ele12Ele8CaloIdLTrackIdL+process.HLTEle16Ele12Ele8CaloIdLTrackIdLSequence+process.HLTEndSequence)
process.HLT_Rsq0p35_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sRsqSeeds+process.hltPreRsq0p35+process.HLTAK4CaloJetsSequence+process.hlt1CaloJet70+process.hlt2CaloJet60+process.HLTRecoMETSequence+process.hltRHemisphereCalo+process.hltRsq0p16Calo+process.HLTAK4PFJetsSequence+process.hlt2PFJet80+process.hltPFMETProducer+process.hltRHemisphere+process.hltRsq0p35+process.HLTEndSequence)
process.HLT_Rsq0p40_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sRsqSeeds+process.hltPreRsq0p40+process.HLTAK4CaloJetsSequence+process.hlt1CaloJet70+process.hlt2CaloJet60+process.HLTRecoMETSequence+process.hltRHemisphereCalo+process.hltRsq0p16Calo+process.HLTAK4PFJetsSequence+process.hlt2PFJet80+process.hltPFMETProducer+process.hltRHemisphere+process.hltRsq0p40+process.HLTEndSequence)
process.HLT_RsqMR300_Rsq0p09_MR200_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sRsqSeeds+process.hltPreRsqMR300Rsq0p09MR200+process.HLTAK4CaloJetsSequence+process.hlt1CaloJet70+process.hlt2CaloJet60+process.HLTRecoMETSequence+process.hltRHemisphereCalo+process.hltRsqMR220Rsq0p0196MR100Calo+process.HLTAK4PFJetsSequence+process.hlt2PFJet80+process.hltPFMETProducer+process.hltRHemisphere+process.hltRsqMR300Rsq0p09MR200+process.HLTEndSequence)
process.HLT_RsqMR320_Rsq0p09_MR200_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sRsqSeeds+process.hltPreRsqMR320Rsq0p09MR200+process.HLTAK4CaloJetsSequence+process.hlt1CaloJet70+process.hlt2CaloJet60+process.HLTRecoMETSequence+process.hltRHemisphereCalo+process.hltRsqMR220Rsq0p0196MR100Calo+process.HLTAK4PFJetsSequence+process.hlt2PFJet80+process.hltPFMETProducer+process.hltRHemisphere+process.hltRsqMR320Rsq0p09MR200+process.HLTEndSequence)
process.HLT_RsqMR300_Rsq0p09_MR200_4jet_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sRsqSeeds+process.hltPreRsqMR300Rsq0p09MR2004jet+process.HLTAK4CaloJetsSequence+process.hlt2CaloJet40+process.hlt4CaloJet30+process.HLTRecoMETSequence+process.hltRHemisphereCalo+process.hltRsqMR220Rsq0p0196MR100Calo+process.HLTAK4PFJetsSequence+process.hlt2PFJet50+process.hlt4PFJet40+process.hltPFMETProducer+process.hltRHemisphere+process.hltRsqMR300Rsq0p09MR200+process.HLTEndSequence)
process.HLT_RsqMR320_Rsq0p09_MR200_4jet_v15 = cms.Path(process.HLTBeginSequence+process.hltL1sRsqSeeds+process.hltPreRsqMR320Rsq0p09MR2004jet+process.HLTAK4CaloJetsSequence+process.hlt2CaloJet40+process.hlt4CaloJet30+process.HLTRecoMETSequence+process.hltRHemisphereCalo+process.hltRsqMR220Rsq0p0196MR100Calo+process.HLTAK4PFJetsSequence+process.hlt2PFJet50+process.hlt4PFJet40+process.hltPFMETProducer+process.hltRHemisphere+process.hltRsqMR320Rsq0p09MR200+process.HLTEndSequence)
process.HLT_IsoMu27_MET90_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu22or25+process.hltPreIsoMu27MET90+process.hltL1fL1sMu22or25L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22or25L1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22or25L1Filtered0)+process.hltL3fL1sMu22Or25L1f0L2f10QL3Filtered27Q+process.HLTMu27IsolationSequence+process.hltL3crIsoL1sMu22Or25L1f0L2f10QL3f27QL3trkIsoFiltered0p07+process.HLTRecoMETSequence+process.hltMET90+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTau35_Trk1_eta2p1_Reg_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleMediumChargedIsoPFTau35Trk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTDoublePFTauPt35Eta2p1Trk1Reg+process.HLTMediumChargedIsoPFTauSequenceReg+process.hltSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltDoublePFTau35TrackPt1MediumChargedIsolationReg+process.hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg+process.hltDoublePFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltDoublePFTau35TrackPt1MediumChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleMediumChargedIsoPFTau35Trk1TightIDeta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTDoublePFTauPt35Eta2p1Trk1Reg+process.HLTMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsDz02Reg+process.HLTEndSequence)
process.HLT_DoubleTightChargedIsoPFTau35_Trk1_eta2p1_Reg_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleTightChargedIsoPFTau35Trk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTDoublePFTauPt35Eta2p1Trk1Reg+process.HLTTightChargedIsoPFTauSequenceReg+process.hltSelectedPFTausTrackPt1TightChargedIsolationReg+process.hltDoublePFTau35TrackPt1TightChargedIsolationReg+process.hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg+process.hltDoublePFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg+process.hltDoublePFTau35TrackPt1TightChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleTightChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleTightChargedIsoPFTau35Trk1TightIDeta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauConeSequence+process.HLTDoublePFTauPt35Eta2p1Trk1Reg+process.HLTTightChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsDz02Reg+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTauHPS30_L1MaxMass_Trk1_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauMaxMass+process.hltPreDoubleMediumChargedIsoPFTauHPS30L1MaxMassTrk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt30Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltHpsDoublePFTau30TrackPt1MediumChargedIsolationReg+process.hltHpsL1JetsHLTDoublePFTau30TrackPt1MediumChargedIsolationMatchReg+process.hltHpsDoublePFTau30TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltHpsDoublePFTau30TrackPt1MediumChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleTightChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleTightChargedIsoPFTauHPS35Trk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt35Eta2p1Trk1Reg+process.HLTHPSTightChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg+process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg+process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationL1HLTMatchedReg+process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleMediumChargedIsoPFTauHPS35Trk1TightIDeta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt35Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationAndTightOOSCPhotonsDz02Reg+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleMediumChargedIsoPFTauHPS35Trk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt35Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg+process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltHpsDoublePFTau35TrackPt1MediumChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleTightChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleTightChargedIsoPFTauHPS35Trk1TightIDeta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt35Eta2p1Trk1Reg+process.HLTHPSTightChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltHpsDoublePFTau35TrackPt1TightChargedIsolationAndTightOOSCPhotonsDz02Reg+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTauHPS40_Trk1_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleMediumChargedIsoPFTauHPS40Trk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt40Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationReg+process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationMatchReg+process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationL1HLTMatchedReg+process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleTightChargedIsoPFTauHPS40_Trk1_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleTightChargedIsoPFTauHPS40Trk1eta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt40Eta2p1Trk1Reg+process.HLTHPSTightChargedIsoPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationReg+process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationMatchReg+process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationL1HLTMatchedReg+process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationDz02Reg+process.HLTEndSequence)
process.HLT_DoubleMediumChargedIsoPFTauHPS40_Trk1_TightID_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleMediumChargedIsoPFTauHPS40Trk1TightIDeta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt40Eta2p1Trk1Reg+process.HLTHPSMediumChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1MediumChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltHpsDoublePFTau40TrackPt1MediumChargedIsolationAndTightOOSCPhotonsDz02Reg+process.HLTEndSequence)
process.HLT_DoubleTightChargedIsoPFTauHPS40_Trk1_TightID_eta2p1_Reg_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleTauBigOR+process.hltPreDoubleTightChargedIsoPFTauHPS40Trk1TightIDeta2p1Reg+process.HLTL2TauJetsL1TauSeededSequence+process.hltDoubleL2Tau26eta2p2+process.HLTL2p5IsoTauL1TauSeededSequence+process.hltDoubleL2IsoTau26eta2p2+process.HLTRegionalPFTauHPSSequence+process.HLTHPSDoublePFTauPt40Eta2p1Trk1Reg+process.HLTHPSTightChargedIsoTightOOSCPhotonsPFTauSequenceReg+process.hltHpsSelectedPFTausTrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationAndTightOOSCPhotonsReg+process.hltHpsL1JetsHLTDoublePFTauTrackPt1TightChargedIsolationAndTightOOSCPhotonsMatchReg+process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationAndTightOOSCPhotonsL1HLTMatchedReg+process.hltHpsDoublePFTau40TrackPt1TightChargedIsolationAndTightOOSCPhotonsDz02Reg+process.HLTEndSequence)
process.HLT_VBF_DoubleLooseChargedIsoPFTau20_Trk1_eta2p1_v3 = cms.Path(process.HLTBeginSequence+process.hltL1VBFDiJetOR+process.hltPreVBFDoubleLooseChargedIsoPFTau20Trk1eta2p1+process.HLTL2TauJetsSequence+process.hltDoubleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltDoubleL2IsoTau20eta2p2+process.HLTGlobalPFTauConeSequence+process.HLTDoubleLooseChargedIsoAntiMuonPFTau20Sequence+process.HLTAK4PFJetsSequence+process.hltVBFL1TLooseIDPFJetsMatching+process.hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTau20OverlapRemoval+process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleLooseChargedIsoPFTau20+process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleLooseChargedIsoPFTau20+process.HLTEndSequence)
process.HLT_VBF_DoubleLooseChargedIsoPFTauHPS20_Trk1_eta2p1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1VBFDiJetOR+process.hltPreVBFDoubleLooseChargedIsoPFTauHPS20Trk1eta2p1+process.HLTL2TauJetsSequence+process.hltDoubleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltDoubleL2IsoTau20eta2p2+process.HLTGlobalPFTauHPSSequence+process.HLTHPSDoubleLooseChargedIsoAntiMuonPFTau20Sequence+process.HLTAK4PFJetsSequence+process.hltVBFL1TLooseIDPFJetsMatching+process.hltMatchedVBFTwoPFJetsDoubleLooseChargedIsoPFTauHPS20OverlapRemoval+process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleLooseChargedIsoPFTauHPS20+process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleLooseChargedIsoPFTauHPS20+process.HLTEndSequence)
process.HLT_VBF_DoubleMediumChargedIsoPFTauHPS20_Trk1_eta2p1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1VBFDiJetOR+process.hltPreVBFDoubleMediumChargedIsoPFTauHPS20Trk1eta2p1+process.HLTL2TauJetsSequence+process.hltDoubleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltDoubleL2IsoTau20eta2p2+process.HLTGlobalPFTauHPSSequence+process.HLTHPSDoubleMediumChargedIsoAntiMuonPFTau20Sequence+process.HLTAK4PFJetsSequence+process.hltVBFL1TLooseIDPFJetsMatching+process.hltMatchedVBFTwoPFJetsDoubleMediumChargedIsoPFTauHPS20OverlapRemoval+process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleMediumChargedIsoPFTauHPS20+process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleMediumChargedIsoPFTauHPS20+process.HLTEndSequence)
process.HLT_VBF_DoubleTightChargedIsoPFTauHPS20_Trk1_eta2p1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1VBFDiJetOR+process.hltPreVBFDoubleTightChargedIsoPFTauHPS20Trk1eta2p1+process.HLTL2TauJetsSequence+process.hltDoubleL2Tau20eta2p2+process.HLTL2p5IsoTauSequence+process.hltDoubleL2IsoTau20eta2p2+process.HLTGlobalPFTauHPSSequence+process.HLTHPSDoubleTightChargedIsoAntiMuonPFTau20Sequence+process.HLTAK4PFJetsSequence+process.hltVBFL1TLooseIDPFJetsMatching+process.hltMatchedVBFTwoPFJetsDoubleTightChargedIsoPFTauHPS20OverlapRemoval+process.hltMatchedVBFTwoPFJets2CrossCleanedFromDoubleTightChargedIsoPFTauHPS20+process.hltMatchedVBFOnePFJet2CrossCleanedFromDoubleTightChargedIsoPFTauHPS20+process.HLTEndSequence)
process.HLT_Photon50_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ300DEta3_PFMET50_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton50R9Id90HE10IsoMEBOnlyPFJetsMJJ300DEta3PFMET50+process.HLTPhoton50R9Id90HE10IsoMEBOnlySequence+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet30MJJ300AllJetsDEta3Filter+process.HLTAK4PFJetsSequence+process.hltDiPFJet30MJJ300AllJetsDEta3Filter+process.hltPFMETProducer+process.hltPFMET50+process.HLTEndSequence)
process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ300DEta3_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton75R9Id90HE10IsoMEBOnlyPFJetsMJJ300DEta3+process.HLTPhoton75R9Id90HE10IsoMEBOnlySequence+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet30MJJ300AllJetsDEta3Filter+process.HLTAK4PFJetsSequence+process.hltDiPFJet30MJJ300AllJetsDEta3Filter+process.HLTEndSequence)
process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ600DEta3_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleEG40to50+process.hltPrePhoton75R9Id90HE10IsoMEBOnlyPFJetsMJJ600DEta3+process.HLTPhoton75R9Id90HE10IsoMEBOnlySequence+process.HLTAK4CaloJetsSequence+process.hltDiCaloJet30MJJ600AllJetsDEta3Filter+process.HLTAK4PFJetsSequence+process.hltDiPFJet30MJJ600AllJetsDEta3Filter+process.HLTEndSequence)
process.HLT_PFMET100_PFMHT100_IDTight_PFHT60_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFHTT60Seeds+process.hltPrePFMET100PFMHT100IDTightPFHT60+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT60+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT60Jet30+process.hltPFMHTTightID+process.hltPFMHTTightID100+process.hltPFMETProducer+process.hltPFMET100+process.HLTEndSequence)
process.HLT_PFMETNoMu100_PFMHTNoMu100_IDTight_PFHT60_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFHTT60Seeds+process.hltPrePFMETNoMu100PFMHTNoMu100IDTightPFHT60+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT60+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT60Jet30+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID100+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu100+process.HLTEndSequence)
process.HLT_PFMETTypeOne100_PFMHT100_IDTight_PFHT60_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFHTT60Seeds+process.hltPrePFMETTypeOne100PFMHT100IDTightPFHT60+process.HLTRecoMETSequence+process.hltMET60+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT60+process.HLTAK4PFJetsSequence+process.hltPFHTJet30+process.hltPFHT60Jet30+process.hltPFMHTTightID+process.hltPFMHTTightID100+process.hltPFMETProducer+process.hltcorrPFMETTypeOne+process.hltPFMETTypeOne+process.hltPFMETTypeOne100+process.HLTEndSequence)
process.HLT_Mu18_Mu9_SameSign_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu18Mu9SameSign+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered9+process.hltL3fL1DoubleMu157fFiltered18+process.hltDiMuon189SameSignFiltered+process.HLTEndSequence)
process.HLT_Mu18_Mu9_SameSign_DZ_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu18Mu9SameSignDZ+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered9+process.hltL3fL1DoubleMu157fFiltered18+process.hltDiMuon189SameSignFiltered+process.hltDiMuon189SameSignDzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu18_Mu9_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu18Mu9+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered9+process.hltL3fL1DoubleMu157fFiltered18+process.HLTEndSequence)
process.HLT_Mu18_Mu9_DZ_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu18Mu9DZ+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered9+process.hltL3fL1DoubleMu157fFiltered18+process.hltDiMuon189DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu20_Mu10_SameSign_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu20Mu10SameSign+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered10+process.hltL3fL1DoubleMu157fFiltered20+process.hltDiMuon2010SameSignFiltered+process.HLTEndSequence)
process.HLT_Mu20_Mu10_SameSign_DZ_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu20Mu10SameSignDZ+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered10+process.hltL3fL1DoubleMu157fFiltered20+process.hltDiMuon2010SameSignFiltered+process.hltDiMuon2010SameSignDzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu20_Mu10_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu20Mu10+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered10+process.hltL3fL1DoubleMu157fFiltered20+process.HLTEndSequence)
process.HLT_Mu20_Mu10_DZ_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu20Mu10DZ+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered10+process.hltL3fL1DoubleMu157fFiltered20+process.hltDiMuon2010DzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu23_Mu12_SameSign_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu23Mu12SameSign+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered12+process.hltL3fL1DoubleMu157fFiltered23+process.hltDiMuon2312SameSignFiltered+process.HLTEndSequence)
process.HLT_Mu23_Mu12_SameSign_DZ_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu23Mu12SameSignDZ+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered12+process.hltL3fL1DoubleMu157fFiltered23+process.hltDiMuon2312SameSignFiltered+process.hltDiMuon2312SameSignDzFiltered0p2+process.HLTEndSequence)
process.HLT_Mu23_Mu12_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu23Mu12+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered12+process.hltL3fL1DoubleMu157fFiltered23+process.HLTEndSequence)
process.HLT_Mu23_Mu12_DZ_v4 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu125to157+process.hltPreMu23Mu12DZ+process.hltL1fL1sDoubleMu157L1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2pfL1sDoubleMu157L1f0L2PreFiltered0)+cms.ignore(process.hltL2fL1sDoubleMu157L1f0L2Filtered10OneMu)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu157L1Filtered0)+process.hltL3fL1DoubleMu157fFiltered12+process.hltL3fL1DoubleMu157fFiltered23+process.hltDiMuon2312DzFiltered0p2+process.HLTEndSequence)
process.HLT_DoubleMu2_Jpsi_DoubleTrk1_Phi1p05_v6 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu2JpsiDoubleTrk1Phi1p05+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu2JpsiDoubleTrkL3Filtered+process.hltDoubleTrkmumuVtxProducerDoubleMu2Jpsi+process.hltDoubleTrkmumuFilterDoubleMu2Jpsi+process.HLTIterativeTrackingDoubleJpsiIter02+process.hltJpsiTkAllConeTracksIterDoubleTrk+process.hltJpsiTrkTrkVertexProducerPhiDoubleTrk1v4+process.hltJpsiTkTkVertexFilterPhiDoubleTrk1v4+process.HLTEndSequence)
process.HLT_DoubleMu2_Jpsi_DoubleTkMu0_Phi_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0er1p5OSIorDoubleMu0er1p4OSIorDoubleMu4OSIorDoubleMu4p5OS+process.hltPreDoubleMu2JpsiDoubleTkMu0Phi+process.hltL1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sDoubleMu0er15OSIorDoubleMu0er14OSIorDoubleMu4OSIorDoubleMu4p5OSL1Filtered0)+process.hltDoubleMu2JpsiL3Filtered+process.hltMumuVtxProducerDoubleMu2Jpsi+process.hltMumuFilterDoubleMu2Jpsi+process.HLTTrackerMuonSequenceLowPtIter0and1+process.hltDiMuonGlbOrTrkFiltered0v2+process.hltDiMuonGlbOrTrk0zFiltered0p2v2+process.HLTEndSequence)
process.HLT_DoubleMu3_DCA_PFMET50_PFMHT60_v10 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0ETM40IorDoubleMu0ETM55IorDoubleMu0ETM60IorDoubleMu0ETM65IorDoubleMu0ETM70+process.hltPreDoubleMu3DCAPFMET50PFMHT60+process.hltL1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sL1DoubleMu0ETM40lorDoubleMu0ETM55)+process.hltL3fL1DiMu3SQETM50noDrf0PreFiltered3+process.hltDoubleMuon3Mass3p8to60noDrDCAFilter+process.HLTRecoMETSequence+process.hltMET40+process.HLTAK4PFJetsSequence+process.hltParticleFlowNoMu+process.hltPFMETNoMuProducer+process.hltPFMETNoMu50+process.hltPFMHTNoMuTightID+process.hltPFMHTNoMuTightID60+process.HLTEndSequence)
process.HLT_TripleMu_5_3_3_Mass3p8_DCA_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleMu0IorTripleMu553+process.hltPreTripleMu533Mass3p8DCA+process.hltL1TripleMu553L1TriMuFiltered3+process.HLTL2muonrecoSequence+cms.ignore(process.hltL1TripleMu553L2TriMuFiltered3)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1TripleMu553L1TriMuFiltered3)+process.hltL3fL1TripleMu553f0PreFiltered333+process.hltL3fL1TripleMu553f0Filtered533+process.hltTripleMu533Mass3p8DCAFilter+process.HLTEndSequence)
process.HLT_QuadPFJet98_83_71_15_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet927664VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet98837115+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.HLTFastPrimaryVertexSequence+process.HLTAK4PFJetsSequence+process.hltPFQuadJetLooseID15+process.hltPFTripleJetLooseID71+process.hltPFDoubleJetLooseID83+process.hltPFSingleJetLooseID98+process.HLTEndSequence)
process.HLT_QuadPFJet103_88_75_15_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJetVBFIorHTTIorSingleJet+process.hltPreQuadPFJet103887515+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.HLTFastPrimaryVertexSequence+process.HLTAK4PFJetsSequence+process.hltPFQuadJetLooseID15+process.hltPFTripleJetLooseID75+process.hltPFDoubleJetLooseID88+process.hltPFSingleJetLooseID103+process.HLTBtagDeepCSVSequencePF+process.HLTEndSequence)
process.HLT_QuadPFJet105_88_76_15_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1008572VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet105887615+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.HLTFastPrimaryVertexSequence+process.HLTAK4PFJetsSequence+process.hltPFQuadJetLooseID15+process.hltPFTripleJetLooseID76+process.hltPFDoubleJetLooseID88+process.hltPFSingleJetLooseID105+process.HLTEndSequence)
process.HLT_QuadPFJet111_90_80_15_v5 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1058576VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet111908015+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.HLTFastPrimaryVertexSequence+process.HLTAK4PFJetsSequence+process.hltPFQuadJetLooseID15+process.hltPFTripleJetLooseID80+process.hltPFDoubleJetLooseID90+process.hltPFSingleJetLooseID111+process.HLTEndSequence)
process.HLT_AK8PFJet330_TrimMass30_PFAK8BTagDeepCSV_p17_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet330TrimMass30PFAK8BTagDeepCSVp17+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet300+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets300+process.hltSinglePFJet330AK8+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTBtagDeepCSVSequencePFAK8+process.hltBTagAK8PFDeepCSV16p1Single+process.HLTEndSequence)
process.HLT_AK8PFJet330_TrimMass30_PFAK8BTagDeepCSV_p1_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet330TrimMass30PFAK8BTagDeepCSVp1+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet300+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets300+process.hltSinglePFJet330AK8+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTBtagDeepCSVSequencePFAK8+process.hltBTagAK8PFDeepCSV10p3Single+process.HLTEndSequence)
process.HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_p02_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet330TrimMass30PFAK8BoostedDoubleBp02+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet300+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets300+process.hltSinglePFJet330AK8+process.hltAK8TrimModJets+process.hltAK8TrimModJetsCorrectedMatchedToCaloJets300ForDB+process.hltSinglePFJet330AK8ForDB+process.HLTBtagBoostedDoubleSecondaryVertexSequencePFAK8+process.hltBTagPFBoostedDoubleSecondaryVertexpZSingle+process.HLTEndSequence)
process.HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_np2_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet330TrimMass30PFAK8BoostedDoubleBnp2+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet300+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets300+process.hltSinglePFJet330AK8+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTBtagBoostedDoubleSecondaryVertexSequencePFAK8+process.hltBTagPFBoostedDoubleSecondaryVertexnp02Single+process.HLTEndSequence)
process.HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_np4_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet170IorSingleJet180IorSingleJet200+process.hltPreAK8PFJet330TrimMass30PFAK8BoostedDoubleBnp4+process.HLTAK8CaloJetsSequence+process.hltAK8SingleCaloJet300+process.HLTAK8PFJetsSequence+process.hltAK8PFJetsCorrectedMatchedToCaloJets300+process.hltSinglePFJet330AK8+process.hltAK8TrimModJets+process.hltAK8SinglePFJetTrimModMass30+process.HLTBtagBoostedDoubleSecondaryVertexSequencePFAK8+process.hltBTagPFBoostedDoubleSecondaryVertexnp4Single+process.HLTEndSequence)
process.HLT_Diphoton30_18_R9IdL_AND_HE_AND_IsoCaloId_NoPixelVeto_Mass55_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiphoton3018R9IdLANDHEANDIsoCaloIdNoPixelVetoMass55+process.HLTDiphoton3018R9Idb50e90ANDIso60CaloId15b35eANDHE12b10eMass55NoPixelVetoSequence+process.HLTEndSequence)
process.HLT_Diphoton30_18_R9IdL_AND_HE_AND_IsoCaloId_NoPixelVeto_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleAndDoubleEGor+process.hltPreDiphoton3018R9IdLANDHEANDIsoCaloIdNoPixelVeto+process.HLTDiphoton3018R9Idb50e90ANDIso60CaloId15b35eANDHE12b10eNoPixelVetoSequence+process.HLTEndSequence)
process.HLT_Mu12_IP6_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu12IP6ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q+process.HLTEndSequence)
process.HLT_Mu12_IP6_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu12IP6part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q+process.HLTEndSequence)
process.HLT_Mu12_IP6_part1_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu12IP6part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q+process.HLTEndSequence)
process.HLT_Mu12_IP6_part2_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu12IP6part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q+process.HLTEndSequence)
process.HLT_Mu12_IP6_part3_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu12IP6part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q+process.HLTEndSequence)
process.HLT_Mu12_IP6_part4_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu12IP6part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered12Q+process.HLTEndSequence)
process.HLT_Mu9_IP5_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP5ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q+process.HLTEndSequence)
process.HLT_Mu9_IP5_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP5part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q+process.HLTEndSequence)
process.HLT_Mu9_IP5_part1_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP5part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q+process.HLTEndSequence)
process.HLT_Mu9_IP5_part2_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP5part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q+process.HLTEndSequence)
process.HLT_Mu9_IP5_part3_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP5part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q+process.HLTEndSequence)
process.HLT_Mu9_IP5_part4_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP5part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP5Q+process.HLTEndSequence)
process.HLT_Mu7_IP4_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu7IP4ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q+process.HLTEndSequence)
process.HLT_Mu7_IP4_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu7IP4part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q+process.HLTEndSequence)
process.HLT_Mu7_IP4_part1_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu7IP4part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q+process.HLTEndSequence)
process.HLT_Mu7_IP4_part2_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu7IP4part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q+process.HLTEndSequence)
process.HLT_Mu7_IP4_part3_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu7IP4part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q+process.HLTEndSequence)
process.HLT_Mu7_IP4_part4_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu7IP4part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered7IP4Q+process.HLTEndSequence)
process.HLT_Mu9_IP4_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP4ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q+process.HLTEndSequence)
process.HLT_Mu9_IP4_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP4part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q+process.HLTEndSequence)
process.HLT_Mu9_IP4_part1_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP4part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q+process.HLTEndSequence)
process.HLT_Mu9_IP4_part2_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP4part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q+process.HLTEndSequence)
process.HLT_Mu9_IP4_part3_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP4part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q+process.HLTEndSequence)
process.HLT_Mu9_IP4_part4_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP4part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP4Q+process.HLTEndSequence)
process.HLT_Mu8_IP5_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP5ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q+process.HLTEndSequence)
process.HLT_Mu8_IP5_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP5part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q+process.HLTEndSequence)
process.HLT_Mu8_IP5_part1_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP5part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q+process.HLTEndSequence)
process.HLT_Mu8_IP5_part2_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP5part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q+process.HLTEndSequence)
process.HLT_Mu8_IP5_part3_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP5part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q+process.HLTEndSequence)
process.HLT_Mu8_IP5_part4_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP5part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP5Q+process.HLTEndSequence)
process.HLT_Mu8_IP6_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP6ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q+process.HLTEndSequence)
process.HLT_Mu8_IP6_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP6part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q+process.HLTEndSequence)
process.HLT_Mu8_IP6_part1_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP6part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q+process.HLTEndSequence)
process.HLT_Mu8_IP6_part2_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP6part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q+process.HLTEndSequence)
process.HLT_Mu8_IP6_part3_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP6part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q+process.HLTEndSequence)
process.HLT_Mu8_IP6_part4_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP6part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8IP6Q+process.HLTEndSequence)
process.HLT_Mu9_IP6_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP6ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q+process.HLTEndSequence)
process.HLT_Mu9_IP6_part0_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP6part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q+process.HLTEndSequence)
process.HLT_Mu9_IP6_part1_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP6part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q+process.HLTEndSequence)
process.HLT_Mu9_IP6_part2_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP6part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q+process.HLTEndSequence)
process.HLT_Mu9_IP6_part3_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP6part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q+process.HLTEndSequence)
process.HLT_Mu9_IP6_part4_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP6part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9Q+process.HLTEndSequence)
process.HLT_Mu8_IP3_ToCSCS_v1 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP3ToCSCS+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q+process.HLTEndSequence)
process.HLT_Mu8_IP3_part0_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP3part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q+process.HLTEndSequence)
process.HLT_Mu8_IP3_part1_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP3part1+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q+process.HLTEndSequence)
process.HLT_Mu8_IP3_part2_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP3part2+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q+process.HLTEndSequence)
process.HLT_Mu8_IP3_part3_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP3part3+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q+process.HLTEndSequence)
process.HLT_Mu8_IP3_part4_v3 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu8IP3part4+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered8Q+process.HLTEndSequence)
process.HLT_Mu9_IP0_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP0part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP0Q+process.HLTEndSequence)
process.HLT_Mu9_IP3_part0_v2 = cms.Path(process.HLTBeginSequenceParking+process.hltL1sSingleMu22orParking+process.hltPreMu9IP3part0+process.hltL1fL1sMu22orParkingL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu22orParkL1f0L2Filtered10Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu22orParkL1Filtered0)+process.hltL3fL1sMu22OrParkL1f0L2f10QL3Filtered9IP3Q+process.HLTEndSequence)
process.HLT_TrkMu6NoFiltersNoVtx_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu3+process.hltPreTrkMu6NoFiltersNoVtx+process.hltL1fL1sSingleMu3L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fL1sSingleMu3L1f0L2Filtered10OneMuNoVtx)+process.HLTL3muonrecoSequenceNoVtx+process.hltL3fL1sSingleMu3L1f0L2f10OneMuL3Filtered6NoVtx+process.HLTTrackerMuonSequenceNoVtx+process.hltSingleTrkMuFiltered6NoVtx+process.HLTEndSequence)
process.HLT_TrkMu16NoFiltersNoVtx_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleMu7+process.hltPreTrkMu16NoFiltersNoVtx+process.hltL1fL1sSingleMu7L1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2fL1sSingleMu7L1f0L2Filtered10OneMuNoVtx)+process.HLTL3muonrecoSequenceNoVtx+process.hltL3fL1sSingleMu7L1f0L2f10OneMuL3Filtered16NoVtx+process.HLTTrackerMuonSequenceNoVtx+process.hltSingleTrkMuFiltered16NoVtx+process.HLTEndSequence)
process.HLT_DoubleTrkMu_16_6_NoFiltersNoVtx_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0SQ+process.hltPreDoubleTrkMu166NoFiltersNoVtx+process.hltL1fL1sDoubleMu0SQL1Filtered0+process.HLTL2muonrecoSequenceNoVtx+cms.ignore(process.hltL2pfL1sDoubleMu0SQL1f0L2PreFiltered0NoVtx)+cms.ignore(process.hltL2fL1sDoubleMu0SQL1f0L2Filtered10OneMuNoVtx)+process.HLTL3muonrecoSequenceNoVtx+process.hltL3pfL1sDoubleMu0SQL1f0L2pf0OneMuL3PreFiltered6NoVtx+process.hltL3fL1sDoubleMu0SQL1f0L2f10OneMuL3Filtered16NoVtx+process.HLTTrackerMuonSequenceNoVtx+process.hltDoubleTrkMuFiltered6NoVtx+process.hltSingleTrkMuFiltered16NoVtx+process.HLTEndSequence)
process.HLT_PPSMaxTracksPerArm1_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePPSMaxTracksPerArm1+process.HLTPPSPixelRecoSequence+process.hltPPSExpCalFilter+process.hltPPSExpCalibrationRaw+process.HLTEndSequence)
process.HLT_PPSMaxTracksPerRP4_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sZeroBias+process.hltPrePPSMaxTracksPerRP4+process.HLTPPSPixelRecoSequence+process.hltPPSPrCalFilter+process.hltPPSPrCalibrationRaw+process.HLTEndSequence)
process.HLTriggerFinalPath = cms.Path(process.hltGtStage2Digis+process.hltScalersRawToDigi+process.hltFEDSelector+process.hltTriggerSummaryAOD+process.hltTriggerSummaryRAW+process.hltBoolFalse)
process.Status_OnCPU = cms.Path(process.statusOnGPU+~process.statusOnGPUFilter)
process.Status_OnGPU = cms.Path(process.statusOnGPU+process.statusOnGPUFilter)
process.MC_ReducedIterativeTracking_v12 = cms.Path(process.HLTBeginSequence+process.hltPreMCReducedIterativeTracking+process.HLTDoLocalPixelSequence+process.HLTRecopixelvertexingSequence+process.HLTDoLocalStripSequence+process.HLTIterativeTrackingIter02+process.HLTEndSequence)
process.MC_CaloBTagDeepCSV_v8 = cms.Path(process.HLTBeginSequence+process.hltPreMCCaloBTagDeepCSV+process.HLTAK4CaloJetsSequence+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltCaloJetCollection20Filter+process.HLTEndSequence)
process.MC_PFBTagDeepJet_v1 = cms.Path(process.HLTBeginSequence+process.hltPreMCPFBTagDeepJetROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet4p06SingleROIForBTag+process.HLTEndSequence)
process.MC_PFBTagDeepCSV_v10 = cms.Path(process.HLTBeginSequence+process.hltPreMCPFBTagDeepCSVROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV4p06SingleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT330PT30_QuadPFJet_75_60_45_40_TriplePFBTagDeepCSV_4p5_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet+process.hltPrePFHT330PT30QuadPFJet75604540TriplePFBTagDeepCSV4p5+process.HLTAK4CaloJetsSequence+process.hltQuadCentralJet30+process.hltCaloJetsQuad30ForHt+process.hltHtMhtCaloJetsQuadC30+process.hltCaloQuadJet30HT320+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSVp17DoubleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFCentralJetLooseIDQuad30ROIForBTag+process.hlt1PFCentralJetLooseID75ROIForBTag+process.hlt2PFCentralJetLooseID60ROIForBTag+process.hlt3PFCentralJetLooseID45ROIForBTag+process.hlt4PFCentralJetLooseID40ROIForBTag+process.hltPFCentralJetLooseIDQuad30forHtROIForBTag+process.hltHtMhtPFCentralJetsLooseIDQuadC30ROIForBTag+process.hltPFCentralJetsLooseIDQuad30HT330ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV4p5TripleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT330PT30_QuadPFJet_75_60_45_40_TriplePFBTagDeepJet_4p5_v3 = cms.Path(process.HLTBeginSequence+process.hltL1sQuadJetC50to60IorHTT280to500IorHTT250to340QuadJet+process.hltPrePFHT330PT30QuadPFJet75604540TriplePFBTagDeepJet4p5+process.HLTAK4CaloJetsSequence+process.hltQuadCentralJet30+process.hltCaloJetsQuad30ForHt+process.hltHtMhtCaloJetsQuadC30+process.hltCaloQuadJet30HT320+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSVp17DoubleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFCentralJetLooseIDQuad30ROIForBTag+process.hlt1PFCentralJetLooseID75ROIForBTag+process.hlt2PFCentralJetLooseID60ROIForBTag+process.hlt3PFCentralJetLooseID45ROIForBTag+process.hlt4PFCentralJetLooseID40ROIForBTag+process.hltPFCentralJetLooseIDQuad30forHtROIForBTag+process.hltHtMhtPFCentralJetsLooseIDQuadC30ROIForBTag+process.hltPFCentralJetsLooseIDQuad30HT330ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet4p5TripleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT400_FivePFJet_100_100_60_30_30_DoublePFBTagDeepCSV_4p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJetTripleJet+process.hltPrePFHT400FivePFJet100100603030DoublePFBTagDeepCSV4p5+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterFiveC25+process.hltCaloJetsFive25ForHt+process.hltHtMhtCaloJetsFiveC25+process.hltCaloFiveJet25HT300+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV10p01SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterTwo100er3p0ROIForBTag+process.hltPFJetFilterThree60er3p0ROIForBTag+process.hltPFJetFilterFive30er3p0ROIForBTag+process.hltPFJetsFive30ForHtROIForBTag+process.hltHtMhtPFJetsFive30er3p0ROIForBTag+process.hltPFFiveJet30HT400ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV4p5DoubleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT400_FivePFJet_100_100_60_30_30_DoublePFBTagDeepJet_4p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJetTripleJet+process.hltPrePFHT400FivePFJet100100603030DoublePFBTagDeepJet4p5+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterFiveC25+process.hltCaloJetsFive25ForHt+process.hltHtMhtCaloJetsFiveC25+process.hltCaloFiveJet25HT300+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV10p01SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterTwo100er3p0ROIForBTag+process.hltPFJetFilterThree60er3p0ROIForBTag+process.hltPFJetFilterFive30er3p0ROIForBTag+process.hltPFJetsFive30ForHtROIForBTag+process.hltHtMhtPFJetsFive30er3p0ROIForBTag+process.hltPFFiveJet30HT400ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet4p5DoubleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT400_FivePFJet_120_120_60_30_30_DoublePFBTagDeepCSV_4p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJetTripleJet+process.hltPrePFHT400FivePFJet120120603030DoublePFBTagDeepCSV4p5+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterFiveC25+process.hltCaloJetsFive25ForHt+process.hltHtMhtCaloJetsFiveC25+process.hltCaloFiveJet25HT300+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV10p01SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterTwo120er3p0ROIForBTag+process.hltPFJetFilterThree60er3p0ROIForBTag+process.hltPFJetFilterFive30er3p0ROIForBTag+process.hltPFJetsFive30ForHtROIForBTag+process.hltHtMhtPFJetsFive30er3p0ROIForBTag+process.hltPFFiveJet30HT400ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV4p5DoubleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT400_FivePFJet_120_120_60_30_30_DoublePFBTagDeepJet_4p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJetTripleJet+process.hltPrePFHT400FivePFJet120120603030DoublePFBTagDeepJet4p5+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterFiveC25+process.hltCaloJetsFive25ForHt+process.hltHtMhtCaloJetsFiveC25+process.hltCaloFiveJet25HT300+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV10p01SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterTwo120er3p0ROIForBTag+process.hltPFJetFilterThree60er3p0ROIForBTag+process.hltPFJetFilterFive30er3p0ROIForBTag+process.hltPFJetsFive30ForHtROIForBTag+process.hltHtMhtPFJetsFive30er3p0ROIForBTag+process.hltPFFiveJet30HT400ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet4p5DoubleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT400_SixPFJet32_DoublePFBTagDeepCSV_2p94_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT400SixPFJet32DoublePFBTagDeepCSV2p94+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterSixC25+process.hltCaloJetsSix25ForHt+process.hltHtMhtCaloJetsSixC25+process.hltCaloSixJet25HT300+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV10p01SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterSix30er2p5ROIForBTag+process.hltPFJetFilterSix32er2p5ROIForBTag+process.hltPFJetsSix30ForHtROIForBTag+process.hltHtMhtPFJetsSix30er2p5ROIForBTag+process.hltPFSixJet30HT400ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV2p94DoubleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT400_SixPFJet32_DoublePFBTagDeepJet_2p94_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT400SixPFJet32DoublePFBTagDeepJet2p94+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterSixC25+process.hltCaloJetsSix25ForHt+process.hltHtMhtCaloJetsSixC25+process.hltCaloSixJet25HT300+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV10p01SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterSix30er2p5ROIForBTag+process.hltPFJetFilterSix32er2p5ROIForBTag+process.hltPFJetsSix30ForHtROIForBTag+process.hltHtMhtPFJetsSix30er2p5ROIForBTag+process.hltPFSixJet30HT400ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet2p94DoubleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT450_SixPFJet36_PFBTagDeepCSV_1p59_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT450SixPFJet36PFBTagDeepCSV1p59+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterSixC30+process.hltCaloJetsSix30ForHt+process.hltHtMhtCaloJetsSixC30+process.hltCaloSixJet30HT350+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterSix30er2p5ROIForBTag+process.hltPFJetFilterSix36er2p5ROIForBTag+process.hltPFJetsSix30ForHtROIForBTag+process.hltHtMhtPFJetsSix30er2p5ROIForBTag+process.hltPFSixJet30HT450ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV1p59SingleROIForBTag+process.HLTEndSequence)
process.HLT_PFHT450_SixPFJet36_PFBTagDeepJet_1p59_v7 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT280to500erIorHTT250to340erQuadJet+process.hltPrePFHT450SixPFJet36PFBTagDeepJet1p59+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterSixC30+process.hltCaloJetsSix30ForHt+process.hltHtMhtCaloJetsSixC30+process.hltCaloSixJet30HT350+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterSix30er2p5ROIForBTag+process.hltPFJetFilterSix36er2p5ROIForBTag+process.hltPFJetsSix30ForHtROIForBTag+process.hltHtMhtPFJetsSix30er2p5ROIForBTag+process.hltPFSixJet30HT450ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet1p59SingleROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet103_88_75_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJetVBFIorHTTIorSingleJet+process.hltPreQuadPFJet103887515DoublePFBTagDeepCSV1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID75ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID103ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV7p68Double6JetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet103_88_75_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJetVBFIorHTTIorSingleJet+process.hltPreQuadPFJet103887515DoublePFBTagDeepJet1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID75ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID103ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet7p68Double6JetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet103_88_75_15_PFBTagDeepCSV_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJetVBFIorHTTIorSingleJet+process.hltPreQuadPFJet103887515PFBTagDeepCSV1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID75ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID103ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet103_88_75_15_PFBTagDeepJet_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJetVBFIorHTTIorSingleJet+process.hltPreQuadPFJet103887515PFBTagDeepJet1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID75ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID103ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet105_88_76_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1008572VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet105887615DoublePFBTagDeepCSV1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID76ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID105ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV7p68Double6JetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet105_88_76_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1008572VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet105887615DoublePFBTagDeepJet1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID76ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID105ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet7p68Double6JetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet105_88_76_15_PFBTagDeepCSV_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1008572VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet105887615PFBTagDeepCSV1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID76ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID105ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet105_88_76_15_PFBTagDeepJet_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1008572VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet105887615PFBTagDeepJet1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID76ROIForBTag+process.hltPFDoubleJetLooseID88ROIForBTag+process.hltPFSingleJetLooseID105ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet111_90_80_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1058576VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet111908015DoublePFBTagDeepCSV1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID80ROIForBTag+process.hltPFDoubleJetLooseID90ROIForBTag+process.hltPFSingleJetLooseID111ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV7p68Double6JetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet111_90_80_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1058576VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet111908015DoublePFBTagDeepJet1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID80ROIForBTag+process.hltPFDoubleJetLooseID90ROIForBTag+process.hltPFSingleJetLooseID111ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet7p68Double6JetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet111_90_80_15_PFBTagDeepCSV_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1058576VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet111908015PFBTagDeepCSV1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID80ROIForBTag+process.hltPFDoubleJetLooseID90ROIForBTag+process.hltPFSingleJetLooseID111ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet111_90_80_15_PFBTagDeepJet_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet1058576VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet111908015PFBTagDeepJet1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID80ROIForBTag+process.hltPFDoubleJetLooseID90ROIForBTag+process.hltPFSingleJetLooseID111ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet98_83_71_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet927664VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet98837115DoublePFBTagDeepCSV1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID71ROIForBTag+process.hltPFDoubleJetLooseID83ROIForBTag+process.hltPFSingleJetLooseID98ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV7p68Double6JetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet98_83_71_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet927664VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet98837115DoublePFBTagDeepJet1p37p7VBF1+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID71ROIForBTag+process.hltPFDoubleJetLooseID83ROIForBTag+process.hltPFSingleJetLooseID98ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet7p68Double6JetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq200Detaqq1p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet98_83_71_15_PFBTagDeepCSV_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet927664VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet98837115PFBTagDeepCSV1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID71ROIForBTag+process.hltPFDoubleJetLooseID83ROIForBTag+process.hltPFSingleJetLooseID98ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepCSV1p28Single6JetsROIForBTag+process.hltVBFPFJetCSVSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_QuadPFJet98_83_71_15_PFBTagDeepJet_1p3_VBF2_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sTripleJet927664VBFIorHTTIorDoubleJetCIorSingleJet+process.hltPreQuadPFJet98837115PFBTagDeepJet1p3VBF2+process.HLTAK4CaloJetsSequence+process.hltQuadJet15+process.hltTripleJet50+process.hltDoubleJet65+process.hltSingleJet80+process.hltVBFCaloJetEtaSortedMqq150Deta1p5+process.HLTFastPrimaryVertexSequenceROIForBTag+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFQuadJetLooseID15ROIForBTag+process.hltPFTripleJetLooseID71ROIForBTag+process.hltPFDoubleJetLooseID83ROIForBTag+process.hltPFSingleJetLooseID98ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltSelector6PFJetsROIForBTag+process.hltBTagPFDeepJet1p28Single6JetsROIForBTag+process.hltVBFPFJetDeepJetSortedMqq460Detaqq3p5ROIForBTag+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_PFBtagDeepCSV_1p5_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZPFDiJet30PFBtagDeepCSV1p5+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterTwoC30ROIForBTag+process.HLTBtagDeepCSVSequencePFROIForBTag+process.hltBTagPFDeepCSV1p5SingleROIForBTag+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_PFBtagDeepJet_1p5_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZPFDiJet30PFBtagDeepJet1p5+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFJetFilterTwoC30ROIForBTag+process.HLTBtagDeepJetSequencePFROIForBTag+process.hltBTagPFDeepJet1p5SingleROIForBTag+process.HLTEndSequence)
process.HLT_DoublePFJets100_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1DoubleJet100er3p0+process.hltPreDoublePFJets100CaloBTagDeepCSVp71+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets100eta2p3+process.hltSelectorJets80L1FastJet+process.hltSelectorCentralJets80L1FastJet+process.hltSelector6CentralJetsL1FastJet+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single6Jets80ROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFJets100Eta2p3ROIForBTag+process.HLTEndSequence)
process.HLT_DoublePFJets116MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1DoubleJet112er2p3dEtaMax1p6+process.hltPreDoublePFJets116MaxDeta1p6DoubleCaloBTagDeepCSVp71+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets100eta2p3+process.hltSelectorJets80L1FastJet+process.hltSelectorCentralJets80L1FastJet+process.hltSelector6CentralJetsL1FastJet+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Double6Jets80ROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFJets116Eta2p3ROIForBTag+process.hltDoublePFJets116Eta2p3MaxDeta1p6ROIForBTag+process.HLTEndSequence)
process.HLT_DoublePFJets128MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1DoubleJet112er2p3dEtaMax1p6+process.hltPreDoublePFJets128MaxDeta1p6DoubleCaloBTagDeepCSVp71+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets100eta2p3+process.hltSelectorJets80L1FastJet+process.hltSelectorCentralJets80L1FastJet+process.hltSelector6CentralJetsL1FastJet+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Double6Jets80ROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFJets128Eta2p3ROIForBTag+process.hltDoublePFJets128Eta2p3MaxDeta1p6ROIForBTag+process.HLTEndSequence)
process.HLT_DoublePFJets200_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1DoubleJet120er3p0+process.hltPreDoublePFJets200CaloBTagDeepCSVp71+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets100eta2p3+process.hltSelectorJets80L1FastJet+process.hltSelectorCentralJets80L1FastJet+process.hltSelector6CentralJetsL1FastJet+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single6Jets80ROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFJets200Eta2p3ROIForBTag+process.HLTEndSequence)
process.HLT_DoublePFJets350_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1DoubleJet120er3p0+process.hltPreDoublePFJets350CaloBTagDeepCSVp71+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets100eta2p3+process.hltSelectorJets80L1FastJet+process.hltSelectorCentralJets80L1FastJet+process.hltSelector6CentralJetsL1FastJet+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single6Jets80ROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFJets350Eta2p3ROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets100_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC60dRMax0p4+process.hltPreMu12DoublePFJets100CaloBTagDeepCSVp71+process.hltL1fL1sMu3Jet60L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu3Jet60L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu3Jet60L1Filtered0)+process.hltL3fL1sMu3Jet60L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets100Eta2p3ROIForBTag+process.HLTBTagMuDiJet100PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet100Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets200_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC120dRMax0p4+process.hltPreMu12DoublePFJets200CaloBTagDeepCSVp71+process.hltL1fL1sMu3Jet120L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu3Jet120L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu3Jet120L1Filtered0)+process.hltL3fL1sMu3Jet120L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets200Eta2p3ROIForBTag+process.HLTBTagMuDiJet200PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet200Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets350_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC120dRMax0p4+process.hltPreMu12DoublePFJets350CaloBTagDeepCSVp71+process.hltL1fL1sMu3Jet120L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu3Jet120L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu3Jet120L1Filtered0)+process.hltL3fL1sMu3Jet120L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets350Eta2p3ROIForBTag+process.HLTBTagMuDiJet350PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet350Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets40MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu12er2p3Jet40er2p3dRMax0p4DoubleJet40er2p3dEtaMax1p6+process.hltPreMu12DoublePFJets40MaxDeta1p6DoubleCaloBTagDeepCSVp71+process.hltL1fL1sMu12Dijet40L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Double8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu12Dijet40L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu12Dijet40L1Filtered0)+process.hltL3fL1sMu12Dijet40L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets40Eta2p3ROIForBTag+process.hltDoublePFJets40Eta2p3MaxDeta1p6ROIForBTag+process.HLTBTagMuDiJet40PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet40Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets40_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC16dRMax0p4+process.hltPreMu12DoublePFJets40CaloBTagDeepCSVp71+process.hltL1fL1sMu3Jet16L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu3Jet16L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu3Jet16L1Filtered0)+process.hltL3fL1sMu3Jet16L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets40Eta2p3ROIForBTag+process.HLTBTagMuDiJet40PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet40Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets54MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu12er2p3Jet40er2p3dRMax0p4DoubleJet40er2p3dEtaMax1p6+process.hltPreMu12DoublePFJets54MaxDeta1p6DoubleCaloBTagDeepCSVp71+process.hltL1fL1sMu12Dijet40L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Double8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu12Dijet40L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu12Dijet40L1Filtered0)+process.hltL3fL1sMu12Dijet40L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets54Eta2p3ROIForBTag+process.hltDoublePFJets54Eta2p3MaxDeta1p6ROIForBTag+process.HLTBTagMuDiJet54PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet54Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_Mu12_DoublePFJets62MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1Mu12er2p3Jet40er2p3dRMax0p4DoubleJet40er2p3dEtaMax1p6+process.hltPreMu12DoublePFJets62MaxDeta1p6DoubleCaloBTagDeepCSVp71+process.hltL1fL1sMu12Dijet40L1Filtered0+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Double8Jets30ROIForBTag+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sMu12Dijet40L1f0L2Filtered8)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sMu12Dijet40L1Filtered0)+process.hltL3fL1sMu12Dijet40L1f0L2f8L3Filtered12+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFBJets62Eta2p3ROIForBTag+process.hltDoublePFJets62Eta2p3MaxDeta1p6ROIForBTag+process.HLTBTagMuDiJet62PFMu12SequenceL3ROIForBTag+process.hltBSoftMuonDiJet62Mu12L3FilterByDRROIForBTag+process.HLTEndSequence)
process.HLT_PFMET110_PFMHT110_IDTight_CaloBTagDeepCSV_3p1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET110PFMHT110IDTightCaloBTagDeepCSV3p1+process.HLTRecoMETSequence+process.hltMET80+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT80+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV3p07SingleROIForBTag+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID110+process.hltPFMETProducer+process.hltPFMET110+process.HLTEndSequence)
process.HLT_PFMET120_PFMHT120_IDTight_CaloBTagDeepCSV_3p1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET120PFMHT120IDTightCaloBTagDeepCSV3p1+process.HLTRecoMETSequence+process.hltMET90+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT90+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV3p07SingleROIForBTag+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID120+process.hltPFMETProducer+process.hltPFMET120+process.HLTEndSequence)
process.HLT_PFMET130_PFMHT130_IDTight_CaloBTagDeepCSV_3p1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET130PFMHT130IDTightCaloBTagDeepCSV3p1+process.HLTRecoMETSequence+process.hltMET100+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT100+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV3p07SingleROIForBTag+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID130+process.hltPFMETProducer+process.hltPFMET130+process.HLTEndSequence)
process.HLT_PFMET100_PFMHT100_IDTight_CaloBTagDeepCSV_3p1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET100PFMHT100IDTightCaloBTagDeepCSV3p1+process.HLTRecoMETSequence+process.hltMET70+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT70+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV3p07SingleROIForBTag+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID100+process.hltPFMETProducer+process.hltPFMET100+process.HLTEndSequence)
process.HLT_PFMET140_PFMHT140_IDTight_CaloBTagDeepCSV_3p1_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sAllETMHFSeeds+process.hltPrePFMET140PFMHT140IDTightCaloBTagDeepCSV3p1+process.HLTRecoMETSequence+process.hltMET110+process.HLTAK4CaloJetsSequence+process.hltMht+process.hltMHT110+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV3p07SingleROIForBTag+process.HLTAK4PFJetsSequence+process.hltPFMHTTightID+process.hltPFMHTTightID140+process.hltPFMETProducer+process.hltPFMET140+process.HLTEndSequence)
process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_CaloBtagDeepCSV_1p5_v1 = cms.Path(process.HLTBeginSequence+process.hltL1sMu5EG23IorMu5IsoEG20IorMu7EG23IorMu7IsoEG20IorMuIso7EG23+process.hltPreMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZCaloDiJet30CaloBtagDeepCSV1p5+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLMuonlegSequence+process.HLTMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLElectronlegSequence+process.hltMu8TrkIsoVVLEle23CaloIdLTrackIdLIsoVLDZFilter+process.HLTAK4CaloJetsSequence+process.hltCaloJetFilterTwoC30+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV1p56SingleROIForBTag+process.HLTEndSequence)
process.HLT_Mu15_IsoVVVL_PFHT450_CaloBTagDeepCSV_4p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreMu15IsoVVVLPFHT450CaloBTagDeepCSV4p5+cms.ignore(process.hltL1sSingleMuOpenObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.hltSusyPreBtagJetFilter+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV4p50SingleROIForBTag+process.hltL1fL1sSingleMuOpenCandidateL1Filtered0+process.HLTL2muonrecoSequence+cms.ignore(process.hltL2fL1sSingleMuOpenCandidateL1f0L2Filtered0Q)+process.HLTL3muonrecoSequence+cms.ignore(process.hltL1fForIterL3L1fL1sSingleMuOpenCandidateL1Filtered0)+process.hltL3fL1sSingleMuOpenCandidateL1f0L2f3QL3Filtered15Q+process.HLTMuVVVLCombinedIsolationR02Sequence+process.hltL3MuVVVLIsoFIlter+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFHTJet30ROIForBTag+process.hltPFHT450Jet30ROIForBTag+process.HLTEndSequence)
process.HLT_DoublePFJets40_CaloBTagDeepCSV_p71_v2 = cms.Path(process.HLTBeginSequence+process.hltL1DoubleJet40er3p0+process.hltPreDoublePFJets40CaloBTagDeepCSVp71+process.HLTAK4CaloJetsSequence+process.hltDoubleCaloBJets30eta2p3+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV0p71Single8Jets30ROIForBTag+process.HLTAK4PFJetsSequenceROIForBTag+process.hltDoublePFJets40Eta2p3ROIForBTag+process.HLTEndSequence)
process.HLT_Ele15_IsoVVVL_PFHT450_CaloBTagDeepCSV_4p5_v8 = cms.Path(process.HLTBeginSequence+process.hltL1sHTT380erIorHTT320er+process.hltPreEle15IsoVVVLPFHT450CaloBTagDeepCSV4p5+cms.ignore(process.hltL1sSingleEG5ObjectMap)+process.HLTAK4CaloJetsSequence+process.hltHtMhtJet30+process.hltHT200Jet30+process.hltSusyPreBtagJetFilter+process.HLTBtagDeepCSVSequenceL3ROIForBTag+process.hltBTagCaloDeepCSV4p50SingleROIForBTag+process.HLTEle15VVVLGsfSequence+process.HLTAK4PFJetsSequenceROIForBTag+process.hltPFHTJet30ROIForBTag+process.hltPFHT450Jet30ROIForBTag+process.HLTEndSequence)
process.HLT_BTagMu_AK4DiJet20_Mu5_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC16dRMax0p4+process.hltPreBTagMuAK4DiJet20Mu5+process.HLTAK4CaloJetsSequence+process.hltBDiJet20L1FastJetCentral+process.HLTBTagMuDiJet20L1FastJetSequenceL25+process.hltBSoftMuonDiJet20L1FastJetL25FilterByDR+process.HLTBTagMuDiJet20L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonDiJet20L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK4DiJet40_Mu5_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC35dRMax0p4+process.hltPreBTagMuAK4DiJet40Mu5+process.HLTAK4CaloJetsSequence+process.hltBDiJet40L1FastJetCentral+process.HLTBTagMuDiJet40L1FastJetSequenceL25+process.hltBSoftMuonDiJet40L1FastJetL25FilterByDR+process.HLTBTagMuDiJet40L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonDiJet40L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK4DiJet70_Mu5_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC60dRMax0p4+process.hltPreBTagMuAK4DiJet70Mu5+process.HLTAK4CaloJetsSequence+process.hltBDiJet70L1FastJetCentral+process.HLTBTagMuDiJet70L1FastJetSequenceL25+process.hltBSoftMuonDiJet70L1FastJetL25FilterByDR+process.HLTBTagMuDiJet70L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonDiJet70L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK4DiJet110_Mu5_v13 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC80dRMax0p4+process.hltPreBTagMuAK4DiJet110Mu5+process.HLTAK4CaloJetsSequence+process.hltBDiJet110L1FastJetCentral+process.HLTBTagMuDiJet110L1FastJetSequenceL25+process.hltBSoftMuonDiJet110L1FastJetL25FilterByDR+process.HLTBTagMuDiJet110L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonDiJet110L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK4DiJet170_Mu5_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC120dRMax0p4+process.hltPreBTagMuAK4DiJet170Mu5+process.HLTAK4CaloJetsSequence+process.hltBDiJet200L1FastJetCentral+process.HLTBTagMuDiJet200L1FastJetSequenceL25+process.hltBSoftMuonDiJet200L1FastJetL25FilterByDR+process.HLTBTagMuDiJet200L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonDiJet200L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK4Jet300_Mu5_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet200+process.hltPreBTagMuAK4Jet300Mu5+process.HLTAK4CaloJetsSequence+process.hltBJet300L1FastJetCentral+process.HLTBTagMuJet300L1FastJetSequenceL25+process.hltBSoftMuonJet300L1FastJetL25FilterByDR+process.HLTBTagMuJet300L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonJet300L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK8DiJet170_Mu5_v9 = cms.Path(process.HLTBeginSequence+process.hltL1sMu3JetC120dRMax0p8+process.hltPreBTagMuAK8DiJet170Mu5+process.HLTAK8CaloJetsSequence+process.hltBAK8DiJet170L1FastJetCentral+process.HLTBTagMuAK8DiJet170L1FastJetSequenceL25+process.hltBSoftMuonAK8DiJet170L1FastJetL25FilterByDR+process.HLTBTagMuAK8DiJet170L1FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonAK8DiJet170L1FastJetMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK8Jet170_DoubleMu5_v2 = cms.Path(process.HLTBeginSequence+process.hltL1sDoubleMu0Jet90er2p5dRMax0p8dRMu1p6+process.hltPreBTagMuAK8Jet170DoubleMu5+process.hltDoubleMuon0L1Filtered0+process.HLTAK8CaloJetsSequence+process.hltBAK8Jet170L1FastJetCentral+process.HLTBTagMuAK8Jet170L1FastJetDoubleMuSequenceL25+process.hltBSoftMuonAK8Jet170L1FastJetL25FilterByDR+process.HLTBTagMuAK8Jet170L1FastJetDoubleMu5SelSequenceL3noalgo+process.hltBSoftMuonAK8Jet170L1FastJetDoubleMu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.HLT_BTagMu_AK8Jet300_Mu5_v12 = cms.Path(process.HLTBeginSequence+process.hltL1sSingleJet200+process.hltPreBTagMuAK8Jet300Mu5+process.HLTAK8CaloJetsSequence+process.hltBJet300L1AK8FastJetCentral+process.HLTBTagMuJet300L1AK8FastJetSequenceL25+process.hltBSoftMuonJet300L1FastJetAK8L25FilterByDR+process.HLTBTagMuJet300L1AK8FastJetMu5SelSequenceL3noalgo+process.hltBSoftMuonJet300L1FastJetAK8Mu5L3FilterByDRnoalgo+process.HLTEndSequence)
process.MC_JetsMatchingPath = cms.Path(process.HLTBeginSequence+process.HLTAK4PFJetsSequenceROIForBTag+process.HLTBtagDeepCSVSequencePFPat+process.hltAk4JetID+process.hltAk4JetTracksAssociatorAtVertexPF+process.hltPatJetCharge+process.hltPatJetCorrFactors+process.HLTBtagDeepJetSequencePFPat+process.hltPatJets+process.HLTEndSequence)
process.MC_CaloJetsMatchingPath = cms.Path(process.HLTBeginSequence+process.HLTAK4CaloJetsSequence+process.HLTBtagDeepCSVSequenceCaloPat+process.hltAk4JetTracksAssociatorAtVertexCalo+process.hltPatJetsCalo+process.HLTEndSequence)
process.vtxMonitoringEndPath = cms.EndPath(process.vtxMonitoringSeq)
process.analysisNTupleEndPath = cms.EndPath(process.btagana)
process.schedule = cms.Schedule(*[ process.HLTriggerFirstPath, process.HLT_AK8PFJet360_TrimMass30_v18, process.HLT_AK8PFJet380_TrimMass30_v11, process.HLT_AK8PFJet400_TrimMass30_v12, process.HLT_AK8PFJet420_TrimMass30_v11, process.HLT_AK8PFHT750_TrimMass50_v12, process.HLT_AK8PFHT800_TrimMass50_v12, process.HLT_AK8PFHT850_TrimMass50_v11, process.HLT_AK8PFHT900_TrimMass50_v11, process.HLT_CaloJet500_NoJetID_v12, process.HLT_CaloJet550_NoJetID_v7, process.HLT_DoubleMu5_Upsilon_DoubleEle3_CaloIdL_TrackIdL_v4, process.HLT_DoubleMu3_DoubleEle7p5_CaloIdL_TrackIdL_Upsilon_v4, process.HLT_Trimuon5_3p5_2_Upsilon_Muon_v5, process.HLT_TrimuonOpen_5_3p5_2_Upsilon_Muon_v3, process.HLT_DoubleEle25_CaloIdL_MW_v4, process.HLT_DoubleEle27_CaloIdL_MW_v4, process.HLT_DoubleEle33_CaloIdL_MW_v17, process.HLT_DoubleEle24_eta2p1_WPTight_Gsf_v7, process.HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_DZ_PFHT350_v20, process.HLT_DoubleEle8_CaloIdM_TrackIdM_Mass8_PFHT350_v20, process.HLT_Ele27_Ele37_CaloIdL_MW_v4, process.HLT_Mu27_Ele37_CaloIdL_MW_v5, process.HLT_Mu37_Ele27_CaloIdL_MW_v5, process.HLT_Mu37_TkMu27_v5, process.HLT_DoubleMu4_3_Bs_v14, process.HLT_DoubleMu4_3_Jpsi_v2, process.HLT_DoubleMu4_JpsiTrk_Displaced_v15, process.HLT_DoubleMu4_LowMassNonResonantTrk_Displaced_v15, process.HLT_DoubleMu3_Trk_Tau3mu_v12, process.HLT_DoubleMu3_TkMu_DsTau3Mu_v4, process.HLT_DoubleMu4_PsiPrimeTrk_Displaced_v15, process.HLT_DoubleMu4_Mass3p8_DZ_PFHT350_v8, process.HLT_Mu3_PFJet40_v16, process.HLT_Mu7p5_L2Mu2_Jpsi_v10, process.HLT_Mu7p5_L2Mu2_Upsilon_v10, process.HLT_Mu7p5_Track2_Jpsi_v11, process.HLT_Mu7p5_Track3p5_Jpsi_v11, process.HLT_Mu7p5_Track7_Jpsi_v11, process.HLT_Mu7p5_Track2_Upsilon_v11, process.HLT_Mu7p5_Track3p5_Upsilon_v11, process.HLT_Mu7p5_Track7_Upsilon_v11, process.HLT_Mu3_L1SingleMu5orSingleMu7_v1, process.HLT_DoublePhoton33_CaloIdL_v6, process.HLT_DoublePhoton70_v6, process.HLT_DoublePhoton85_v14, process.HLT_Ele20_WPTight_Gsf_v6, process.HLT_Ele15_WPLoose_Gsf_v3, process.HLT_Ele17_WPLoose_Gsf_v3, process.HLT_Ele20_WPLoose_Gsf_v6, process.HLT_Ele20_eta2p1_WPLoose_Gsf_v6, process.HLT_DiEle27_WPTightCaloOnly_L1DoubleEG_v4, process.HLT_Ele27_WPTight_Gsf_v16, process.HLT_Ele28_WPTight_Gsf_v1, process.HLT_Ele30_WPTight_Gsf_v1, process.HLT_Ele32_WPTight_Gsf_v15, process.HLT_Ele35_WPTight_Gsf_v9, process.HLT_Ele35_WPTight_Gsf_L1EGMT_v5, process.HLT_Ele38_WPTight_Gsf_v9, process.HLT_Ele40_WPTight_Gsf_v9, process.HLT_Ele32_WPTight_Gsf_L1DoubleEG_v9, process.HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTau30_eta2p1_CrossL1_v13, process.HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTauHPS30_eta2p1_CrossL1_v1, process.HLT_Ele24_eta2p1_WPTight_Gsf_MediumChargedIsoPFTauHPS30_eta2p1_CrossL1_v1, process.HLT_Ele24_eta2p1_WPTight_Gsf_TightChargedIsoPFTauHPS30_eta2p1_CrossL1_v1, process.HLT_Ele24_eta2p1_WPTight_Gsf_LooseChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1, process.HLT_Ele24_eta2p1_WPTight_Gsf_MediumChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1, process.HLT_Ele24_eta2p1_WPTight_Gsf_TightChargedIsoPFTauHPS30_eta2p1_TightID_CrossL1_v1, process.HLT_HT450_Beamspot_v11, process.HLT_HT300_Beamspot_v11, process.HLT_ZeroBias_Beamspot_v4, process.HLT_IsoMu20_eta2p1_LooseChargedIsoPFTau27_eta2p1_CrossL1_v12, process.HLT_IsoMu20_eta2p1_LooseChargedIsoPFTauHPS27_eta2p1_CrossL1_v4, process.HLT_IsoMu20_eta2p1_MediumChargedIsoPFTauHPS27_eta2p1_CrossL1_v1, process.HLT_IsoMu20_eta2p1_TightChargedIsoPFTauHPS27_eta2p1_CrossL1_v1, process.HLT_IsoMu20_eta2p1_LooseChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1, process.HLT_IsoMu20_eta2p1_MediumChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1, process.HLT_IsoMu20_eta2p1_TightChargedIsoPFTauHPS27_eta2p1_TightID_CrossL1_v1, process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau35_Trk1_eta2p1_Reg_CrossL1_v12, process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_CrossL1_v12, process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTau35_Trk1_eta2p1_Reg_CrossL1_v12, process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_CrossL1_v12, process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_CrossL1_v1, process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_CrossL1_v1, process.HLT_IsoMu24_eta2p1_TightChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_CrossL1_v1, process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_CrossL1_v4, process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTauHPS30_Trk1_eta2p1_Reg_CrossL1_v1, process.HLT_IsoMu27_LooseChargedIsoPFTau20_Trk1_eta2p1_SingleL1_v5, process.HLT_IsoMu27_LooseChargedIsoPFTauHPS20_Trk1_eta2p1_SingleL1_v1, process.HLT_IsoMu27_MediumChargedIsoPFTauHPS20_Trk1_eta2p1_SingleL1_v1, process.HLT_IsoMu27_TightChargedIsoPFTauHPS20_Trk1_eta2p1_SingleL1_v1, process.HLT_IsoMu20_v15, process.HLT_IsoMu24_v13, process.HLT_IsoMu24_eta2p1_v15, process.HLT_IsoMu27_v16, process.HLT_IsoMu30_v4, process.HLT_UncorrectedJetE30_NoBPTX_v6, process.HLT_UncorrectedJetE30_NoBPTX3BX_v6, process.HLT_UncorrectedJetE60_NoBPTX3BX_v6, process.HLT_UncorrectedJetE70_NoBPTX3BX_v6, process.HLT_L1SingleMu18_v3, process.HLT_L1SingleMu25_v2, process.HLT_L1SingleMuCosmics_v1, process.HLT_L2Mu10_v7, process.HLT_L2Mu10_NoVertex_NoBPTX3BX_v5, process.HLT_L2Mu10_NoVertex_NoBPTX_v6, process.HLT_L2Mu45_NoVertex_3Sta_NoBPTX3BX_v4, process.HLT_L2Mu40_NoVertex_3Sta_NoBPTX3BX_v5, process.HLT_L2Mu50_v2, process.HLT_L2Mu23NoVtx_2Cha_v1, process.HLT_L2Mu23NoVtx_2Cha_CosmicSeed_v1, process.HLT_DoubleL2Mu30NoVtx_2Cha_CosmicSeed_Eta2p4_v2, process.HLT_DoubleL2Mu30NoVtx_2Cha_Eta2p4_v2, process.HLT_DoubleL2Mu50_v2, process.HLT_DoubleL2Mu23NoVtx_2Cha_CosmicSeed_v2, process.HLT_DoubleL2Mu23NoVtx_2Cha_CosmicSeed_NoL2Matched_v2, process.HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_v2, process.HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_NoL2Matched_v2, process.HLT_DoubleL2Mu25NoVtx_2Cha_CosmicSeed_Eta2p4_v2, process.HLT_DoubleL2Mu23NoVtx_2Cha_v2, process.HLT_DoubleL2Mu23NoVtx_2Cha_NoL2Matched_v2, process.HLT_DoubleL2Mu25NoVtx_2Cha_v2, process.HLT_DoubleL2Mu25NoVtx_2Cha_NoL2Matched_v2, process.HLT_DoubleL2Mu25NoVtx_2Cha_Eta2p4_v2, process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_v14, process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_v3, process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v15, process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_v3, process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_Mass8_v5, process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_Mass8_v3, process.HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_Mass3p8_v5, process.HLT_Mu19_TrkIsoVVL_Mu9_TrkIsoVVL_DZ_Mass3p8_v3, process.HLT_Mu25_TkMu0_Onia_v8, process.HLT_Mu30_TkMu0_Psi_v1, process.HLT_Mu30_TkMu0_Upsilon_v1, process.HLT_Mu20_TkMu0_Phi_v8, process.HLT_Mu25_TkMu0_Phi_v8, process.HLT_Mu12_v3, process.HLT_Mu15_v3, process.HLT_Mu20_v12, process.HLT_Mu27_v13, process.HLT_Mu50_v13, process.HLT_Mu55_v3, process.HLT_OldMu100_v3, process.HLT_TkMu100_v2, process.HLT_DiPFJet15_NoCaloMatched_v16, process.HLT_DiPFJet25_NoCaloMatched_v16, process.HLT_DiPFJet15_FBEta3_NoCaloMatched_v17, process.HLT_DiPFJet25_FBEta3_NoCaloMatched_v17, process.HLT_DiPFJetAve40_v14, process.HLT_DiPFJetAve60_v14, process.HLT_DiPFJetAve80_v13, process.HLT_DiPFJetAve140_v13, process.HLT_DiPFJetAve200_v13, process.HLT_DiPFJetAve260_v14, process.HLT_DiPFJetAve320_v14, process.HLT_DiPFJetAve400_v14, process.HLT_DiPFJetAve500_v14, process.HLT_DiPFJetAve15_HFJEC_v17, process.HLT_DiPFJetAve25_HFJEC_v17, process.HLT_DiPFJetAve35_HFJEC_v17, process.HLT_DiPFJetAve60_HFJEC_v15, process.HLT_DiPFJetAve80_HFJEC_v16, process.HLT_DiPFJetAve100_HFJEC_v16, process.HLT_DiPFJetAve160_HFJEC_v16, process.HLT_DiPFJetAve220_HFJEC_v16, process.HLT_DiPFJetAve300_HFJEC_v16, process.HLT_AK8PFJet15_v3, process.HLT_AK8PFJet25_v3, process.HLT_AK8PFJet40_v16, process.HLT_AK8PFJet60_v15, process.HLT_AK8PFJet80_v15, process.HLT_AK8PFJet140_v15, process.HLT_AK8PFJet200_v15, process.HLT_AK8PFJet260_v16, process.HLT_AK8PFJet320_v16, process.HLT_AK8PFJet400_v16, process.HLT_AK8PFJet450_v16, process.HLT_AK8PFJet500_v16, process.HLT_AK8PFJet550_v11, process.HLT_PFJet15_v3, process.HLT_PFJet25_v3, process.HLT_PFJet40_v21, process.HLT_PFJet60_v21, process.HLT_PFJet80_v20, process.HLT_PFJet140_v19, process.HLT_PFJet200_v19, process.HLT_PFJet260_v20, process.HLT_PFJet320_v20, process.HLT_PFJet400_v20, process.HLT_PFJet450_v21, process.HLT_PFJet500_v21, process.HLT_PFJet550_v11, process.HLT_PFJetFwd15_v3, process.HLT_PFJetFwd25_v3, process.HLT_PFJetFwd40_v19, process.HLT_PFJetFwd60_v19, process.HLT_PFJetFwd80_v18, process.HLT_PFJetFwd140_v18, process.HLT_PFJetFwd200_v18, process.HLT_PFJetFwd260_v19, process.HLT_PFJetFwd320_v19, process.HLT_PFJetFwd400_v19, process.HLT_PFJetFwd450_v19, process.HLT_PFJetFwd500_v19, process.HLT_AK8PFJetFwd15_v3, process.HLT_AK8PFJetFwd25_v3, process.HLT_AK8PFJetFwd40_v15, process.HLT_AK8PFJetFwd60_v14, process.HLT_AK8PFJetFwd80_v14, process.HLT_AK8PFJetFwd140_v14, process.HLT_AK8PFJetFwd200_v14, process.HLT_AK8PFJetFwd260_v15, process.HLT_AK8PFJetFwd320_v15, process.HLT_AK8PFJetFwd400_v15, process.HLT_AK8PFJetFwd450_v15, process.HLT_AK8PFJetFwd500_v15, process.HLT_PFHT180_v17, process.HLT_PFHT250_v17, process.HLT_PFHT370_v17, process.HLT_PFHT430_v17, process.HLT_PFHT510_v17, process.HLT_PFHT590_v17, process.HLT_PFHT680_v17, process.HLT_PFHT780_v17, process.HLT_PFHT890_v17, process.HLT_PFHT1050_v18, process.HLT_PFHT500_PFMET100_PFMHT100_IDTight_v12, process.HLT_PFHT500_PFMET110_PFMHT110_IDTight_v12, process.HLT_PFHT700_PFMET85_PFMHT85_IDTight_v12, process.HLT_PFHT700_PFMET95_PFMHT95_IDTight_v12, process.HLT_PFHT800_PFMET75_PFMHT75_IDTight_v12, process.HLT_PFHT800_PFMET85_PFMHT85_IDTight_v12, process.HLT_PFMET110_PFMHT110_IDTight_v20, process.HLT_PFMET120_PFMHT120_IDTight_v20, process.HLT_PFMET130_PFMHT130_IDTight_v20, process.HLT_PFMET140_PFMHT140_IDTight_v20, process.HLT_PFMET100_PFMHT100_IDTight_CaloBTagDeepCSV_3p1_v8, process.HLT_PFMET110_PFMHT110_IDTight_CaloBTagDeepCSV_3p1_v8, process.HLT_PFMET120_PFMHT120_IDTight_CaloBTagDeepCSV_3p1_v8, process.HLT_PFMET130_PFMHT130_IDTight_CaloBTagDeepCSV_3p1_v8, process.HLT_PFMET140_PFMHT140_IDTight_CaloBTagDeepCSV_3p1_v8, process.HLT_PFMET120_PFMHT120_IDTight_PFHT60_v9, process.HLT_PFMETNoMu120_PFMHTNoMu120_IDTight_PFHT60_v9, process.HLT_PFMETTypeOne120_PFMHT120_IDTight_PFHT60_v9, process.HLT_PFMETTypeOne110_PFMHT110_IDTight_v12, process.HLT_PFMETTypeOne120_PFMHT120_IDTight_v12, process.HLT_PFMETTypeOne130_PFMHT130_IDTight_v12, process.HLT_PFMETTypeOne140_PFMHT140_IDTight_v11, process.HLT_PFMETNoMu110_PFMHTNoMu110_IDTight_v20, process.HLT_PFMETNoMu120_PFMHTNoMu120_IDTight_v20, process.HLT_PFMETNoMu130_PFMHTNoMu130_IDTight_v19, process.HLT_PFMETNoMu140_PFMHTNoMu140_IDTight_v19, process.HLT_MonoCentralPFJet80_PFMETNoMu110_PFMHTNoMu110_IDTight_v20, process.HLT_MonoCentralPFJet80_PFMETNoMu120_PFMHTNoMu120_IDTight_v20, process.HLT_MonoCentralPFJet80_PFMETNoMu130_PFMHTNoMu130_IDTight_v19, process.HLT_MonoCentralPFJet80_PFMETNoMu140_PFMHTNoMu140_IDTight_v19, process.HLT_L1ETMHadSeeds_v2, process.HLT_CaloMHT90_v4, process.HLT_CaloMET80_NotCleaned_v4, process.HLT_CaloMET90_NotCleaned_v4, process.HLT_CaloMET100_NotCleaned_v4, process.HLT_CaloMET110_NotCleaned_v4, process.HLT_CaloMET250_NotCleaned_v4, process.HLT_CaloMET300_NotCleaned_v4, process.HLT_CaloMET350_NotCleaned_v4, process.HLT_PFMET200_NotCleaned_v9, process.HLT_PFMET250_NotCleaned_v9, process.HLT_PFMET300_NotCleaned_v9, process.HLT_PFMET200_BeamHaloCleaned_v9, process.HLT_PFMETTypeOne200_BeamHaloCleaned_v9, process.HLT_MET105_IsoTrk50_v9, process.HLT_MET120_IsoTrk50_v9, process.HLT_SingleJet30_Mu12_SinglePFJet40_v11, process.HLT_Mu12_DoublePFJets40_CaloBTagDeepCSV_p71_v2, process.HLT_Mu12_DoublePFJets100_CaloBTagDeepCSV_p71_v2, process.HLT_Mu12_DoublePFJets200_CaloBTagDeepCSV_p71_v2, process.HLT_Mu12_DoublePFJets350_CaloBTagDeepCSV_p71_v2, process.HLT_Mu12_DoublePFJets40MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2, process.HLT_Mu12_DoublePFJets54MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2, process.HLT_Mu12_DoublePFJets62MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2, process.HLT_DoublePFJets40_CaloBTagDeepCSV_p71_v2, process.HLT_DoublePFJets100_CaloBTagDeepCSV_p71_v2, process.HLT_DoublePFJets200_CaloBTagDeepCSV_p71_v2, process.HLT_DoublePFJets350_CaloBTagDeepCSV_p71_v2, process.HLT_DoublePFJets116MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2, process.HLT_DoublePFJets128MaxDeta1p6_DoubleCaloBTagDeepCSV_p71_v2, process.HLT_Photon300_NoHE_v12, process.HLT_Mu8_TrkIsoVVL_v12, process.HLT_Mu8_DiEle12_CaloIdL_TrackIdL_DZ_v18, process.HLT_Mu8_DiEle12_CaloIdL_TrackIdL_v18, process.HLT_Mu8_Ele8_CaloIdM_TrackIdM_Mass8_PFHT350_DZ_v19, process.HLT_Mu8_Ele8_CaloIdM_TrackIdM_Mass8_PFHT350_v19, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v13, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_v1, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_v1, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_PFBtagDeepCSV_1p5_v1, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_CaloDiJet30_CaloBtagDeepCSV_1p5_v1, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v11, process.HLT_Mu17_TrkIsoVVL_v13, process.HLT_Mu19_TrkIsoVVL_v4, process.HLT_Ele15_Ele8_CaloIdL_TrackIdL_IsoVL_v3, process.HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v19, process.HLT_Ele23_Ele12_CaloIdL_TrackIdL_IsoVL_v19, process.HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v15, process.HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v7, process.HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v7, process.HLT_Mu12_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_v15, process.HLT_Mu12_DoublePhoton20_v5, process.HLT_TriplePhoton_20_20_20_CaloIdLV2_v3, process.HLT_TriplePhoton_20_20_20_CaloIdLV2_R9IdVL_v3, process.HLT_TriplePhoton_30_30_10_CaloIdLV2_v4, process.HLT_TriplePhoton_30_30_10_CaloIdLV2_R9IdVL_v4, process.HLT_TriplePhoton_35_35_5_CaloIdLV2_R9IdVL_v4, process.HLT_Photon20_v2, process.HLT_Photon33_v5, process.HLT_Photon50_v13, process.HLT_Photon75_v13, process.HLT_Photon90_v13, process.HLT_Photon120_v13, process.HLT_Photon150_v6, process.HLT_Photon175_v14, process.HLT_Photon200_v13, process.HLT_Photon100EB_TightID_TightIso_v2, process.HLT_Photon110EB_TightID_TightIso_v2, process.HLT_Photon120EB_TightID_TightIso_v2, process.HLT_Photon100EBHE10_v2, process.HLT_Photon100EEHE10_v2, process.HLT_Photon100EE_TightID_TightIso_v2, process.HLT_Photon50_R9Id90_HE10_IsoM_v14, process.HLT_Photon75_R9Id90_HE10_IsoM_v14, process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_CaloMJJ300_PFJetsMJJ400DEta3_v5, process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_CaloMJJ400_PFJetsMJJ600DEta3_v5, process.HLT_Photon90_R9Id90_HE10_IsoM_v14, process.HLT_Photon120_R9Id90_HE10_IsoM_v14, process.HLT_Photon165_R9Id90_HE10_IsoM_v15, process.HLT_Photon90_CaloIdL_PFHT700_v16, process.HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass90_v13, process.HLT_Diphoton30_22_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass95_v13, process.HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_PixelVeto_Mass55_v15, process.HLT_Diphoton30PV_18PV_R9Id_AND_IsoCaloId_AND_HE_R9Id_NoPixelVeto_Mass55_v13, process.HLT_Photon35_TwoProngs35_v1, process.HLT_IsoMu24_TwoProngs35_v1, process.HLT_Dimuon0_Jpsi_L1_NoOS_v7, process.HLT_Dimuon0_Jpsi_NoVertexing_NoOS_v7, process.HLT_Dimuon0_Jpsi_v8, process.HLT_Dimuon0_Jpsi_NoVertexing_v8, process.HLT_Dimuon0_Jpsi_L1_4R_0er1p5R_v7, process.HLT_Dimuon0_Jpsi_NoVertexing_L1_4R_0er1p5R_v7, process.HLT_Dimuon0_Jpsi3p5_Muon2_v5, process.HLT_Dimuon0_Upsilon_L1_4p5_v9, process.HLT_Dimuon0_Upsilon_L1_5_v9, process.HLT_Dimuon0_Upsilon_L1_4p5NoOS_v8, process.HLT_Dimuon0_Upsilon_L1_4p5er2p0_v9, process.HLT_Dimuon0_Upsilon_L1_4p5er2p0M_v7, process.HLT_Dimuon0_Upsilon_NoVertexing_v7, process.HLT_Dimuon0_Upsilon_L1_5M_v8, process.HLT_Dimuon0_LowMass_L1_0er1p5R_v7, process.HLT_Dimuon0_LowMass_L1_0er1p5_v8, process.HLT_Dimuon0_LowMass_v8, process.HLT_Dimuon0_LowMass_L1_4_v8, process.HLT_Dimuon0_LowMass_L1_4R_v7, process.HLT_Dimuon0_LowMass_L1_TM530_v6, process.HLT_Dimuon0_Upsilon_Muon_L1_TM0_v6, process.HLT_Dimuon0_Upsilon_Muon_NoL1Mass_v6, process.HLT_TripleMu_5_3_3_Mass3p8_DZ_v8, process.HLT_TripleMu_10_5_5_DZ_v10, process.HLT_TripleMu_12_10_5_v10, process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_Tau15_v4, process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_Tau15_Charge1_v4, process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_IsoTau15_v4, process.HLT_Tau3Mu_Mu7_Mu1_TkMu1_IsoTau15_Charge1_v4, process.HLT_DoubleMu3_DZ_PFMET50_PFMHT60_v10, process.HLT_DoubleMu3_DZ_PFMET70_PFMHT70_v10, process.HLT_DoubleMu3_DZ_PFMET90_PFMHT90_v10, process.HLT_DoubleMu3_Trk_Tau3mu_NoL1Mass_v6, process.HLT_DoubleMu4_Jpsi_Displaced_v7, process.HLT_DoubleMu4_Jpsi_NoVertexing_v7, process.HLT_DoubleMu4_JpsiTrkTrk_Displaced_v7, process.HLT_DoubleMu43NoFiltersNoVtx_v4, process.HLT_DoubleMu48NoFiltersNoVtx_v4, process.HLT_Mu43NoFiltersNoVtx_Photon43_CaloIdL_v5, process.HLT_Mu48NoFiltersNoVtx_Photon48_CaloIdL_v5, process.HLT_Mu38NoFiltersNoVtxDisplaced_Photon38_CaloIdL_v1, process.HLT_Mu43NoFiltersNoVtxDisplaced_Photon43_CaloIdL_v1, process.HLT_DoubleMu33NoFiltersNoVtxDisplaced_v1, process.HLT_DoubleMu40NoFiltersNoVtxDisplaced_v1, process.HLT_DoubleMu20_7_Mass0to30_L1_DM4_v7, process.HLT_DoubleMu20_7_Mass0to30_L1_DM4EG_v8, process.HLT_HT425_v9, process.HLT_HT430_DisplacedDijet40_DisplacedTrack_v13, process.HLT_HT500_DisplacedDijet40_DisplacedTrack_v13, process.HLT_HT430_DisplacedDijet60_DisplacedTrack_v13, process.HLT_HT400_DisplacedDijet40_DisplacedTrack_v13, process.HLT_HT650_DisplacedDijet60_Inclusive_v13, process.HLT_HT550_DisplacedDijet60_Inclusive_v13, process.HLT_DiJet110_35_Mjj650_PFMET110_v9, process.HLT_DiJet110_35_Mjj650_PFMET120_v9, process.HLT_DiJet110_35_Mjj650_PFMET130_v9, process.HLT_TripleJet110_35_35_Mjj650_PFMET110_v9, process.HLT_TripleJet110_35_35_Mjj650_PFMET120_v9, process.HLT_TripleJet110_35_35_Mjj650_PFMET130_v9, process.HLT_Ele30_eta2p1_WPTight_Gsf_CentralPFJet35_EleCleaned_v13, process.HLT_Ele28_eta2p1_WPTight_Gsf_HT150_v13, process.HLT_Ele28_HighEta_SC20_Mass55_v13, process.HLT_DoubleMu20_7_Mass0to30_Photon23_v8, process.HLT_Ele15_IsoVVVL_PFHT450_CaloBTagDeepCSV_4p5_v8, process.HLT_Ele15_IsoVVVL_PFHT450_PFMET50_v16, process.HLT_Ele15_IsoVVVL_PFHT450_v16, process.HLT_Ele50_IsoVVVL_PFHT450_v16, process.HLT_Ele15_IsoVVVL_PFHT600_v20, process.HLT_Mu4_TrkIsoVVL_DiPFJet90_40_DEta3p5_MJJ750_HTT300_PFMETNoMu60_v15, process.HLT_Mu8_TrkIsoVVL_DiPFJet40_DEta3p5_MJJ750_HTT300_PFMETNoMu60_v16, process.HLT_Mu10_TrkIsoVVL_DiPFJet40_DEta3p5_MJJ750_HTT350_PFMETNoMu60_v15, process.HLT_Mu15_IsoVVVL_PFHT450_CaloBTagDeepCSV_4p5_v8, process.HLT_Mu15_IsoVVVL_PFHT450_PFMET50_v15, process.HLT_Mu15_IsoVVVL_PFHT450_v15, process.HLT_Mu50_IsoVVVL_PFHT450_v15, process.HLT_Mu15_IsoVVVL_PFHT600_v19, process.HLT_Mu3er1p5_PFJet100er2p5_PFMET70_PFMHT70_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMET80_PFMHT80_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMET90_PFMHT90_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMET100_PFMHT100_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu70_PFMHTNoMu70_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu80_PFMHTNoMu80_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu90_PFMHTNoMu90_IDTight_v2, process.HLT_Mu3er1p5_PFJet100er2p5_PFMETNoMu100_PFMHTNoMu100_IDTight_v2, process.HLT_Dimuon10_PsiPrime_Barrel_Seagulls_v7, process.HLT_Dimuon20_Jpsi_Barrel_Seagulls_v7, process.HLT_Dimuon12_Upsilon_y1p4_v2, process.HLT_Dimuon14_Phi_Barrel_Seagulls_v7, process.HLT_Dimuon18_PsiPrime_v14, process.HLT_Dimuon25_Jpsi_v14, process.HLT_Dimuon18_PsiPrime_noCorrL1_v6, process.HLT_Dimuon24_Upsilon_noCorrL1_v6, process.HLT_Dimuon24_Phi_noCorrL1_v6, process.HLT_Dimuon25_Jpsi_noCorrL1_v6, process.HLT_DiMu4_Ele9_CaloIdL_TrackIdL_DZ_Mass3p8_v17, process.HLT_DiMu9_Ele9_CaloIdL_TrackIdL_DZ_v17, process.HLT_DiMu9_Ele9_CaloIdL_TrackIdL_v17, process.HLT_DoubleIsoMu20_eta2p1_v7, process.HLT_TrkMu12_DoubleTrkMu5NoFiltersNoVtx_v6, process.HLT_TrkMu16_DoubleTrkMu6NoFiltersNoVtx_v12, process.HLT_TrkMu17_DoubleTrkMu8NoFiltersNoVtx_v13, process.HLT_Mu8_v12, process.HLT_Mu17_v13, process.HLT_Mu19_v4, process.HLT_Mu17_Photon30_IsoCaloId_v6, process.HLT_Ele8_CaloIdL_TrackIdL_IsoVL_PFJet30_v16, process.HLT_Ele12_CaloIdL_TrackIdL_IsoVL_PFJet30_v18, process.HLT_Ele15_CaloIdL_TrackIdL_IsoVL_PFJet30_v3, process.HLT_Ele23_CaloIdL_TrackIdL_IsoVL_PFJet30_v18, process.HLT_Ele8_CaloIdM_TrackIdM_PFJet30_v18, process.HLT_Ele17_CaloIdM_TrackIdM_PFJet30_v16, process.HLT_Ele23_CaloIdM_TrackIdM_PFJet30_v18, process.HLT_Ele50_CaloIdVT_GsfTrkIdT_PFJet165_v18, process.HLT_Ele115_CaloIdVT_GsfTrkIdT_v14, process.HLT_Ele135_CaloIdVT_GsfTrkIdT_v7, process.HLT_Ele145_CaloIdVT_GsfTrkIdT_v8, process.HLT_Ele200_CaloIdVT_GsfTrkIdT_v8, process.HLT_Ele250_CaloIdVT_GsfTrkIdT_v13, process.HLT_Ele300_CaloIdVT_GsfTrkIdT_v13, process.HLT_PFHT330PT30_QuadPFJet_75_60_45_40_TriplePFBTagDeepCSV_4p5_v3, process.HLT_PFHT330PT30_QuadPFJet_75_60_45_40_v9, process.HLT_PFHT400_SixPFJet32_DoublePFBTagDeepCSV_2p94_v8, process.HLT_PFHT400_SixPFJet32_v8, process.HLT_PFHT450_SixPFJet36_PFBTagDeepCSV_1p59_v7, process.HLT_PFHT450_SixPFJet36_v7, process.HLT_PFHT400_FivePFJet_100_100_60_30_30_v8, process.HLT_PFHT400_FivePFJet_100_100_60_30_30_DoublePFBTagDeepCSV_4p5_v8, process.HLT_PFHT400_FivePFJet_120_120_60_30_30_DoublePFBTagDeepCSV_4p5_v8, process.HLT_PFHT350_v19, process.HLT_PFHT350MinPFJet15_v9, process.HLT_Photon60_R9Id90_CaloIdL_IsoL_v5, process.HLT_Photon60_R9Id90_CaloIdL_IsoL_DisplacedIdL_v5, process.HLT_Photon60_R9Id90_CaloIdL_IsoL_DisplacedIdL_PFHT350MinPFJet15_v11, process.HLT_ECALHT800_v10, process.HLT_DiSC30_18_EIso_AND_HE_Mass70_v13, process.HLT_Physics_v7, process.HLT_Physics_part0_v7, process.HLT_Physics_part1_v7, process.HLT_Physics_part2_v7, process.HLT_Physics_part3_v7, process.HLT_Physics_part4_v7, process.HLT_Physics_part5_v7, process.HLT_Physics_part6_v7, process.HLT_Physics_part7_v7, process.DST_Physics_v7, process.HLT_Random_v3, process.HLT_ZeroBias_v6, process.HLT_ZeroBias_Alignment_v1, process.HLT_ZeroBias_part0_v6, process.HLT_ZeroBias_part1_v6, process.HLT_ZeroBias_part2_v6, process.HLT_ZeroBias_part3_v6, process.HLT_ZeroBias_part4_v6, process.HLT_ZeroBias_part5_v6, process.HLT_ZeroBias_part6_v6, process.HLT_ZeroBias_part7_v6, process.DST_ZeroBias_v2, process.DST_Run3_PFScoutingPixelTracking_v16, process.HLT_AK4CaloJet30_v11, process.HLT_AK4CaloJet40_v10, process.HLT_AK4CaloJet50_v10, process.HLT_AK4CaloJet80_v10, process.HLT_AK4CaloJet100_v10, process.HLT_AK4CaloJet120_v9, process.HLT_AK4PFJet30_v19, process.HLT_AK4PFJet50_v19, process.HLT_AK4PFJet80_v19, process.HLT_AK4PFJet100_v19, process.HLT_AK4PFJet120_v18, process.HLT_SinglePhoton10_Eta3p1ForPPRef_v8, process.HLT_SinglePhoton20_Eta3p1ForPPRef_v9, process.HLT_SinglePhoton30_Eta3p1ForPPRef_v9, process.HLT_Photon20_HoverELoose_v10, process.HLT_Photon30_HoverELoose_v10, process.HLT_EcalCalibration_v4, process.HLT_HcalCalibration_v5, process.AlCa_EcalPhiSym_v9, process.HLT_L1UnpairedBunchBptxMinus_v2, process.HLT_L1UnpairedBunchBptxPlus_v2, process.HLT_L1NotBptxOR_v3, process.HLT_L1_CDC_SingleMu_3_er1p2_TOP120_DPHI2p618_3p142_v2, process.HLT_CDC_L2cosmic_10_er1p0_v1, process.HLT_CDC_L2cosmic_5p5_er1p0_v1, process.HLT_HcalNZS_v13, process.HLT_HcalPhiSym_v15, process.HLT_HcalIsolatedbunch_v5, process.HLT_IsoTrackHB_v4, process.HLT_IsoTrackHE_v4, process.HLT_ZeroBias_FirstCollisionAfterAbortGap_v5, process.HLT_ZeroBias_IsolatedBunches_v5, process.HLT_ZeroBias_FirstCollisionInTrain_v4, process.HLT_ZeroBias_LastCollisionInTrain_v3, process.HLT_ZeroBias_FirstBXAfterTrain_v3, process.AlCa_RPCMuonNormalisation_v13, process.AlCa_LumiPixelsCounts_Random_v2, process.AlCa_LumiPixelsCounts_ZeroBias_v2, process.MC_ReducedIterativeTracking_v12, process.MC_PFMET_v17, process.MC_AK4PFJets_v17, process.MC_PFBTagDeepCSV_v10, process.MC_PFHT_v16, process.MC_PFMHT_v16, process.MC_CaloMET_v8, process.MC_CaloMET_JetIdCleaned_v9, process.MC_AK4CaloJets_v9, process.MC_CaloBTagDeepCSV_v8, process.MC_CaloHT_v8, process.MC_CaloMHT_v8, process.MC_AK8PFJets_v17, process.MC_AK8TrimPFJets_v17, process.MC_AK8PFHT_v16, process.MC_AK8CaloHT_v8, process.MC_Diphoton10_10_R9Id_OR_IsoCaloId_AND_HE_R9Id_Mass10_v13, process.MC_DoubleEle5_CaloIdL_MW_v15, process.MC_Ele5_WPTight_Gsf_v8, process.MC_Ele15_Ele10_CaloIdL_TrackIdL_IsoVL_DZ_v15, process.MC_IsoMu_v15, process.MC_DoubleMu_TrkIsoVVL_DZ_v11, process.MC_DoubleMuNoFiltersNoVtx_v7, process.AlCa_EcalPi0EBonly_v13, process.AlCa_EcalPi0EEonly_v13, process.AlCa_EcalEtaEBonly_v13, process.AlCa_EcalEtaEEonly_v13, process.HLT_IsoMu24_eta2p1_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_v12, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET90_v12, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET100_v12, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET110_v8, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET120_v8, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET130_v8, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_MET140_v3, process.HLT_MediumChargedIsoPFTau50_Trk30_eta2p1_1pr_v12, process.HLT_MediumChargedIsoPFTau180HighPtRelaxedIso_Trk50_eta2p1_1pr_v11, process.HLT_MediumChargedIsoPFTau180HighPtRelaxedIso_Trk50_eta2p1_v12, process.HLT_MediumChargedIsoPFTau200HighPtRelaxedIso_Trk50_eta2p1_v12, process.HLT_MediumChargedIsoPFTau220HighPtRelaxedIso_Trk50_eta2p1_v12, process.HLT_Ele16_Ele12_Ele8_CaloIdL_TrackIdL_v9, process.HLT_Rsq0p35_v15, process.HLT_Rsq0p40_v15, process.HLT_RsqMR300_Rsq0p09_MR200_v15, process.HLT_RsqMR320_Rsq0p09_MR200_v15, process.HLT_RsqMR300_Rsq0p09_MR200_4jet_v15, process.HLT_RsqMR320_Rsq0p09_MR200_4jet_v15, process.HLT_IsoMu27_MET90_v3, process.HLT_DoubleMediumChargedIsoPFTau35_Trk1_eta2p1_Reg_v12, process.HLT_DoubleMediumChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_v12, process.HLT_DoubleTightChargedIsoPFTau35_Trk1_eta2p1_Reg_v12, process.HLT_DoubleTightChargedIsoPFTau35_Trk1_TightID_eta2p1_Reg_v12, process.HLT_DoubleMediumChargedIsoPFTauHPS30_L1MaxMass_Trk1_eta2p1_Reg_v1, process.HLT_DoubleTightChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_v1, process.HLT_DoubleMediumChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_v1, process.HLT_DoubleMediumChargedIsoPFTauHPS35_Trk1_eta2p1_Reg_v4, process.HLT_DoubleTightChargedIsoPFTauHPS35_Trk1_TightID_eta2p1_Reg_v1, process.HLT_DoubleMediumChargedIsoPFTauHPS40_Trk1_eta2p1_Reg_v1, process.HLT_DoubleTightChargedIsoPFTauHPS40_Trk1_eta2p1_Reg_v1, process.HLT_DoubleMediumChargedIsoPFTauHPS40_Trk1_TightID_eta2p1_Reg_v1, process.HLT_DoubleTightChargedIsoPFTauHPS40_Trk1_TightID_eta2p1_Reg_v1, process.HLT_VBF_DoubleLooseChargedIsoPFTau20_Trk1_eta2p1_v3, process.HLT_VBF_DoubleLooseChargedIsoPFTauHPS20_Trk1_eta2p1_v1, process.HLT_VBF_DoubleMediumChargedIsoPFTauHPS20_Trk1_eta2p1_v1, process.HLT_VBF_DoubleTightChargedIsoPFTauHPS20_Trk1_eta2p1_v1, process.HLT_Photon50_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ300DEta3_PFMET50_v5, process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ300DEta3_v5, process.HLT_Photon75_R9Id90_HE10_IsoM_EBOnly_PFJetsMJJ600DEta3_v5, process.HLT_PFMET100_PFMHT100_IDTight_PFHT60_v9, process.HLT_PFMETNoMu100_PFMHTNoMu100_IDTight_PFHT60_v9, process.HLT_PFMETTypeOne100_PFMHT100_IDTight_PFHT60_v9, process.HLT_Mu18_Mu9_SameSign_v4, process.HLT_Mu18_Mu9_SameSign_DZ_v4, process.HLT_Mu18_Mu9_v4, process.HLT_Mu18_Mu9_DZ_v4, process.HLT_Mu20_Mu10_SameSign_v4, process.HLT_Mu20_Mu10_SameSign_DZ_v4, process.HLT_Mu20_Mu10_v4, process.HLT_Mu20_Mu10_DZ_v4, process.HLT_Mu23_Mu12_SameSign_v4, process.HLT_Mu23_Mu12_SameSign_DZ_v4, process.HLT_Mu23_Mu12_v4, process.HLT_Mu23_Mu12_DZ_v4, process.HLT_DoubleMu2_Jpsi_DoubleTrk1_Phi1p05_v6, process.HLT_DoubleMu2_Jpsi_DoubleTkMu0_Phi_v5, process.HLT_DoubleMu3_DCA_PFMET50_PFMHT60_v10, process.HLT_TripleMu_5_3_3_Mass3p8_DCA_v3, process.HLT_QuadPFJet98_83_71_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet103_88_75_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet111_90_80_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet98_83_71_15_PFBTagDeepCSV_1p3_VBF2_v8, process.HLT_QuadPFJet103_88_75_15_PFBTagDeepCSV_1p3_VBF2_v8, process.HLT_QuadPFJet105_88_76_15_PFBTagDeepCSV_1p3_VBF2_v8, process.HLT_QuadPFJet111_90_80_15_PFBTagDeepCSV_1p3_VBF2_v8, process.HLT_QuadPFJet98_83_71_15_v5, process.HLT_QuadPFJet103_88_75_15_v5, process.HLT_QuadPFJet105_88_76_15_v5, process.HLT_QuadPFJet111_90_80_15_v5, process.HLT_AK8PFJet330_TrimMass30_PFAK8BTagDeepCSV_p17_v2, process.HLT_AK8PFJet330_TrimMass30_PFAK8BTagDeepCSV_p1_v2, process.HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_p02_v3, process.HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_np2_v2, process.HLT_AK8PFJet330_TrimMass30_PFAK8BoostedDoubleB_np4_v2, process.HLT_Diphoton30_18_R9IdL_AND_HE_AND_IsoCaloId_NoPixelVeto_Mass55_v2, process.HLT_Diphoton30_18_R9IdL_AND_HE_AND_IsoCaloId_NoPixelVeto_v2, process.HLT_Mu12_IP6_ToCSCS_v1, process.HLT_Mu12_IP6_part0_v2, process.HLT_Mu12_IP6_part1_v2, process.HLT_Mu12_IP6_part2_v2, process.HLT_Mu12_IP6_part3_v2, process.HLT_Mu12_IP6_part4_v2, process.HLT_Mu9_IP5_ToCSCS_v1, process.HLT_Mu9_IP5_part0_v2, process.HLT_Mu9_IP5_part1_v2, process.HLT_Mu9_IP5_part2_v2, process.HLT_Mu9_IP5_part3_v2, process.HLT_Mu9_IP5_part4_v2, process.HLT_Mu7_IP4_ToCSCS_v1, process.HLT_Mu7_IP4_part0_v2, process.HLT_Mu7_IP4_part1_v2, process.HLT_Mu7_IP4_part2_v2, process.HLT_Mu7_IP4_part3_v2, process.HLT_Mu7_IP4_part4_v2, process.HLT_Mu9_IP4_ToCSCS_v1, process.HLT_Mu9_IP4_part0_v2, process.HLT_Mu9_IP4_part1_v2, process.HLT_Mu9_IP4_part2_v2, process.HLT_Mu9_IP4_part3_v2, process.HLT_Mu9_IP4_part4_v2, process.HLT_Mu8_IP5_ToCSCS_v1, process.HLT_Mu8_IP5_part0_v2, process.HLT_Mu8_IP5_part1_v2, process.HLT_Mu8_IP5_part2_v2, process.HLT_Mu8_IP5_part3_v2, process.HLT_Mu8_IP5_part4_v2, process.HLT_Mu8_IP6_ToCSCS_v1, process.HLT_Mu8_IP6_part0_v2, process.HLT_Mu8_IP6_part1_v2, process.HLT_Mu8_IP6_part2_v2, process.HLT_Mu8_IP6_part3_v2, process.HLT_Mu8_IP6_part4_v2, process.HLT_Mu9_IP6_ToCSCS_v1, process.HLT_Mu9_IP6_part0_v3, process.HLT_Mu9_IP6_part1_v3, process.HLT_Mu9_IP6_part2_v3, process.HLT_Mu9_IP6_part3_v3, process.HLT_Mu9_IP6_part4_v3, process.HLT_Mu8_IP3_ToCSCS_v1, process.HLT_Mu8_IP3_part0_v3, process.HLT_Mu8_IP3_part1_v3, process.HLT_Mu8_IP3_part2_v3, process.HLT_Mu8_IP3_part3_v3, process.HLT_Mu8_IP3_part4_v3, process.HLT_Mu9_IP0_part0_v2, process.HLT_Mu9_IP3_part0_v2, process.HLT_QuadPFJet105_88_76_15_DoublePFBTagDeepCSV_1p3_7p7_VBF1_v8, process.HLT_TrkMu6NoFiltersNoVtx_v1, process.HLT_TrkMu16NoFiltersNoVtx_v1, process.HLT_DoubleTrkMu_16_6_NoFiltersNoVtx_v1, process.HLT_PPSMaxTracksPerArm1_v1, process.HLT_PPSMaxTracksPerRP4_v1, process.HLTriggerFinalPath, process.Status_OnCPU, process.Status_OnGPU, process.HLT_BTagMu_AK4DiJet20_Mu5_v13, process.HLT_BTagMu_AK4DiJet40_Mu5_v13, process.HLT_BTagMu_AK4DiJet70_Mu5_v13, process.HLT_BTagMu_AK4DiJet110_Mu5_v13, process.HLT_BTagMu_AK4DiJet170_Mu5_v12, process.HLT_BTagMu_AK4Jet300_Mu5_v12, process.HLT_BTagMu_AK8DiJet170_Mu5_v9, process.HLT_BTagMu_AK8Jet170_DoubleMu5_v2, process.HLT_BTagMu_AK8Jet300_Mu5_v12, process.MC_PFBTagDeepJet_v1, process.HLT_PFHT330PT30_QuadPFJet_75_60_45_40_TriplePFBTagDeepJet_4p5_v3, process.HLT_PFHT400_FivePFJet_100_100_60_30_30_DoublePFBTagDeepJet_4p5_v8, process.HLT_PFHT400_FivePFJet_120_120_60_30_30_DoublePFBTagDeepJet_4p5_v8, process.HLT_PFHT400_SixPFJet32_DoublePFBTagDeepJet_2p94_v8, process.HLT_PFHT450_SixPFJet36_PFBTagDeepJet_1p59_v7, process.HLT_QuadPFJet103_88_75_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet103_88_75_15_PFBTagDeepJet_1p3_VBF2_v8, process.HLT_QuadPFJet105_88_76_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet105_88_76_15_PFBTagDeepJet_1p3_VBF2_v8, process.HLT_QuadPFJet111_90_80_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet111_90_80_15_PFBTagDeepJet_1p3_VBF2_v8, process.HLT_QuadPFJet98_83_71_15_DoublePFBTagDeepJet_1p3_7p7_VBF1_v8, process.HLT_QuadPFJet98_83_71_15_PFBTagDeepJet_1p3_VBF2_v8, process.HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_DZ_PFDiJet30_PFBtagDeepJet_1p5_v1, process.MC_JetsMatchingPath, process.MC_CaloJetsMatchingPath, process.vtxMonitoringEndPath, process.analysisNTupleEndPath ])
| [
"sebastian.wuchterl@cern.ch"
] | sebastian.wuchterl@cern.ch |
af378187d383f4e600616fca71efb3c592c82019 | 61b1bf7e921ddc908dea24df3268b1aa7acaad08 | /Django/viewsetsAndRouters/vr/api/serializers.py | 895ad2d07a755adfb56aa4c453b80fe9a80ab6ac | [] | no_license | FMasnaga/MyBlogCodes | ed5660c9bbb18e88d9c510eb3cebefcffc6ab338 | 7d3fa3762f6774cb15561d92f495fd969c0303dd | refs/heads/master | 2022-11-27T15:19:56.001437 | 2019-10-03T11:03:41 | 2019-10-03T11:03:41 | 203,200,651 | 0 | 0 | null | 2022-11-22T04:12:38 | 2019-08-19T15:33:47 | Python | UTF-8 | Python | false | false | 234 | py | from rest_framework import serializers
from vr.models import Profile
class ProfileSerializer(serializers.ModelSerializer):
user = serializers.StringRelatedField()
class Meta:
model = Profile
fields = "__all__" | [
"mmasnaga@gmail.com"
] | mmasnaga@gmail.com |
54358ec564208cff69b8e0c543657236e4c5419f | 028a51a4fd7118c33396f5b4c0f3aa3f56a6c6ac | /theInheritance.py | 78a1321e8e4eca6d0b755f1ea66983efeb0d296b | [] | no_license | sidd2502/learning-python | 343ee712b6a1fe2d13a83ca1dac860e965fc37ce | f3c1443d8306c5e2da650026853d3dec7250aea7 | refs/heads/master | 2021-05-09T10:06:50.322457 | 2018-01-25T18:32:52 | 2018-01-25T18:32:52 | 118,951,602 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 705 | py | class Parent():
def __init__(self, surName, firstName):
self.surName = surName
self.firstName = firstName
def showdetail(self):
print("First name is:", self.firstName)
print("Sur name is:", self.surName)
billyCyrus = Parent("Cyrus", "Billy")
billyCyrus.showdetail()
class child (Parent):
def __init__(self, surName, firstName,numberOfToys):
Parent.__init__(self, surName, firstName)
self.numberOfToys = numberOfToys
def showdetail(self):
print("First name is:", self.firstName)
print("Sur name is:", self.surName)
print("Toys are:", self.numberOfToys)
mileCyrus = child("Cyrus","Mile", 5)
mileCyrus.showdetail()
| [
"siddharthj.dce@gmail.com"
] | siddharthj.dce@gmail.com |
25fc162a32a064435805350e835b68a86780e7df | bc0a71321b5fccd6f4c13ec0c76062ca6ed18fe6 | /venv/Scripts/pip-script.py | a883e8abea4a1471df4a4127ab4bd0410f28ae25 | [] | no_license | liangxioa/indev | fc95b567d8ddc97f7c80abaf86aa2fdae91bced1 | 334f126be5a6aebf6637c4b341e89a229c62f9cc | refs/heads/master | 2020-08-08T17:48:53.867256 | 2019-10-12T00:46:58 | 2019-10-12T00:46:58 | 213,644,553 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 388 | py | #!C:\python\indev\venv\Scripts\python.exe
# EASY-INSTALL-ENTRY-SCRIPT: 'pip==19.0.3','console_scripts','pip'
__requires__ = 'pip==19.0.3'
import re
import sys
from pkg_resources import load_entry_point
if __name__ == '__main__':
sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0])
sys.exit(
load_entry_point('pip==19.0.3', 'console_scripts', 'pip')()
)
| [
"804092147@qq.com"
] | 804092147@qq.com |
cb662f3f1ec68283494e7dd6ab627411ce475ddd | 4bd818bc9bd83ed39c9d48b0e4e4821a2b8c45d9 | /src/etherollapp/etheroll/customtoolbar.py | d31f906fb38e24b9465769aeaa3b7894757e17a9 | [
"MIT"
] | permissive | AndreMiras/EtherollApp | 8ef158e9e5886922bb56a42d836daa392e5d5f2e | 2ccc30fad736a6fee0cba8b99c521bee6ad13087 | refs/heads/develop | 2021-09-11T14:41:04.753290 | 2021-09-01T07:28:44 | 2021-09-01T07:28:44 | 125,426,260 | 59 | 29 | MIT | 2021-06-08T20:29:42 | 2018-03-15T21:07:28 | Python | UTF-8 | Python | false | false | 846 | py | from kivy.app import App
from kivy.clock import Clock
from kivymd.toolbar import Toolbar
from etherollapp.etheroll.ui_utils import load_kv_from_py
load_kv_from_py(__file__)
class CustomToolbar(Toolbar):
"""Toolbar with helper method for loading default/back buttons."""
def __init__(self, **kwargs):
super().__init__(**kwargs)
Clock.schedule_once(self.load_default_buttons)
def load_default_buttons(self, dt=None):
app = App.get_running_app()
self.left_action_items = [
['menu', lambda x: app.root.navigation.toggle_nav_drawer()]]
self.right_action_items = [[
'dots-vertical',
lambda x: app.root.navigation.toggle_nav_drawer()]]
def load_back_button(self, function):
self.left_action_items = [['arrow-left', lambda x: function()]]
| [
"andre.miras@gmail.com"
] | andre.miras@gmail.com |
267642d43a20837d7f965469f7e60a9a22e35ea3 | 934961d96068ccaea46a32022614d07fc65007e1 | /save_as_pb.py | dc617cb6b2d67aa65632efcde16c0513c08bb0c3 | [] | no_license | AshutoshSancheti/FaceNet | 5a92ceb624ed4c2b219c51eb80f65c344f52d9f1 | e75dab169db8991dee2f4251e53abbabeecd3c06 | refs/heads/master | 2020-03-30T04:07:45.612426 | 2018-11-20T09:54:28 | 2018-11-20T09:54:28 | 150,725,631 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 833 | py | import tensorflow as tf
meta_path = 'mobilenet_v2_checkpoints/my_model-1100.meta' # Your .meta file
with tf.Session() as sess:
# Restore the graph
saver = tf.train.import_meta_graph(meta_path)
tf.get_default_session().run(tf.global_variables_initializer())
tf.get_default_session().run(tf.local_variables_initializer())
# Load weights
saver.restore(sess,tf.train.latest_checkpoint('mobilenet_v2_checkpoints'))
# Output nodes
output_node_names =[n.name for n in tf.get_default_graph().as_graph_def().node]
#print (output_node_names)
# Freeze the graph
frozen_graph_def = tf.graph_util.convert_variables_to_constants(sess, sess.graph_def, output_node_names)
# Save the frozen graph
with open('faceNet_graph.pb', 'wb') as f:
f.write(frozen_graph_def.SerializeToString())
| [
"ashusancheti13@gmail.com"
] | ashusancheti13@gmail.com |
6b17b265a777bc0f99e7fc03867051e4f35588f9 | d4ad0fca089376759ff248e19e76be3c8498470d | /apps/__init__.py | cea904d1c561588670608b3371b1ef449206affa | [] | no_license | bestomato/showMongo | 8ab4abd570c0c6fdb054e45fecfdbf179fe625e4 | c1e94058f0df692cfeb5dd2545a7523ff3e88fca | refs/heads/master | 2020-05-17T04:56:55.181462 | 2017-07-24T01:57:54 | 2017-07-24T01:57:54 | 24,936,542 | 1 | 2 | null | 2014-11-27T07:17:41 | 2014-10-08T10:54:16 | null | UTF-8 | Python | false | false | 1,061 | py | #-*- conding:utf-8 -*-
import os
import sys
from settings import INSTALLED_APPS as _INSTALLED_APPS
# load app path into sys.path
def _app_path_load(dir_level_num=3):
app_root_path = os.path.abspath(__file__)
for i in xrange(0, dir_level_num):
app_root_path = os.path.dirname(app_root_path)
sys.path.append(app_root_path)
def pattern(prefix, handlers):
urls = []
for item in handlers:
try:
urlpattern = ('%s%s' % (prefix, item[0]), item[1], item[2])
except:
urlpattern = ('%s%s' % (prefix, item[0]), item[1])
urls.append(urlpattern)
return urls
# install app from settings
def _install_app():
urlpatterns = []
for item in _INSTALLED_APPS:
module = __import__('.'.join(['apps', item]), None, None, [item], 0)
try:
urlpatterns += pattern(module.prefix, module.urls)
except AttributeError:
raise ImportError("No module named %s"%item)
return urlpatterns
_app_path_load()
#router
urlpatterns = _install_app()
| [
"50481322@qq.com"
] | 50481322@qq.com |
653e892c9b0e8d7676e7419a4cd8223861cf33d8 | 4912cbd47c19c58d142e6833911d70f5ea037357 | /question_bank/reverse-string/reverse-string.py | c47284c0fefc2d681bb7e99d7485ae06dcaf5e97 | [
"Apache-2.0"
] | permissive | yatengLG/leetcode-python | a09a17cd9e60cafd9ff8ca9c068f5b70719c436f | 5d48aecb578c86d69835368fad3d9cc21961c226 | refs/heads/master | 2023-07-13T16:10:01.920716 | 2021-09-06T02:51:46 | 2021-09-06T02:51:46 | 286,969,109 | 13 | 6 | null | 2021-02-16T10:19:44 | 2020-08-12T09:13:02 | Python | UTF-8 | Python | false | false | 643 | py | # -*- coding: utf-8 -*-
# @Author : LG
"""
执行用时:36 ms, 在所有 Python3 提交中击败了98.98% 的用户
内存消耗:14.4 MB, 在所有 Python3 提交中击败了19.40% 的用户
解题思路:
双指针。分别指向列表首尾,然后交换指针指向元素
"""
class Solution:
def reverseString(self, s: List[str]) -> None:
"""
Do not return anything, modify s in-place instead.
"""
n = len(s)
l, r = 0, n-1 # 左右指针分别指向首尾
while r > l:
s[l], s[r] = s[r], s[l] # 交换元素
l += 1 # 移动指针
r -= 1 | [
"767624851@qq.com"
] | 767624851@qq.com |
c1a061af3784a826750cede4415f266434c69d61 | 939b09af0f1a4f55ba07deff06b7812540edc444 | /Chapter2-Python语法基础/2-3-变量.py | 7825931dd58ef288c030e8988f0586bcb6c09f38 | [] | no_license | zsalec/Python-Full-Stack-Free | 0a4f7209e0707df676a5fb9567134c4ae7ed6f29 | cf9055d7994f40beadfbb5bf16f82706f050e865 | refs/heads/master | 2023-03-09T10:04:18.536218 | 2021-02-25T10:11:05 | 2021-02-25T10:11:05 | 314,942,980 | 2 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,269 | py | """
# 主要内容
- 坚持写 Blog
- jupyter notebook 的用法
- 变量
- 跟 vi/vim 的编辑模式很像
"""
# 声明变量的三种格式
# 格式 1
s1 = 'I love Python'
# 格式 2
s1 = s2 = 'I love Python'
# 格式 3
s1, s2, s3 = 'I love Python', 'I love China', 'Thinking less, done more'
print('I love Python')
"""
# 变量类型
- 严格意义上讲,Python 只有一种类型
- 标准数据类型六种
# 1. 数字 Number
# 2. 字符串 String
# 3. 列表 list
# 4. 元组 tuple
# 5. 字典 dict
# 6. 集合 set
"""
"""
# 数字类型 Number
- Python 中的数字类型没有大小限制
# 常见数字分类
- 整数
- 没有小数部分
- 包含正数,负数,0
- 二进制
- 只有 0 1
- 以 0b 开头的 01 串
- 例如:
- 0b110
- 0b11110
- 八进制
- 以 0o 开头的 0 到 7 之间的数字串
- 例如:
- 0o71
- 十六进制
- 以 0x开头,由 0-9, a-f 构成的串
- 浮点数
- 科学计数法
- 复数 Complex
"""
# 二进制
a1 = 0b110
print(a1) # 6
a2 = 0b1110
print(a2) # 30
# 八进制
a3 = 0o71
print(a3) # 57
# 十六进制
a4 = 0xffff
print(a4) # 65535
a5 = 0x53f2
print(a5) # 21490
a5 = 0x83f2
print(a5) # 33778
| [
"zs_alec@163.com"
] | zs_alec@163.com |
742563e6e5c8b80fb2370d0efff845ea3de25328 | 0ca9e70119bbb5f69d385809817ab2d7bc9f447e | /PropertyDeals/Accounts/views.py | 8fc3a6919a38c18831ed6af6f2f6d54daf5168f0 | [] | no_license | umerk4466/Investment-Property-Deals | bb4696ac78e38fcd0fbc26f234a2413b0a26358a | 6cb93f8d1bd01d936cb6382c1b06b10448a868a4 | refs/heads/main | 2023-04-02T12:26:03.214316 | 2021-04-08T15:45:35 | 2021-04-08T15:45:35 | 336,414,985 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,570 | py | from django.shortcuts import render, redirect
from .forms import InvestorSignup, DealSourcerSignup
from .models import User, DealSourcer, Profile
# Create your views here.
def investor_signup(request):
if request.method == 'POST':
form = InvestorSignup(request.POST)
if form.is_valid():
form.save()
user = User.objects.get(username=form.cleaned_data.get('username'))
user.user_type = 1 # 1:Investor, 2:Deal sorcer, 3:Admin, 4:Super admin
user.save()
return redirect('login')
else:
form = InvestorSignup()
return render(request, 'Accounts/investor_signup.html', {'form': form})
def deal_sourcer_signup(request):
if request.method == 'POST':
form = DealSourcerSignup(request.POST)
post_code = request.POST.get('post_code')
if form.is_valid():
form.save()
user = User.objects.get(username=form.cleaned_data.get('username'))
user.user_type = 2 # 1:Investor, 2:Deal sorcer, 3:Admin, 4:Super admin
user.save()
# add post_code to user profile
user_profile = Profile.objects.get(user=user)
user_profile.post_code = post_code
user_profile.save()
# create DealSourcer model's object
deal_sourcer = DealSourcer.objects.create(user=user)
deal_sourcer.save()
return redirect('login')
else:
form = DealSourcerSignup()
return render(request, 'Accounts/deal_sourcer_signup.html', {'form': form}) | [
"umerk4466@gmail.com"
] | umerk4466@gmail.com |
9848cbcc79703b08c9c0e9ee9bbbd69fb4c86624 | b7add0d1b1effc50b27d3316fa5889a5227e5b19 | /Atlasbuggy/atlasbuggy/files/videofile.py | 205f824be3d6e10d3c1e8934bf447a376387c7fd | [] | no_license | Woz4tetra/Atlas | efb83a7c7b2698bf8b36b023f7aa573cc38284f6 | c7380868a9efef9d1594ed7aa87187f03a7e4612 | refs/heads/master | 2020-04-04T06:25:50.657631 | 2017-04-05T01:53:15 | 2017-04-05T01:53:15 | 50,269,756 | 3 | 1 | null | null | null | null | UTF-8 | Python | false | false | 7,588 | py | import cv2
import time
from atlasbuggy.files.atlasbuggyfile import AtlasWriteFile, AtlasReadFile
from atlasbuggy.files.logfile import default_log_dir_name, default_log_file_name
class VideoPlayer:
def __init__(self, video_name, video_dir, window_name, capture, width=None, height=None, frame_skip=0,
loop_video=False, start_frame=0, slider_callback=None):
video_name, video_dir = AtlasReadFile.format_path_as_time(video_name, video_dir, default_log_dir_name,
default_log_file_name)
self.read_file = AtlasReadFile(video_name, video_dir, False, ("avi", "mov"), "videos")
self.window_name = window_name
self.frame = None
self.current_frame_num = 0
self.current_time = 0.0
self.capture = capture
self.cv_capture = cv2.VideoCapture(self.full_path)
cv2.namedWindow(self.window_name)
self.fps = self.cv_capture.get(cv2.CAP_PROP_FPS)
self.num_frames = int(self.cv_capture.get(cv2.CAP_PROP_FRAME_COUNT))
if self.num_frames <= 0:
raise FileNotFoundError("Video failed to load!")
self.length_sec = self.num_frames / self.fps
self.length_msec = int(self.length_sec * 1000)
self.slider_pos = 0
self.slider_ticks = int(self.cv_capture.get(cv2.CAP_PROP_FRAME_WIDTH) // 3)
if self.slider_ticks > self.num_frames:
self.slider_ticks = self.num_frames
self.track_bar_name = "frame:"
cv2.createTrackbar(self.track_bar_name, self.window_name, 0, self.slider_ticks,
self.on_slider)
self.slider_callback = slider_callback
self.width = int(self.cv_capture.get(cv2.CAP_PROP_FRAME_WIDTH))
self.height = int(self.cv_capture.get(cv2.CAP_PROP_FRAME_HEIGHT))
self.resize_frame = False
if width is None:
self.resize_width = self.width
else:
self.resize_width = width
self.resize_frame = True
if height is None:
self.resize_height = self.height
else:
self.resize_height = height
self.resize_frame = True
self.frame_skip = frame_skip
self.loop_video = loop_video
if start_frame > 0:
self.set_frame(start_frame)
self.sync_up_error = 0.01
def video_len(self):
return self.num_frames
def current_pos(self):
return int(self.cv_capture.get(cv2.CAP_PROP_POS_FRAMES))
def on_slider(self, slider_index):
slider_pos = int(slider_index * self.video_len() / self.slider_ticks)
if abs(slider_pos - self.current_pos()) > 1:
self.set_frame(slider_pos)
self.capture.show_frame(self.get_frame())
self.current_frame_num = self.current_pos()
self.slider_pos = slider_index
if self.slider_callback is not None:
self.slider_callback()
def set_frame(self, position):
if position >= self.video_len():
position = self.video_len()
if position >= 0:
self.cv_capture.set(cv2.CAP_PROP_POS_FRAMES, int(position))
def get_frame(self, current_time=None, advance_frame=True):
if current_time is not None:
self.current_time = self.current_pos() * self.length_sec / self.num_frames
if abs(current_time - self.current_time) > self.sync_up_error:
goal_frame = int(current_time * self.num_frames / self.length_sec)
self.set_frame(goal_frame)
return self.get_frame()
if self.frame_skip > 0:
self.set_frame(self.current_pos() + self.frame_skip)
success, self.frame = self.cv_capture.read()
if not advance_frame:
self.set_frame(self.current_pos() - 1)
if not success or self.frame is None:
if self.loop_video:
self.set_frame(0)
while success is False or self.frame is None:
success, self.frame = self.cv_capture.read()
else:
self.close()
return None
if self.resize_frame:
self.frame = cv2.resize(self.frame,
(self.resize_width, self.resize_height),
interpolation=cv2.INTER_NEAREST)
if self.current_pos() != self.current_frame_num:
self.current_frame_num = self.current_pos()
self.slider_pos = int(self.current_frame_num * self.slider_ticks / self.video_len())
cv2.setTrackbarPos(self.track_bar_name, self.window_name, self.slider_pos)
return self.frame
def close(self):
cv2.destroyWindow(self.window_name)
class VideoRecorder(AtlasWriteFile):
def __init__(self, video_name, video_dir, width, height, enable_recording, capture, cam_number, cv_capture):
super(VideoRecorder, self).__init__(video_name, video_dir, False, "avi", "videos")
if cv_capture is not None:
self.cv_capture = cv_capture
elif cam_number is not None:
self.cv_capture = cv2.VideoCapture(cam_number)
else:
raise ValueError("Capture number or capture instance not supplied!")
print("Sampling for FPS...", end="")
time0 = time.time()
samples = 15
for frame_num in range(samples):
success, self.frame = self.cv_capture.read()
if not success:
raise FileNotFoundError("Failed to retrieve from camera")
capture.show_frame(self.frame)
fps = samples / (time.time() - time0)
print("done: ", fps)
self.enable_recording = enable_recording
self.width = width
self.height = height
if width is not None:
self.recorder_width = width
self.width = width
else:
self.recorder_width = self.frame.shape[1]
self.width = self.frame.shape[1]
if height is not None:
self.recorder_height = height
self.height = height
else:
self.recorder_height = self.frame.shape[0]
self.height = self.frame.shape[0]
self.resize_frame = self.frame.shape[0:2] != (self.height, self.width)
if self.enable_recording:
codec = 'MJPG'
fourcc = cv2.VideoWriter_fourcc(*codec)
self.video = cv2.VideoWriter()
self.video.open(self.full_path, fourcc, fps, (self.recorder_width, self.recorder_height), True)
self._is_open = True
print("Writing video to:", self.full_path)
else:
self.video = None
def write(self, frame):
if frame.shape[0:2] != (self.recorder_height, self.recorder_width):
frame = cv2.resize(frame, (self.recorder_height, self.recorder_width))
if len(frame.shape) == 2:
self.video.write(cv2.cvtColor(frame, cv2.COLOR_GRAY2BGR))
else:
self.video.write(frame)
def get_frame(self):
success, self.frame = self.cv_capture.read()
if self.resize_frame and self.frame.shape[0:2] != (self.height, self.width):
self.frame = cv2.resize(self.frame, (self.width, self.height))
if self.enable_recording:
self.write(self.frame)
return self.frame
def close(self):
if self._is_open:
self.video.release()
self._is_open = False
print("Wrote video to:", self.full_path)
| [
"woz4tetra@gmail.com"
] | woz4tetra@gmail.com |
90956aeffa8957e9ba1fd7628a4d3623d503c407 | 4ccafcdedc87262b76f61b4a04b458e083d27305 | /pb de planificare/planificare.py | 74577544f6fa7a73124b7a1d7d84609b2f05798f | [] | no_license | mihaela-nichita/DAI | cf313228d6dd5712366ca1595bed374e3b67e579 | 823cc8958f83681f7b62a650e01a572f35620bad | refs/heads/master | 2020-04-26T02:39:51.027845 | 2019-04-22T08:36:18 | 2019-04-22T08:36:18 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 4,249 | py | from collections import namedtuple
Nod = namedtuple("Nod", ['stare', 'actiuni', 'd', 'g', 'h', 'f'])
Stare = namedtuple('Stare',['poz_rob','pe_cutie', 'poz_cutii','lumini'])
DA='DA'
NU='NU'
def opUrcare(s):
if s.pe_cutie == NU:
return
camere = [1,2,3]
if s.poz_rob != None:
camere = [s.poz_rob]
preds = []
for cam in camere:
cutii = s.poz_cutii[:]
cutii[cam-1] = DA
s_pred = Stare(cam,NU,cutii,s.lumini[:])
preds.append((s_pred,f"Urcare pe cutie in camera {cam}"))
return preds
def opCoboara(s):
if s.pe_cutie == DA:
return
camere =[e for e in [1,2,3] if s.poz_cutii[e-1] in [DA,None]]
if s.poz_rob != None:
camere = [s.poz_rob]
preds = []
for cam in camere:
cutii = s.poz_cutii[:]
cutii[cam-1] = DA
s_pred = Stare(cam,DA,cutii,s.lumini[:])
preds.append((s_pred,f"Coborare de pe cutie in camera {cam}"))
return preds
def opDeplasare(s):
if s.pe_cutie == DA:
return
camere = [1,2,3]
if s.poz_rob != None:
camere = [s.poz_rob]
preds = []
for cam in camere:
camere_pred = [e for e in [1,2,3] if e!=cam]
s_pred1 = Stare(camere_pred[0],NU,s.poz_cutii[:],s.lumini[:])
s_pred2 = Stare(camere_pred[1],NU,s.poz_cutii[:],s.lumini[:])
preds.append((s_pred1,f"Deplasare din camera {camere_pred[0]} in camera {cam}"))
preds.append((s_pred2,f"Deplasare din camera {camere_pred[1]} in camera {cam}"))
return preds
def opMutaCutia(s):
if s.pe_cutie == DA:
return
camere = [e for e in [1,2,3] if s.poz_cutii[e-1] in [None,DA]]
if s.poz_rob != None:
camere = [s.poz_rob]
preds = []
for cam in camere:
poz_cutii = s.poz_cutii[:]
poz_cutii[cam-1] = NU
s_pred = Stare(cam,NU,poz_cutii[:],s.lumini[:])
preds.append((s_pred,f"Mutare cutie langa intrerupator in camera {cam}"))
return preds
def opLuminare(s):
if s.pe_cutie == NU:
return
camere = [e for e in [1,2,3] if s.poz_cutii[e-1] in [None,DA] and s.lumini[e-1] in [None,DA]]
if s.poz_rob != None:
camere = [s.poz_rob]
preds = []
for cam in camere:
lumini = s.lumini[:]
lumini[cam-1] = NU
s_pred = Stare(cam,DA,s.poz_cutii[:],lumini[:])
preds.append((s_pred,f"Luminare camera {cam}"))
return preds
def exp(stare):
stari=[]
ol=opLuminare(stare)
if ol != None:
stari.extend(ol)
od=opDeplasare(stare)
if od != None:
stari.extend(od)
ou=opUrcare(stare)
if ou != None:
stari.extend(ou)
oc=opCoboara(stare)
if oc != None:
stari.extend(oc)
om=opMutaCutia(stare)
if om != None:
stari.extend(om)
return stari
def sect_dupa_largime(frontiera):
nod = frontiera[0]
del frontiera[0]
return nod
def camp_inclus(camp1, camp2):
return camp2 == None or camp1==camp2 or camp1==None
def lst_inclus(lst1, lst2):
for i in range(len(lst1)):
if not camp_inclus(lst1[i], lst2[i]):
return False
return True
def stare_inclus(s1, s2):
for i in range(len(s1)):
if (type(s1[i]) is list):
if (not lst_inclus(s1[i], s2[i])):
return False
else:
if (not camp_inclus(s1[i], s2[i])):
return False
return True
def cautare(nod_init, sf, sect_dupa):
front = [nod_init]
noduri_expandate = []
count=0
while len(front)>0:
nod = sect_dupa(front)
if nod not in noduri_expandate:
noduri_expandate.append(nod)
count+=1
if stare_inclus(nod.stare,sf) == True:
print (f'Solutia data in {count} pasi este: {nod.actiuni}')
return
stari_urmatoare = exp(nod.stare)
for s,actiune in stari_urmatoare:
if s not in (e.stare for e in noduri_expandate):
g=nod.g+1
nod_next = Nod(s, (actiune,) + nod.actiuni, nod.d+1,g, 0, 0)
front.append(nod_next)
si = Stare(2,NU,[DA,None,NU],[None,NU,DA])
sf = Stare(1,DA,[DA,None,DA],[DA,DA,None])
nod_initial = Nod(sf, (), 0, 0, 0, 0)
cautare(nod_initial,si,sect_dupa_largime)
| [
"40822291+MihaelaNichita@users.noreply.github.com"
] | 40822291+MihaelaNichita@users.noreply.github.com |
b0fe4b6f20442f6ba76f885dbb49a445c8df729a | f07a42f652f46106dee4749277d41c302e2b7406 | /Data Set/bug-fixing-5/d59101416366fa8d50bd2d8218e772b2c6a8bd7f-<remove_from_device>-fix.py | 58894645341f61f607af0fa3f9de1bd569631b46 | [] | no_license | wsgan001/PyFPattern | e0fe06341cc5d51b3ad0fe29b84098d140ed54d1 | cc347e32745f99c0cd95e79a18ddacc4574d7faa | refs/heads/main | 2023-08-25T23:48:26.112133 | 2021-10-23T14:11:22 | 2021-10-23T14:11:22 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 673 | py | def remove_from_device(self):
name = self.want.name
if self.want.parent_policy:
uri = 'https://{0}:{1}/mgmt/tm/security/firewall/policy/{2}/rules/{3}'.format(self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_policy), name.replace('/', '_'))
else:
uri = 'https://{0}:{1}/mgmt/tm/security/firewall/rule-list/{2}/rules/{3}'.format(self.client.provider['server'], self.client.provider['server_port'], transform_name(self.want.partition, self.want.parent_rule_list), name.replace('/', '_'))
resp = self.client.api.delete(uri)
if (resp.status == 200):
return True | [
"dg1732004@smail.nju.edu.cn"
] | dg1732004@smail.nju.edu.cn |
669a2e4701f8645fc4b2cd4655b0d0d25f043f02 | 539721a0fa156a8195e2e80d45f032a78197767e | /elements/python/8/17/soln.py | a2f2df54f07d95534a513a4d7f10831310975c19 | [
"MIT"
] | permissive | mmcloughlin/problems | d03300f3f7e4a50881af8f137274d6bb9fd4cb2f | 6095842ffe007a12ec8c2093850515aa4e046616 | refs/heads/master | 2022-01-12T09:23:24.356430 | 2019-06-13T01:04:09 | 2019-06-13T01:04:09 | 58,326,556 | 11 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,447 | py | import random
class Node(object):
def __init__(self, x, nxt):
self.x = x
self.next = nxt
def pivot(n, k):
heads = [None]*3
tails = [None]*3
# build sections independently
while n is not None:
i = 1+cmp(n.x, k)
if heads[i] is None:
heads[i] = n
if tails[i] is not None:
tails[i].next = n
tails[i] = n
n.next, n = None, n.next
# stitch them up
head = None
tail = None
for i, h in enumerate(heads):
if h is not None:
head = h
tail = tails[i]
break
for j in xrange(i+1, 3):
if heads[j] is None:
continue
tail.next = heads[j]
tail = tails[j]
return head
def to_list(n):
"""
to_list converts the linked list n to a list.
"""
L = []
while n is not None:
L.append(n.x)
n = n.next
return L
def from_list(L):
"""
from_list builds a linked list from the given list.
"""
n = None
for i in xrange(len(L)-1, -1, -1):
n = Node(x=L[i], nxt=n)
return n
def display(n):
"""
display prints a view of the linked list.
"""
print ' -> '.join(map(str, to_list(n)))
def test():
L = [random.randrange(5) for _ in xrange(10)]
n = from_list(L)
display(n)
p = pivot(n, 2)
display(p)
def main():
test()
if __name__ == '__main__':
main()
| [
"mmcloughlin@gmail.com"
] | mmcloughlin@gmail.com |
ae0af1e4ee36986b50159982daa33a8f7311e4aa | aff9eaee65ec6af3ad492b92eba0c6d33fc888d9 | /raterprojectapi/migrations/0011_remove_game_action_pic.py | 13976918ecd7a3513c6476c3aaf9a879459cc6d3 | [] | no_license | jeaninebeckle/raterproject-server | dda9109748d8c6f70b16c2042248f72c04cecdbd | 97c3250fcf0d1f54876a918f27adec47e1fd1d9d | refs/heads/main | 2023-03-04T06:44:56.612921 | 2021-02-05T02:00:57 | 2021-02-05T02:00:57 | 313,794,566 | 0 | 0 | null | 2021-02-05T02:00:59 | 2020-11-18T01:56:32 | Python | UTF-8 | Python | false | false | 338 | py | # Generated by Django 3.1.3 on 2021-01-22 02:43
from django.db import migrations
class Migration(migrations.Migration):
dependencies = [
('raterprojectapi', '0010_auto_20210122_0242'),
]
operations = [
migrations.RemoveField(
model_name='game',
name='action_pic',
),
]
| [
"jeaninebeckle@gmail.com"
] | jeaninebeckle@gmail.com |
7214fb12828ab45047e3c1d8bc3774a847769908 | 956bd34816d4075fa28d96725e7e53eb803f1799 | /core/migrations/0025_auto_20210417_0318.py | 130b465e5a8902770d1ace131fb754e504ab151d | [] | no_license | d4nieldev/ebaycalculator | f0d2b67df8ea0c5d9544f6c44ffa77bfd31e5e20 | acf705d8b8f0d5806ec6b926c9573b59590f8e5a | refs/heads/master | 2023-06-20T05:14:09.872690 | 2021-07-18T20:03:52 | 2021-07-18T20:03:52 | 342,599,404 | 2 | 0 | null | null | null | null | UTF-8 | Python | false | false | 433 | py | # Generated by Django 3.1.7 on 2021-04-17 00:18
from django.db import migrations
def set_default(apps, schema_editor):
Cost = apps.get_model('core', 'Cost')
for cost in Cost.objects.all():
cost.is_constant = True
cost.save()
class Migration(migrations.Migration):
dependencies = [
('core', '0024_auto_20210417_0310'),
]
operations = [
migrations.RunPython(set_default)
]
| [
"danielohayon2019@gmail.com"
] | danielohayon2019@gmail.com |
bdb483c20ea3101175cc2da86464a969387fdb36 | 402ce60f29a8304e94a91c7f57a373debc282525 | /newitjuzi/newitjuzi/helper/parser_helper.py | c865fa20014564c2a73a6a8e76ad4181ff2f4941 | [] | no_license | owengbs/koubeispider | ed1fd55b8f00025d9556abc5a5a32977a289c663 | aea3a3682befe1da6e9361a855b0fb548f0f896c | refs/heads/master | 2021-01-21T13:34:08.859887 | 2016-05-22T03:56:18 | 2016-05-22T03:56:18 | 53,579,992 | 0 | 1 | null | null | null | null | UTF-8 | Python | false | false | 4,675 | py | # -*- coding:utf-8 -*-
import cookielib
import random
import urllib2
import urlparse
from lxml import etree
from newitjuzi.db_handler.mysql_handler import DBHelper
from newitjuzi.models.funders_model import FuIndustry, FuPhase, FuArea
class ParserHelper():
scj = cookielib.CookieJar()
opener = urllib2.build_opener(urllib2.HTTPCookieProcessor(scj))
def __init__(self):
self.db_helper = DBHelper()
self.db_session = self.db_helper.get_session();
def init_db(self):
req_url = 'https://www.itjuzi.com/investevents'
tree = self._build_page_tree(req_url)
infos = tree.xpath('//ul[@class="ui-filterui"][1]')
lists = list()
lists = lists + self._parse_common_info(infos, 'scope')
lists = lists+ self._parse_common_info(infos, 'prov')
lists = lists + self._parse_common_info(infos, 'round')
#https://www.itjuzi.com/investevents/foreign
req_url = 'https://www.itjuzi.com/investevents/foreign'
tree = self._build_page_tree(req_url)
infos = tree.xpath('//ul[@class="ui-filterui"][1]')
lists = lists + self._parse_common_info(infos, 'prov')
self.db_helper.insert_data(lists)
def _build_page_tree(self, req_url):
ua = random.choice(self.user_agent_list)
if ua:
headers = {"User-agent": ua}
req = urllib2.Request(url=req_url, data=None, headers=headers)
page_result = self.opener.open(req)
page = unicode(page_result.read(), "utf-8")
page_tree = etree.HTML(page)
return page_tree
def _parse_common_info(self, infos, dic_key):
lists = list()
xpath_str='';
if dic_key == 'scope':
xpath_str = './li[1]/div/a'
elif dic_key == 'round':
xpath_str = './li[2]/div/a'
elif dic_key == 'prov':
xpath_str = './li[3]/div/a'
phase_section = infos[0].xpath(xpath_str)
for each in phase_section:
link = str(each.xpath("./@href")[0])
value = self.get_url_parameter(link, dic_key)
if value is None:
continue
desc = each.xpath("./text()")[0].encode('utf-8').strip()
if dic_key=='scope':
new_item = FuIndustry(industryId=int(value), name=desc)
elif dic_key=='round':
new_item = FuPhase(phaseid=int(value), name=desc)
elif dic_key =='prov':
new_item = FuArea(name=desc);
lists.append(new_item)
return lists
# to get parameter from url
@classmethod
def get_url_parameter(cls, req_url, key):
if len(req_url)==0:
return None
result = urlparse.urlparse(req_url)
qs_dict = urlparse.parse_qs(result.query, True)
if qs_dict.has_key(key):
return qs_dict[key][0]
else:
return None
def get_area_dict(self):
area_dict = dict()
lists = self.db_session.query(FuArea).filter().all()
for each in lists:
area_dict[each.name.strip()] = each.id
return area_dict
def get_phase_dict(self):
phase_dict = dict()
lists = self.db_session.query(FuPhase).filter().all()
for each in lists:
phase_dict[each.name.strip()] = each.phaseid
return phase_dict
def get_industry_dict(self):
phase_dict = dict()
lists = self.db_session.query(FuIndustry).filter().all()
for each in lists:
phase_dict[each.name.strip()] = each.industryId
return phase_dict
user_agent_list = [
"Mozilla/5.0 (Windows NT 6.1; WOW64) AppleWebKit/537.1",
"(KHTML, like Gecko) Chrome/22.0.1207.1 Safari/537.1",
"Mozilla/5.0 (X11; CrOS i686 2268.111.0) AppleWebKit/536.11",
"(KHTML, like Gecko) Chrome/20.0.1132.57 Safari/536.11",
"Mozilla/5.0 (Windows NT 6.1; WOW64) AppleWebKit/536.6",
"(KHTML, like Gecko) Chrome/20.0.1092.0 Safari/536.6",
"Mozilla/5.0 (Windows NT 6.2) AppleWebKit/536.6",
"(KHTML, like Gecko) Chrome/20.0.1090.0 Safari/536.6",
"Mozilla/5.0 (Windows NT 6.2; WOW64) AppleWebKit/537.1",
"(KHTML, like Gecko) Chrome/19.77.34.5 Safari/537.1",
"Mozilla/5.0 (X11; Linux x86_64) AppleWebKit/536.5 ",
"(KHTML, like Gecko) Chrome/19.0.1084.9 Safari/536.5",
"Mozilla/5.0 (Windows NT 6.0) AppleWebKit/536.5 ",
"(KHTML, like Gecko) Chrome/19.0.1084.36 Safari/536.5"
]
if __name__ == "__main__":
req_url = 'https://www.itjuzi.com/investevents'
parser = ParserHelper()
parser.init_db()
parser.get_phase_dict()
| [
"chenshaoqin@chenshaoqindeMacBook-Pro.local"
] | chenshaoqin@chenshaoqindeMacBook-Pro.local |
08b3051adaf303a2d19d7736a97fbe771d06b6ae | 80760d4c8a6b2c45b4b529bdd98d33c9c5509438 | /Practice/atcoder/ABC/130/src/d2.py | 82230a1e0cc7c786640ababca689faaaffcd8866 | [] | no_license | prrn-pg/Shojin | f1f46f8df932df0be90082b475ec02b52ddd882e | 3a20f1122d8bf7d95d9ecd205a62fc36168953d2 | refs/heads/master | 2022-12-30T22:26:41.020473 | 2020-10-17T13:53:52 | 2020-10-17T13:53:52 | 93,830,182 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 538 | py | # 尺取の練習と聞いて
n, k = map(int, input().split())
arr = list(map(int, input().split()))
ans = 0
r = 0
tmp_sum = 0
for l in range(n):
# 条件を満たすまで右端を伸ばす
while r < n and tmp_sum < k:
tmp_sum += arr[r]
r += 1
# whileを抜けた時は条件を満たしている
if r == n:
while tmp_sum >= k and l <= n:
tmp_sum -= arr[l]
ans += 1
l += 1
break
else:
ans += n - r + 1
tmp_sum -= arr[l]
print(ans)
| [
"h4l@yahoo.ne.jp"
] | h4l@yahoo.ne.jp |
f23d633a5d69aae619c2dab3c8bb97904d52a013 | 89607c2fb5fecc2bf94f410d1b9a83f51d1c82cf | /ProAlone/manage.py | 40e9c8c67b754bae00ef0d5c11764227b1dc9b53 | [] | no_license | niatro/django-deployment-example | 7bb8ccc134021d475d061aa8911d444d6f910219 | e2432d58cdd938abaebe9dc14cf1d2681e3261f0 | refs/heads/master | 2020-05-04T03:21:50.956418 | 2019-04-01T21:36:05 | 2019-04-01T21:36:05 | 178,945,316 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 540 | py | #!/usr/bin/env python
import os
import sys
if __name__ == '__main__':
os.environ.setdefault('DJANGO_SETTINGS_MODULE', 'ProAlone.settings')
try:
from django.core.management import execute_from_command_line
except ImportError as exc:
raise ImportError(
"Couldn't import Django. Are you sure it's installed and "
"available on your PYTHONPATH environment variable? Did you "
"forget to activate a virtual environment?"
) from exc
execute_from_command_line(sys.argv)
| [
"nicolas.sanhueza@gmail.com"
] | nicolas.sanhueza@gmail.com |
1af7f47f95544d80d7d801f40c729ada5bc0f594 | 99cefe56491f9872e5736d89407f26a41854bbb0 | /ch2_flow_control/swordfish.py | 0d0a9f40cf255fa5caeacb221bd119d816d51a38 | [] | no_license | scottwat86/Automate_Boring_Stuff_ | 416ad96d6c30fb4ff1036ad0ade18727dcddb669 | 81a87c1a1eea4405efe6ab91b7fe17c98b558602 | refs/heads/master | 2020-06-01T07:09:18.635781 | 2019-09-17T05:13:52 | 2019-09-17T05:13:52 | 190,692,907 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 327 | py | # CONTINUE - bypasses remaining loop to start another iteration
while True:
print('Who are you?')
name = input()
if name != 'Joe':
continue
print('Hello, Joe What is the password? (It is a fish.)')
password = input()
if password == 'swordfish':
break
print('Access granted.')
| [
"scottwat@gmail.com"
] | scottwat@gmail.com |
ac528187a330a1170469d7253b64bf4680d05ce3 | 9743d5fd24822f79c156ad112229e25adb9ed6f6 | /xai/brain/wordbase/verbs/_evaporating.py | c26673a9d07507032d353945f4ce1d7da9ede1af | [
"MIT"
] | permissive | cash2one/xai | de7adad1758f50dd6786bf0111e71a903f039b64 | e76f12c9f4dcf3ac1c7c08b0cc8844c0b0a104b6 | refs/heads/master | 2021-01-19T12:33:54.964379 | 2017-01-28T02:00:50 | 2017-01-28T02:00:50 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 261 | py |
from xai.brain.wordbase.verbs._evaporate import _EVAPORATE
#calss header
class _EVAPORATING(_EVAPORATE, ):
def __init__(self,):
_EVAPORATE.__init__(self)
self.name = "EVAPORATING"
self.specie = 'verbs'
self.basic = "evaporate"
self.jsondata = {}
| [
"xingwang1991@gmail.com"
] | xingwang1991@gmail.com |
7ac3108667a2fc73e496511aca4aa994b5413c18 | 9e988c0dfbea15cd23a3de860cb0c88c3dcdbd97 | /sdBs/AllRun/bps_cs22950-10/sdB_bps_cs22950-10_coadd.py | e98ff4ffa0393f2b27e60d204c16b04f0ab364d4 | [] | no_license | tboudreaux/SummerSTScICode | 73b2e5839b10c0bf733808f4316d34be91c5a3bd | 4dd1ffbb09e0a599257d21872f9d62b5420028b0 | refs/heads/master | 2021-01-20T18:07:44.723496 | 2016-08-08T16:49:53 | 2016-08-08T16:49:53 | 65,221,159 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 443 | py | from gPhoton.gMap import gMap
def main():
gMap(band="NUV", skypos=[304.840292,-15.674492], skyrange=[0.0333333333333,0.0333333333333], stepsz = 30., cntfile="/data2/fleming/GPHOTON_OUTPUT/LIGHTCURVES/sdBs/sdB_bps_cs22950-10/sdB_bps_cs22950-10_movie_count.fits", cntcoaddfile="/data2/fleming/GPHOTON_OUTPUT/LIGHTCURVES/sdB/sdB_bps_cs22950-10/sdB_bps_cs22950-10_count_coadd.fits", overwrite=True, verbose=3)
if __name__ == "__main__":
main()
| [
"thomas@boudreauxmail.com"
] | thomas@boudreauxmail.com |
04a50dc0e33be89b7e0b3dcf0a41fb02d629f963 | b0cdbad299f6174bfdb0fba173dbcf3889b82209 | /Object Oriented Programming/oops/exercise_4.py | 57620e40b0f7418b80594400b89402e36f343253 | [] | no_license | deesaw/PythonD-06 | a33e676f1e0cfc13b4ea645c8b60547b198239ac | 3c6f065d7be2e3e10cafb6cef79d6cae9d55a7fa | refs/heads/master | 2023-03-18T08:24:42.030935 | 2021-03-02T14:15:09 | 2021-03-02T14:15:09 | 343,797,605 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 864 | py | class Dog(object):
def speak(self):
print( "bhou..bhou" )
def guard(self):
print( "I am guarding your home" )
class Cat(object):
def speak(self):
print( "meau..meau" )
def hunt(self):
print( "I am hunting mice" )
class Dd(Dog):
def hobby(self):
print( "Biting" )
def guard(self):
print( "Guarding house" )
def oldguard(self):
super(Dd,self).guard()
ginger=Dd()
ginger.guard()
ginger.speak()
ginger.hobby()
ginger.oldguard()
print("*******************************************************")
class Doat(Cat,Dog):
def hobby(self):
print( "programming in python" )
def speak(self):print( "bhou..meau" )
def oldspeak(self):
super(Doat,self).speak()
ginger1=Doat()
ginger1.speak()
ginger1.guard()
ginger1.hunt()
ginger1.hobby()
ginger1.oldspeak()
| [
"69420960+deesaw@users.noreply.github.com"
] | 69420960+deesaw@users.noreply.github.com |
7d20d98c12ea94f4e4e819261357222abd48644a | 33e459a3366455dd86d24f28fcfc221c867b382d | /sort_by_bits_assign-4.py | c1fbcab9b950e31792e3b7c260212c671b71858e | [] | no_license | Pavanyeluri11/LeetCode-Problems-Python | 1a442dc53836b83ab5b9cbcd90fc8cb8195051e2 | caa11c68ab893b81477aef5034d371922dd25fa6 | refs/heads/main | 2023-08-23T10:28:48.271077 | 2021-10-20T04:54:57 | 2021-10-20T04:54:57 | 417,374,471 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 350 | py | def sortByBits(arr):
count_arr=[]
for i in arr:
count=0
while i:
count+=i%2
i= i//2
count_arr.append(count)
mapping = zip(arr,count_arr)
mapping.sort(key=lambda x: (x[1],x[0]))
#rint(mapping)
for i in range(len(arr)):
arr[i] = mapping[i][0]
return arr
| [
"noreply@github.com"
] | noreply@github.com |
a262c50ef90ef1952dd214f40a1100e7a5091acd | 58de9f5a2525965dd76812d096866b19b894a1b0 | /scripts/aizhan.py | 9e621f96590ad81ae51f8328aabddafe627bd2a4 | [] | no_license | benevolence-doctor/sunny_shell | ce8624f6ad4e9a471b703d2581e93e19b73c603c | b7baad9914eab802669d3fce0fb5081485549e59 | refs/heads/master | 2016-09-06T18:01:38.333400 | 2015-07-24T10:32:26 | 2015-07-24T10:32:26 | 39,625,712 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 778 | py | #!/usr/bin/python
# coding: utf-8
import re
import sys
import os
list_file = sys.argv[1]
def Get_Com_Name():
fd = open(list_file, 'r')
for line in fd.readlines():
line = ''.join(line.split())
cmd = 'curl -s http://icp.aizhan.com/%s > /dev/shm/site' % line
os.system(cmd)
fd1 = open('/dev/shm/site')
string = fd1.read()
if re.search(r'主办单位名称</td><td>', string):
words = re.search(r'主办单位名称</td><td>\W+<', string)
cmd = line + '\t\t\t\t\t\t\t' + words.group()[27:][:-1]
print cmd
else:
cmd = line + '\t\t\t\t\t\t\t' + 'unknown'
print cmd
pass
fd1.close()
fd.close()
print(Get_Com_Name())
| [
"benevolence_doctor@yeah.net"
] | benevolence_doctor@yeah.net |
2dec1c6a28efe617cceabacff2ce60b4f5b118b0 | fe7e5da08236379d47237657db35010496257e20 | /036/solution.py | 5c8ab3d1f784a5305c0e0de5a2bf2d06340df2ae | [] | no_license | cenalulu/python_euler_solver | 8c6cada32e8cb9eeb4b565d0f18d350f003187b2 | be94f51b25595d3436d5473d030a3ec49313fb7b | refs/heads/master | 2021-01-21T13:04:32.801703 | 2015-04-12T11:29:04 | 2015-04-12T11:29:04 | 28,670,479 | 0 | 1 | null | null | null | null | UTF-8 | Python | false | false | 1,087 | py | #! encoding: utf8
from profile_decorate import profile
"""
The decimal number, 585 = 10010010012 (binary), is palindromic in both bases.
Find the sum of all numbers, less than one million, which are palindromic in base 10 and base 2.
(Please note that the palindromic number, in either base, may not include leading zeros.)
"""
def palidromic_num(upper_limit=None):
current_value = 1
if upper_limit:
while current_value < upper_limit:
if str(current_value) == str(current_value)[::-1]:
yield current_value
current_value += 1
def is_binary_palidromic(v_now):
if str(bin(v_now))[2:] == str(bin(v_now))[2:][::-1]:
return True
else:
return False
@profile
def main():
UPPER_LIMIT = 1000000
palindromic_sum = 0
for i in palidromic_num(UPPER_LIMIT):
if is_binary_palidromic(i):
print "palindromic found {}".format(i)
palindromic_sum += i
print "sum of all palindromic in base 10 and 2 is {}".format(palindromic_sum)
if __name__ == '__main__':
main()
| [
"cenalulu@gmail.com"
] | cenalulu@gmail.com |
d28f93833de104995b112c67f309aeca3665e1a5 | 8e75f2ba056e5bd75647f1e3f9773e1015c0dd0e | /628_maximum_product_of_three_numbers.py | 9df4c2022f676107d77fa0ca3142287a66e826c7 | [] | no_license | eazow/leetcode | 96cbcba143ce04c6e83c5c985e19320f48c60b0d | c1c5ee72b8fe608b278ca20a58bc240fdc62b599 | refs/heads/master | 2022-12-10T00:06:06.676066 | 2022-11-29T09:02:04 | 2022-11-29T09:02:04 | 46,109,860 | 5 | 1 | null | null | null | null | UTF-8 | Python | false | false | 351 | py | class Solution(object):
def maximumProduct(self, nums):
"""
:type nums: List[int]
:rtype: int
"""
nums = sorted(nums)
return max(nums[-3] * nums[-2] * nums[-1], nums[0] * nums[1] * nums[-1])
assert Solution().maximumProduct([1,2,3,4]) == 24
assert Solution().maximumProduct([-4,-3,-2,-1,60]) == 720 | [
"eazow@163.com"
] | eazow@163.com |
5d63bffd4927d97831cdd0d7c13b48c197613363 | f98836fedddf8e019dd10f443737eb40c6799450 | /lab6/code/results.py | bdce29f9430d0e1f0f92deedfa4521627e2e4203 | [] | no_license | Engcomm/eece5698_hss | ccf665c91b80c165ccc03acc43151273c444250d | fde6d9e2d19edeceefcfe87fb4eb4976905a25e1 | refs/heads/master | 2021-01-26T07:18:19.968371 | 2019-04-25T16:46:28 | 2019-04-25T16:46:28 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 354 | py | #!/usr/env/bin python
import sys
import os
import matplotlib.pyplot as plt
import numpy as np
with open('results.txt', 'r') as f:
data = np.loadtxt(f, delimiter='\n')
print(data)
fig = plt.figure()
ax = fig.add_subplot(111)
y = data / 100000
ax.set_xlabel('Number of NOP Instructions')
ax.set_xlabel('Accuracy')
ax.plot(range(len(data)), y)
| [
"gupta.arjun45@gmail.com"
] | gupta.arjun45@gmail.com |
a1fa0b8461336e6b41dbd3f9d8d6774cf9eeb4d2 | 0dce3707bffce5e3af243b81c26f113d99e7eacd | /manage.py | b91743fd5879979a848e5b5de868e405ff429a77 | [] | no_license | sripathikrishnan/dockient | a41feefa4a1261e7d14bd521c591a9d705750267 | 16aefeaf892925ebcd7f7724abd1c199eecf4a13 | refs/heads/master | 2023-08-19T18:55:50.576139 | 2019-10-14T04:13:51 | 2019-10-14T04:13:51 | 214,945,723 | 0 | 1 | null | 2022-04-22T22:28:15 | 2019-10-14T04:10:42 | Python | UTF-8 | Python | false | false | 628 | py | #!/usr/bin/env python
"""Django's command-line utility for administrative tasks."""
import os
import sys
def main():
os.environ.setdefault("DJANGO_SETTINGS_MODULE", "dockient.settings")
try:
from django.core.management import execute_from_command_line
except ImportError as exc:
raise ImportError(
"Couldn't import Django. Are you sure it's installed and "
"available on your PYTHONPATH environment variable? Did you "
"forget to activate a virtual environment?"
) from exc
execute_from_command_line(sys.argv)
if __name__ == "__main__":
main()
| [
"sripathi.krishnan@hashedin.com"
] | sripathi.krishnan@hashedin.com |
f1f61533bdd10a1d0934ffcb81c2cc36423c1451 | 59d7299e1c8f81dc27458aeb2efc9b5ccbccc1c3 | /utilities/pybrain_examples/fft.py | 494afe789f615f6340d825f70db9bf76a4b948c4 | [] | no_license | Cognitive-Technology-Group/PyOBCI | 43993ef9451d9120176d3a0899e5338098e4f5e7 | 611d22265aa68dc7ca4381c6c65f5349e641c97d | refs/heads/master | 2016-09-06T15:36:49.057104 | 2015-01-17T06:16:27 | 2015-01-17T06:16:27 | 21,548,385 | 5 | 2 | null | 2015-04-30T00:09:55 | 2014-07-06T20:50:57 | Python | UTF-8 | Python | false | false | 2,182 | py |
from mne import filter
import numpy as np
import matplotlib.pyplot as plt
def windowed_fft(data, fs):
""" Applies a Hanning window, calculates FFT, and returns one-sided
FFT as well as corresponding frequency vector.
"""
N = len(data)
window = np.hanning(N)
win_pow = np.mean(window ** 2)
windowed_data = np.fft.fft(data * window) / np.sqrt(win_pow)
pD = np.abs(windowed_data * np.conjugate(windowed_data) / N ** 2)
freqs = np.fft.fftfreq(N, 1 / float(fs))
f = freqs[:N / 2 ]
pD = pD[:N / 2 ]
pD[1:] = pD[1:] * 2
return pD, f
#Graphing purposes
#hz_per_bin = float(SAMPLE_RATE) / self.n_fft
#min_psds = []
#max_psds = []
#y = data to process
#y = y - y.mean()
#psd, f = _windowed_fft(y, SAMPLE_RATE)
def mne_bandpass_filter(self):
filter.band_pass_filter(self.data, self.fs, self.lowcut, self.highcut)
return mne_filter
# from scipy.signal import lfilter
# class TimeDomainFilter(object):
# def __init__(self, a, b, signal):
# self.a = []
# self.b = []
# self.signal = signal
# def apply(self, signal):
# return lfilter(self.b, self.a, signal)
# from scipy.io import loadmat
# mat = loadmat('bp_filter_coeff.mat')
# filters = [TimeDomainFilter(b=mat['bp_filter_coeff']['b'][0, 0].squeeze(),
# a=mat['bp_filter_coeff']['a'][0, 0].squeeze()),
# TimeDomainFilter(b=mat['bp_filter_coeff']['b_notch'][0, 0].squeeze(),
# a=mat['bp_filter_coeff']['a_notch'][0, 0].squeeze()), ]
# for filter in filters:
# y = TimeDomainFilter.apply(y)
if "__name__"=="__main__":
hz_per_bin = float(250) / 256
data = np.genfromtxt('data/sample.csv', delimiter=',')
filt_data = filter.band_pass_filter(data[:, 4], 250, 1, 60)
psd, fft_data = _windowed_fft(filt_data, 250)
psd_per_bin = psd / hz_per_bin
plt.figure(1)
plt.plot(fft_data, np.sqrt(psd_per_bin))
plt.figure(2)
plt.plot(filt_data)
plt.show()
| [
"jnaulty@gmail.com"
] | jnaulty@gmail.com |
29a1a2c46aa99f941385f809339cfe85914cf4d6 | 9d8acc20d2ee1d1957849dfb71c22e0dae2d8c5c | /baomoicrawl/venv/Lib/site-packages/scrapy/utils/sitemap.py | c9f5b4ef42d0d29efc71b43d2c9e9ba8ded9a1a6 | [] | no_license | thuy4tbn99/TranTruongThuy_17021178_Nhom4_Crawler | b0fdedee2942a12d9f64dfed93f43802dc5ab340 | 87c8c07433466bbc43a24ea089f75baeb467c356 | refs/heads/master | 2022-11-27T21:36:33.917491 | 2020-08-10T23:24:42 | 2020-08-10T23:24:42 | 286,583,216 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,548 | py | """
Module for processing Sitemaps.
Note: The main purpose of this module is to provide support for the
SitemapSpider, its API is subject to change without notice.
"""
from urllib.parse import urljoin
import lxml.etree
class Sitemap:
"""Class to parse Sitemap (type=urlset) and Sitemap Index
(type=sitemapindex) files"""
def __init__(self, xmltext):
xmlp = lxml.etree.XMLParser(recover=True, remove_comments=True, resolve_entities=False)
self._root = lxml.etree.fromstring(xmltext, parser=xmlp)
rt = self._root.tag
self.type = self._root.tag.split('}', 1)[1] if '}' in rt else rt
def __iter__(self):
for elem in self._root.getchildren():
d = {}
for el in elem.getchildren():
tag = el.tag
name = tag.split('}', 1)[1] if '}' in tag else tag
if name == 'link':
if 'href' in el.attrib:
d.setdefault('alternate', []).append(el.get('href'))
else:
d[name] = el.text.strip() if el.text else ''
if 'loc' in d:
yield d
def sitemap_urls_from_robots(robots_text, base_url=None):
"""Return an iterator over all sitemap urls contained in the given
robots.txt file
"""
for line in robots_text.splitlines():
if line.lstrip().lower().startswith('sitemap:'):
url = line.split(':', 1)[1].strip()
yield urljoin(base_url, url)
| [
"thuy4tbn99@gmail.com"
] | thuy4tbn99@gmail.com |
ca20406b0711435356370909f50abbe6d902a1e4 | f0a910bb7e22b18b7a9babbdd44d62f13d095e9f | /ProjectEuler21.py | f1a44dcebbe81026aa6ecee83d84aa330c9a203b | [] | no_license | FlavitoAdr/Python | 92dc48b62ad4b0fc988925cfc124112ea5189638 | 5392ec7e94f3a772c26a84e71cd914b7ea953e38 | refs/heads/main | 2023-04-10T12:52:29.807797 | 2021-04-23T16:25:41 | 2021-04-23T16:25:41 | 360,771,211 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 466 | py | #Desafio 21#
soma = 0
for valor in range(1, 10001):
amigavel1 = 0
for i in range(1,int(valor/2+1)):
valorteste = int(valor/i)
valorteste *= i
if valorteste == valor:
amigavel1 += i
amigavel2 = 0
for i in range(1,int(amigavel1/2+1)):
valorteste = int(amigavel1/i)
valorteste *= i
if valorteste == amigavel1:
amigavel2 += i
if amigavel2 == valor:
if valor != amigavel1:
soma+=valor
print(soma)
#Resultado 31626
| [
"noreply@github.com"
] | noreply@github.com |
7eeb2d332ea862f3ef932e2478861cd2c56abbca | 592e7e8f1224190c5a33ec7ca8ba97f1ae1919bd | /788/Sol_题解_dp.py | e6a67f7c9f0339e0a384769c6ed5e939421e7c7a | [] | no_license | Nicolas-Li/LeetCode | b4e5eaeb156aab8fb9ab531eb8425617e32d3914 | 7c60414d5dcdf4a3d74c11390ed50ec81def06cf | refs/heads/main | 2023-03-07T14:20:46.470271 | 2021-02-18T03:43:58 | 2021-02-18T03:43:58 | 331,369,748 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 2,303 | py | class Solution(object):
def rotatedDigits(self, N):
A = map(int, str(N))
memo = {}
def dp(i, equality_flag, involution_flag):
if i == len(A): return +(involution_flag)
if (i, equality_flag, involution_flag) not in memo:
ans = 0
for d in xrange(A[i] + 1 if equality_flag else 10):
if d in {3, 4, 7}: continue
ans += dp(i+1, equality_flag and d == A[i],
involution_flag or d in {2, 5, 6, 9})
memo[i, equality_flag, involution_flag] = ans
return memo[i, equality_flag, involution_flag]
return dp(0, True, False)
# 思路
# 根据好数定义,每个好数只能包含数字 0125689,并且至少包含 2569 中的一个。因此可以逐个写出小于等于 N 的所有好数。
# 这道题目可以使用动态规划解答。状态可以表示为三个变量 i, equality_flag, involution_flag。其中 i 表示当前正在写第 i 位数字;equality_flag 表示已经写出的 j 位数字是否等于 N 的 j 位前缀;involution_flag 表示从最高位到比当前位高一位的这段前缀中是否含有 2569 中的任意一个数字。
# dp(i, equality_flag, involution_flag) 表示在特定 equality_flag,involution_flag 的状态下,有多少种从 i 到末尾的后缀能组成一个好数。最终的结果为 dp(0, True, False)。
# 注:数字 N 从最高位到最低位的索引,从 0 开始,并依次增大。第 i 位表示索引为 i 的位置。
# 算法
# 如果 equality_flag 为 true,表示第 i 位能取到的最大数字为 N 的第 i 位对应的数字。并且还需要根据当前状态决定可以写哪些数字。
# 在代码实现中,我们分别使用了自顶向下的方法和自底向上的方式。Python 代码实现的是自顶向下的方法,从 for d in xrange(...) 到 memo[...] = ans 这四行代码清晰的说明了状态之间的递归关系。
# 作者:LeetCode
# 链接:https://leetcode-cn.com/problems/rotated-digits/solution/xuan-zhuan-shu-zi-by-leetcode/
# 来源:力扣(LeetCode)
# 著作权归作者所有。商业转载请联系作者获得授权,非商业转载请注明出处。
| [
"lijunjie_thu@qq.com"
] | lijunjie_thu@qq.com |
2bc815cfc5915af087797f7920ffdd5df9947095 | 990b5b545215e622c8b3bb614126a96945582e4e | /web_scrapper/code_challenge/day9-10/main.py | e9164e2d0fc6fc8272ee4af5e58db6a5858b9219 | [] | no_license | WONILLISM/Study | 07448811d318ed0607c10531c693fe6f5bd24d9e | 0af974f2b28604a55f3b996a4e7f024182d940bc | refs/heads/master | 2023-02-15T06:59:29.571722 | 2020-07-10T07:57:09 | 2020-07-10T07:57:09 | 265,529,543 | 0 | 0 | null | 2021-01-06T10:46:58 | 2020-05-20T10:24:48 | Python | UTF-8 | Python | false | false | 1,177 | py | import requests
from bs4 import BeautifulSoup
from flask import Flask, render_template, request
base_url = "http://hn.algolia.com/api/v1"
# This URL gets the newest stories.
new = f"{base_url}/search_by_date?tags=story"
# This URL gets the most popular stories
popular = f"{base_url}/search?tags=story"
# This function makes the URL to get the detail of a storie by id.
# Heres the documentation: https://hn.algolia.com/api
def make_detail_url(id):
return f"{base_url}/items/{id}"
get_new = requests.get(new).json()['hits']
get_popular = requests.get(popular).json()['hits']
db = {}
db[new] = get_new
db[popular] = get_popular
app = Flask("DayNine")
@app.route("/")
def home():
temp = request.args.get('order_by')
# print(temp)
if temp == 'new':
return render_template("index.html", db = db[new], temp="new")
else:
return render_template("index.html", db = db[popular], temp="popular")
@app.route("/<id>")
def detail(id):
comments = requests.get(make_detail_url(id)).json()
comments_list = comments['children']
return render_template(
"detail.html",
comments = comments,
comments_list = comments_list
)
app.run(host="0.0.0.0") | [
"wonillism@gmail.com"
] | wonillism@gmail.com |
c112d5ce3c5633ee755fd9211c360485d7c5e38f | 82a9077bcb5a90d88e0a8be7f8627af4f0844434 | /google-cloud-sdk/lib/tests/unit/surface/apigee/operations_describe_test.py | e7433df43a3aae0f564d4c7c695e60939f77816c | [
"LicenseRef-scancode-unknown-license-reference",
"Apache-2.0"
] | permissive | piotradamczyk5/gcloud_cli | 1ae2553595e569fad6ce84af62b91a7ee5489017 | 384ece11040caadcd64d51da74e0b8491dd22ca3 | refs/heads/master | 2023-01-01T23:00:27.858583 | 2020-10-21T04:21:23 | 2020-10-21T04:21:23 | 290,238,061 | 0 | 0 | null | 2020-10-19T16:43:36 | 2020-08-25T14:31:00 | Python | UTF-8 | Python | false | false | 1,920 | py | # -*- coding: utf-8 -*- #
# Copyright 2020 Google LLC. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Tests that exercise the 'gcloud apigee operations describe' command."""
from __future__ import absolute_import
from __future__ import division
from __future__ import unicode_literals
import json
from tests.lib.surface.apigee import base
class OperationsDescribeTest(base.ApigeeSurfaceTest):
def testSimpleDescribe(self):
canned_response = {
"metadata": {
"@type":
"type.googleapis.com/google.cloud.apigee.v1.OperationMetadata",
"operationType":
"INSERT",
"state":
"IN_PROGRESS",
"targetResourceName":
"organizations/cwajh-test-project"
},
"name":
"organizations/test-org/operations/20b4ba00-0806-0000-997a-522a4adf027f"
}
self.AddHTTPResponse(
"https://apigee.googleapis.com/v1/organizations/test-org/operations/20b4ba00-0806-0000-997a-522a4adf027f",
status=200,
body=json.dumps(canned_response))
self.RunApigee("operations describe 20b4ba00-0806-0000-997a-522a4adf027f "
"--organization=test-org --format=json")
canned_response["uuid"] = "20b4ba00-0806-0000-997a-522a4adf027f"
canned_response["organization"] = "test-org"
self.AssertJsonOutputMatches(canned_response)
| [
"actions@github.com"
] | actions@github.com |
9d96d467699e2db6bbc9dacc1e91761aab92a6dc | 2d921bb03eade0763ddb3a9cc5cb637730ecbde1 | /python/plot/PlotStyle.py | 12d2ecb4732ab7424ed515bca8ebc8ce4145f6a4 | [] | no_license | rmanzoni/WTau3Mu | 10c57971b80f9769578284abd69009008901eea7 | 5ad336df976d5a1b39e4b516641661921b06ba20 | refs/heads/92X | 2021-01-18T15:10:41.887147 | 2019-05-09T12:48:00 | 2019-05-09T12:48:00 | 84,342,825 | 0 | 7 | null | 2018-07-19T09:08:19 | 2017-03-08T16:35:42 | Python | UTF-8 | Python | false | false | 5,537 | py | from ROOT import gROOT, gStyle, TFile, TH1F, TH2F, TCanvas, TLegend, TF1, TGraph, TVectorF, TGraphErrors, TObjArray, THStack, TStyle, TGaxis, kWhite
""" Initialises default ROOT plot style.
In order to support old instances of the PlotStyle that
depended on a given ntuple, it is setup as a class.
"""
class PlotStyle(object):
""" Main class for creating ROOT objects from PyRootObjects.
"""
@staticmethod
def initStyle():
gROOT.SetStyle("Plain")
# For the canvas:
gStyle.SetCanvasBorderMode(0)
gStyle.SetCanvasColor(kWhite)
gStyle.SetCanvasDefH(700) #Height of canvas
gStyle.SetCanvasDefW(700) #Width of canvas
gStyle.SetCanvasDefX(0) #Position on screen
gStyle.SetCanvasDefY(0)
# For the line:
gStyle.SetLineWidth(2)
# For the Pad:
gStyle.SetPadBorderMode(0)
# gStyle.SetPadBorderSize(Width_t size = 1)
gStyle.SetPadColor(kWhite)
gStyle.SetPadGridX(True)
gStyle.SetPadGridY(True)
gStyle.SetGridColor(0)
gStyle.SetGridStyle(3)
gStyle.SetGridWidth(1)
# For the frame:
gStyle.SetFrameBorderMode(0)
gStyle.SetFrameBorderSize(1)
gStyle.SetFrameFillColor(0)
gStyle.SetFrameFillStyle(0)
gStyle.SetFrameLineColor(1)
gStyle.SetFrameLineStyle(1)
gStyle.SetFrameLineWidth(1)
# For the histo:
# gStyle.SetHistFillColor(1)
# gStyle.SetHistFillStyle(0)
gStyle.SetHistLineColor(1)
gStyle.SetHistLineStyle(0)
gStyle.SetHistLineWidth(2)
# gStyle.SetLegoInnerR(Float_t rad = 0.5)
# gStyle.SetNumberContours(Int_t number = 20)
gStyle.SetEndErrorSize(2)
#gStyle.SetErrorMarker(20)
gStyle.SetErrorX(0.)
gStyle.SetMarkerStyle(8)
gStyle.SetMarkerSize(1)
#For the fit/function:
gStyle.SetOptFit(0)
gStyle.SetFitFormat("5.4g")
gStyle.SetFuncColor(2)
gStyle.SetFuncStyle(1)
gStyle.SetFuncWidth(1)
#For the date:
gStyle.SetOptDate(0)
# gStyle.SetDateX(Float_t x = 0.01)
# gStyle.SetDateY(Float_t y = 0.01)
# For the statistics box:
gStyle.SetOptFile(0)
gStyle.SetOptStat(0) # To display the mean and RMS: SetOptStat("mr")
gStyle.SetStatColor(kWhite)
gStyle.SetStatFont(42)
gStyle.SetStatFontSize(0.025)
gStyle.SetStatTextColor(1)
gStyle.SetStatFormat("6.4g")
gStyle.SetStatBorderSize(1)
gStyle.SetStatH(0.1)
gStyle.SetStatW(0.15)
# gStyle.SetStatStyle(Style_t style = 1001)
# gStyle.SetStatX(Float_t x = 0)
# gStyle.SetStatY(Float_t y = 0)
# Margins:
gStyle.SetPadTopMargin(0.11)
gStyle.SetPadBottomMargin(0.13)
gStyle.SetPadLeftMargin(0.17)
gStyle.SetPadRightMargin(0.07)
# For the Global title:
gStyle.SetOptTitle(0)
gStyle.SetTitleFont(42)
gStyle.SetTitleColor(1)
gStyle.SetTitleTextColor(1)
gStyle.SetTitleFillColor(10)
gStyle.SetTitleFontSize(0.04)
# gStyle.SetTitleH(0) # Set the height of the title box
# gStyle.SetTitleW(0) # Set the width of the title box
#gStyle.SetTitleX(0.35) # Set the position of the title box
#gStyle.SetTitleY(0.986) # Set the position of the title box
# gStyle.SetTitleStyle(Style_t style = 1001)
#gStyle.SetTitleBorderSize(0)
# For the axis titles:
gStyle.SetTitleColor(1, "XYZ")
gStyle.SetTitleFont(42, "XYZ")
gStyle.SetTitleSize(0.05, "XYZ")
# gStyle.SetTitleXSize(Float_t size = 0.02) # Another way to set the size?
# gStyle.SetTitleYSize(Float_t size = 0.02)
gStyle.SetTitleXOffset(1.)
gStyle.SetTitleYOffset(1.3)
#gStyle.SetTitleOffset(1.1, "Y") # Another way to set the Offset
# For the axis labels:
gStyle.SetLabelColor(1, "XYZ")
gStyle.SetLabelFont(42, "XYZ")
gStyle.SetLabelOffset(0.007, "XYZ")
gStyle.SetLabelSize(0.035, "XYZ")
# For the axis:
gStyle.SetAxisColor(1, "XYZ")
gStyle.SetStripDecimals(True)
gStyle.SetTickLength(0.03, "XYZ")
gStyle.SetNdivisions(510, "XYZ")
gStyle.SetPadTickX(1) # To get tick marks on the opposite side of the frame
gStyle.SetPadTickY(1)
# Change for log plots:
gStyle.SetOptLogx(0)
gStyle.SetOptLogy(0)
gStyle.SetOptLogz(0)
gStyle.SetPalette(1) #(1,0)
# another top group addition
gStyle.SetHatchesSpacing(1.0)
# Postscript options:
gStyle.SetPaperSize(20., 20.)
#gStyle.SetPaperSize(TStyle.kA4)
#gStyle.SetPaperSize(27., 29.7)
#TGaxis.SetMaxDigits(3)
# gStyle.SetLineScalePS(Float_t scale = 3)
# gStyle.SetLineStyleString(Int_t i, const char* text)
# gStyle.SetHeaderPS(const char* header)
# gStyle.SetTitlePS(const char* pstitle)
#gStyle.SetColorModelPS(1)
# gStyle.SetBarOffset(Float_t baroff = 0.5)
# gStyle.SetBarWidth(Float_t barwidth = 0.5)
# gStyle.SetPaintTextFormat(const char* format = "g")
# gStyle.SetPalette(Int_t ncolors = 0, Int_t* colors = 0)
# gStyle.SetTimeOffset(Double_t toffset)
# gStyle.SetHistMinimumZero(kTRUE)
#gStyle.cd()
print "TDR Style initialized" | [
"riccardo.manzoni@cern.ch"
] | riccardo.manzoni@cern.ch |
9526ec485a8eb1597853ea79ad6840a6b23c7b3b | 4d38f25ac0b559a65c4df048c41a1b08bd8fae29 | /Recipe/migrations/0002_auto__add_field_recipe_parent_id.py | 74d05fd6174cefe34d45b63e243daca903966219 | [] | no_license | phillipsra16/BrewMe | b18e488ff2aafe233afd195e8ed410f6fd6621b2 | 22eb918a177d89b00b937086ae9c9372ece69dd7 | refs/heads/master | 2021-01-17T14:19:41.384359 | 2013-05-04T20:27:16 | 2013-05-04T20:27:16 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 9,704 | py | # -*- coding: utf-8 -*-
import datetime
from south.db import db
from south.v2 import SchemaMigration
from django.db import models
class Migration(SchemaMigration):
def forwards(self, orm):
# Adding field 'Recipe.parent_id'
db.add_column('Recipe_recipe', 'parent_id',
self.gf('django.db.models.fields.related.ForeignKey')(to=orm['Recipe.Recipe'], null=True, blank=True),
keep_default=False)
def backwards(self, orm):
# Deleting field 'Recipe.parent_id'
db.delete_column('Recipe_recipe', 'parent_id_id')
models = {
'Recipe.comments': {
'Meta': {'object_name': 'Comments'},
'active': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'recipe_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Recipe']"}),
'text': ('django.db.models.fields.CharField', [], {'max_length': '1024'}),
'user_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['auth.User']"})
},
'Recipe.fermentable': {
'Meta': {'object_name': 'Fermentable'},
'color': ('django.db.models.fields.CharField', [], {'max_length': '8'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'potential_extract': ('django.db.models.fields.DecimalField', [], {'max_digits': '6', 'decimal_places': '3'}),
'use': ('django.db.models.fields.CharField', [], {'max_length': '128'})
},
'Recipe.grainbill': {
'Meta': {'object_name': 'GrainBill'},
'amount': ('django.db.models.fields.DecimalField', [], {'max_digits': '8', 'decimal_places': '2'}),
'fermentable_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Fermentable']"}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'recipe_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Recipe']"}),
'use': ('django.db.models.fields.IntegerField', [], {})
},
'Recipe.hop': {
'Meta': {'object_name': 'Hop'},
'alpha_acid': ('django.db.models.fields.DecimalField', [], {'max_digits': '6', 'decimal_places': '3'}),
'description': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'use': ('django.db.models.fields.IntegerField', [], {})
},
'Recipe.hopschedule': {
'Meta': {'object_name': 'HopSchedule'},
'amount': ('django.db.models.fields.DecimalField', [], {'max_digits': '8', 'decimal_places': '2'}),
'hop_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Hop']"}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'recipe_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Recipe']"}),
'time': ('django.db.models.fields.TimeField', [], {}),
'use': ('django.db.models.fields.IntegerField', [], {})
},
'Recipe.misc': {
'Meta': {'object_name': 'Misc'},
'description': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '128'})
},
'Recipe.miscbill': {
'Meta': {'object_name': 'MiscBill'},
'amount': ('django.db.models.fields.DecimalField', [], {'max_digits': '8', 'decimal_places': '2'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'misc_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Misc']"}),
'recipe_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Recipe']"}),
'time': ('django.db.models.fields.TimeField', [], {}),
'use': ('django.db.models.fields.CharField', [], {'max_length': '128'})
},
'Recipe.recipe': {
'Meta': {'object_name': 'Recipe'},
'description': ('django.db.models.fields.CharField', [], {'max_length': '1024'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'parent_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Recipe']", 'null': 'True', 'blank': 'True'}),
'style_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['Recipe.Style']"}),
'user_id': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['auth.User']"}),
'yeast_id': ('django.db.models.fields.CharField', [], {'max_length': '64'})
},
'Recipe.style': {
'Meta': {'object_name': 'Style'},
'color': ('django.db.models.fields.IntegerField', [], {}),
'description': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'final_gravity': ('django.db.models.fields.IntegerField', [], {}),
'ibu_max': ('django.db.models.fields.IntegerField', [], {}),
'ibu_min': ('django.db.models.fields.IntegerField', [], {}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'original_gravity': ('django.db.models.fields.IntegerField', [], {})
},
'Recipe.yeast': {
'Meta': {'object_name': 'Yeast'},
'attenuation': ('django.db.models.fields.DecimalField', [], {'max_digits': '6', 'decimal_places': '3'}),
'description': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'flocculation': ('django.db.models.fields.DecimalField', [], {'max_digits': '6', 'decimal_places': '3'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '128'})
},
'auth.group': {
'Meta': {'object_name': 'Group'},
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'unique': 'True', 'max_length': '80'}),
'permissions': ('django.db.models.fields.related.ManyToManyField', [], {'to': "orm['auth.Permission']", 'symmetrical': 'False', 'blank': 'True'})
},
'auth.permission': {
'Meta': {'ordering': "('content_type__app_label', 'content_type__model', 'codename')", 'unique_together': "(('content_type', 'codename'),)", 'object_name': 'Permission'},
'codename': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'content_type': ('django.db.models.fields.related.ForeignKey', [], {'to': "orm['contenttypes.ContentType']"}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '50'})
},
'auth.user': {
'Meta': {'object_name': 'User'},
'date_joined': ('django.db.models.fields.DateTimeField', [], {'default': 'datetime.datetime.now'}),
'email': ('django.db.models.fields.EmailField', [], {'max_length': '75', 'blank': 'True'}),
'first_name': ('django.db.models.fields.CharField', [], {'max_length': '30', 'blank': 'True'}),
'groups': ('django.db.models.fields.related.ManyToManyField', [], {'to': "orm['auth.Group']", 'symmetrical': 'False', 'blank': 'True'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'is_active': ('django.db.models.fields.BooleanField', [], {'default': 'True'}),
'is_staff': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'is_superuser': ('django.db.models.fields.BooleanField', [], {'default': 'False'}),
'last_login': ('django.db.models.fields.DateTimeField', [], {'default': 'datetime.datetime.now'}),
'last_name': ('django.db.models.fields.CharField', [], {'max_length': '30', 'blank': 'True'}),
'password': ('django.db.models.fields.CharField', [], {'max_length': '128'}),
'user_permissions': ('django.db.models.fields.related.ManyToManyField', [], {'to': "orm['auth.Permission']", 'symmetrical': 'False', 'blank': 'True'}),
'username': ('django.db.models.fields.CharField', [], {'unique': 'True', 'max_length': '30'})
},
'contenttypes.contenttype': {
'Meta': {'ordering': "('name',)", 'unique_together': "(('app_label', 'model'),)", 'object_name': 'ContentType', 'db_table': "'django_content_type'"},
'app_label': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'id': ('django.db.models.fields.AutoField', [], {'primary_key': 'True'}),
'model': ('django.db.models.fields.CharField', [], {'max_length': '100'}),
'name': ('django.db.models.fields.CharField', [], {'max_length': '100'})
}
}
complete_apps = ['Recipe'] | [
"wyattpj@email.appstate.edu"
] | wyattpj@email.appstate.edu |
3ade23a3375f44b04596853076e8b492aac84448 | 68b217bb04efa66920a9bee097472e216a6b09eb | /dnn_wide_and_deep/preprocess_pipeline.py | 79d091641e4e09ceef0cbb9e07d8dc89b6f778aa | [] | no_license | sagravat/google-cloudml-workshops | 1a43c9ac9fe944ab08383b1cbf9625a4f077b240 | 7c5c039df2400aa84eb8a36cb15d12866a9211af | refs/heads/master | 2021-06-25T16:19:48.656818 | 2020-11-24T20:39:30 | 2020-11-24T20:39:30 | 142,514,939 | 0 | 1 | null | 2019-10-30T22:44:26 | 2018-07-27T01:59:03 | Jupyter Notebook | UTF-8 | Python | false | false | 10,106 | py | import tensorflow as tf
from tensorflow import data
import tensorflow_transform as tft
import tensorflow_transform.coders as tft_coders
from tensorflow_transform.beam import impl
from tensorflow_transform.beam.tft_beam_io import transform_fn_io
from tensorflow.contrib.learn.python.learn.utils import input_fn_utils
from tensorflow_transform.tf_metadata import metadata_io
from tensorflow_transform.tf_metadata import dataset_schema
from tensorflow_transform.tf_metadata import dataset_metadata
from tensorflow_transform.saved import saved_transform_io
from tensorflow_transform.beam.tft_beam_io import transform_fn_io
import apache_beam as beam
import os
import featurizer
import metadata
from metadata import Params
params = Params()
NUM_BUCKETS = 4
def preprocess(input_features):
output_features = {}
output_features[metadata.TARGET_FEATURE_NAME] = input_features[metadata.TARGET_FEATURE_NAME]
for feature_name in metadata.NUMERIC_FEATURE_NAMES:
#output_features[feature_name+"_scaled"] = tft.scale_to_z_score(input_features[feature_name])
output_features[feature_name] = tft.scale_to_z_score(input_features[feature_name])
quantiles = tft.quantiles(input_features[feature_name], num_buckets=NUM_BUCKETS, epsilon=0.01)
output_features[feature_name+"_bucketized"] = tft.apply_buckets(input_features[feature_name],
bucket_boundaries=quantiles)
for feature_name in metadata.CATEGORICAL_FEATURE_NAMES:
tft.uniques(input_features[feature_name], vocab_filename=feature_name)
output_features[feature_name] = input_features[feature_name]
# sba added this
#output_features[feature_name+"_integerized"] = tft.string_to_int(input_features[feature_name],
#vocab_filename=feature_name)
for feature_name in metadata.VOCAB_FEATURE_NAMES:
output_features[feature_name +"_integerized"] = tft.string_to_int(input_features[feature_name],top_k=metadata.VOCAB_SIZE, num_oov_buckets=metadata.OOV_SIZE, vocab_filename=feature_name)
return output_features
class MapAndFilterErrors(beam.PTransform):
"""Like beam.Map but filters out erros in the map_fn."""
class _MapAndFilterErrorsDoFn(beam.DoFn):
"""Count the bad examples using a beam metric."""
def __init__(self, fn):
self._fn = fn
# Create a counter to measure number of bad elements.
self._bad_elements_counter = beam.metrics.Metrics.counter(
'my_example', 'bad_elements')
def process(self, element):
try:
yield self._fn(element)
except Exception: # pylint: disable=broad-except
# Catch any exception the above call.
self._bad_elements_counter.inc(1)
def __init__(self, fn):
self._fn = fn
def expand(self, pcoll):
return pcoll | beam.ParDo(self._MapAndFilterErrorsDoFn(self._fn))
def fix_comma_and_filter_third_column(line):
# to avoid namespace error with DataflowRunner the import of csv is done
# locacally see https://cloud.google.com/dataflow/faq#how-do-i-handle-nameerrors
import csv
cols = list(csv.reader([line], skipinitialspace=True,))[0]
#return ','.join(cols[0:2] + cols[3:])
return '\t'.join(cols[1:4] + cols[8:24] + cols[25:39])
def run_transformation_pipeline(args, options):
options = beam.pipeline.PipelineOptions(flags=[], **options)
print("Source raw train data files: {}".format(args.raw_train_file))
print("Source raw train data files: {}".format(args.raw_eval_file))
print("Sink transformed train data files: {}".format(args.transform_train_prefix))
print("Sink transformed data files: {}".format(args.transform_eval_prefix))
print("Sink transform artefacts directory: {}".format(params.TRANSFORM_ARTIFACTS_DIR))
print("Temporary directory: {}".format(params.TEMP_DIR))
print("")
with beam.Pipeline(runner, options=options) as pipeline:
with impl.Context(params.TEMP_DIR):
raw_metadata = featurizer.create_raw_metadata()
converter = tft_coders.csv_coder.CsvCoder(column_names=metadata.RAW_FEATURE_NAMES,
delimiter=params.RAW_DATA_DELIMITER,
schema=raw_metadata.schema)
###### analyze & transform train #########################################################
if(runner=='DirectRunner'):
print("Transform training data....")
step = 'train'
# Read raw train data from csv files
raw_train_data = (
pipeline
| '{} - Read Raw Data'.format(step) >> beam.io.textio.ReadFromText(args.raw_train_file)
| '{} - Remove Empty Rows'.format(step) >> beam.Filter(lambda line: line)
| '{} - FixCommasAndRemoveFiledTestData'.format(step) >> beam.Map(fix_comma_and_filter_third_column)
| '{} - Decode CSV Data'.format(step) >> MapAndFilterErrors(converter.decode)
)
# create a train dataset from the data and schema
raw_train_dataset = (raw_train_data, raw_metadata)
# analyze and transform raw_train_dataset to produced transformed_train_dataset and transform_fn
transformed_train_dataset, transform_fn = (
raw_train_dataset
| '{} - Analyze & Transform'.format(step) >> impl.AnalyzeAndTransformDataset(preprocess)
)
# get data and schema separately from the transformed_train_dataset
transformed_train_data, transformed_metadata = transformed_train_dataset
# write transformed train data to sink
_ = (
transformed_train_data
| '{} - Write Transformed Data'.format(step) >> beam.io.tfrecordio.WriteToTFRecord(
file_path_prefix=args.transform_train_prefix,
file_name_suffix=".tfrecords",
coder=tft_coders.example_proto_coder.ExampleProtoCoder(transformed_metadata.schema))
)
###### transform eval ##################################################################
if(runner=='DirectRunner'):
print("Transform eval data....")
step = 'eval'
raw_eval_data = (
pipeline
| '{} - Read Raw Data'.format(step) >> beam.io.textio.ReadFromText(args.raw_eval_file)
| '{} - Remove Empty Lines'.format(step) >> beam.Filter(lambda line: line)
| '{} - FixCommasAndRemoveFiledTestData'.format(step) >> beam.Map(fix_comma_and_filter_third_column)
| '{} - Decode CSV Data'.format(step) >> MapAndFilterErrors(converter.decode)
)
# create a eval dataset from the data and schema
raw_eval_dataset = (raw_eval_data, raw_metadata)
# transform eval data based on produced transform_fn (from analyzing train_data)
transformed_eval_dataset = (
(raw_eval_dataset, transform_fn)
| '{} - Transform'.format(step) >> impl.TransformDataset()
)
# get data from the transformed_eval_dataset
transformed_eval_data, _ = transformed_eval_dataset
# write transformed eval data to sink
_ = (
transformed_eval_data
| '{} - Write Transformed Data'.format(step) >> beam.io.tfrecordio.WriteToTFRecord(
file_path_prefix=args.transform_eval_prefix,
file_name_suffix=".tfrecords",
coder=tft_coders.example_proto_coder.ExampleProtoCoder(transformed_metadata.schema))
)
###### write transformation metadata #######################################################
if(runner=='DirectRunner'):
print("Saving transformation artefacts ....")
# write transform_fn as tf.graph
_ = (
transform_fn
| 'Write Transform Artefacts' >> transform_fn_io.WriteTransformFn(params.TRANSFORM_ARTIFACTS_DIR)
)
if runner=='DataflowRunner':
pipeline.run()
import shutil
from datetime import datetime
import tensorflow as tf
import argparse
parser = argparse.ArgumentParser()
parser.add_argument(
'--raw-train-file',
help='Raw Train Data File',
required=True)
parser.add_argument(
'--raw-eval-file',
help='Raw Eval Data File',
required=True)
parser.add_argument(
'--transform-train-prefix',
help='transform train file prefix',
required=True)
parser.add_argument(
'--transform-eval-prefix',
help='transform eval file prefix',
required=True)
parser.add_argument(
'--runner',
help='Runner type',
default='DirectRunner',
required=True)
args = parser.parse_args()
tf.logging.set_verbosity(tf.logging.ERROR)
runner = args.runner # DirectRunner | DataflowRunner
job_name = 'preprocess-data-tft-{}'.format(datetime.utcnow().strftime('%y%m%d-%H%M%S'))
print('Launching {} job {} ... hang on'.format(runner, job_name))
print("")
dataflow_options = {
'region': 'europe-west1',
'staging_location': os.path.join(params.DATA_DIR, 'tmp', 'staging'),
'temp_location': os.path.join(params.DATA_DIR, 'tmp'),
'job_name': job_name,
'project': params.GCP_PROJECT_ID,
'worker_machine_type': 'n1-standard-2',
'max_num_workers': 20,
'teardown_policy': 'TEARDOWN_ALWAYS',
'no_save_main_session': True,
'requirements_file': 'requirements.txt',
}
if runner == 'DirectRunner':
shutil.rmtree(params.TRANSFORM_ARTIFACTS_DIR, ignore_errors=True)
shutil.rmtree(params.TRANSFORMED_DATA_DIR, ignore_errors=True)
shutil.rmtree(params.TEMP_DIR, ignore_errors=True)
run_transformation_pipeline(args, dataflow_options)
print("Transformation is done!")
| [
"agravat@agravat-macbookpro.roam.corp.google.com"
] | agravat@agravat-macbookpro.roam.corp.google.com |
69fb8eb6f8407bd166d3efed59289d420bdbaf8f | 272fa15878377ce874e292534714288d9d24d294 | /colors.py | 29cedf0d7ecd190044761acf49e339be7d125be7 | [] | no_license | Kevin-H2R/PokerNoLosDos | 292a6d2e5f813d3a4d40156348e3fea07e7c6c61 | aadfc46a34a3a3cdf3b1e2d80cb3e6a2816f3fb8 | refs/heads/master | 2021-08-30T11:08:15.802961 | 2017-12-16T18:38:11 | 2017-12-16T18:38:11 | 113,234,054 | 1 | 1 | null | 2017-12-17T15:51:49 | 2017-12-05T21:17:57 | Python | UTF-8 | Python | false | false | 99 | py | from enum import Enum
class Colors(Enum):
HEART = 1
DIAMOND = 2
SPADE = 3
CLUB = 4 | [
"diablo22007@gmail.com"
] | diablo22007@gmail.com |
635bd4085a4fdd6fef954d62dc513a0220d56cfd | 04b494a2286e7d0ec3bbe8d25c15d575486a0f91 | /_exercises/exercise113/exercise113.py | b555ca05f49c798a2c6370f04eec96053da588c3 | [] | no_license | ViniciusGranado/_studies_Python | ea6adc35edccfbd81a67a613e8cd468fd8485856 | af645fa777a408a8ff1b8ed89911971f5b537ac7 | refs/heads/master | 2023-02-01T19:57:04.117047 | 2020-12-19T00:56:10 | 2020-12-19T00:56:10 | 258,855,637 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,060 | py | def read_int(msg):
while True:
try:
number = int(input(msg))
except (ValueError, TypeError):
print('[ERRO] Digite um número inteiro válido.')
print()
except KeyboardInterrupt:
print('[ERRO] Entrada de dados interrompida.')
print('Considerando valor 0')
return 0
else:
return number
def read_float(msg):
while True:
try:
number = float(input(msg).replace(',', '.'))
except (ValueError, TypeError):
print('[ERRO] Digite um número real válido.')
print()
except KeyboardInterrupt:
print('[ERRO] Entrada de dados interrompida.')
print('Considerando valor 0')
return 0
else:
if number.is_integer():
return int(number)
return number
int_number = read_int('Digite um valor inteiro: ')
float_number = read_float('Digite um valor real: ')
print(f'Você digitou {int_number} e {float_number}')
| [
"vinicius.r.granado@gmail.com"
] | vinicius.r.granado@gmail.com |
4a6cebd005e0514777d65f241202ecc0c147dfc6 | b43398f48ac2c7ac31918fd4415b149691d28a17 | /YOLO_v3_Object_Detection/bbox.py | 506f05a11bf536f07e4f22ed4efe588e863102d1 | [] | no_license | ake020675/RoadCrackDetection | f6c9b933dc37d6b5667175e431f38b26a5a52874 | 5e93b66c706f28c394895b213cfe48fd3a27cf81 | refs/heads/master | 2023-01-03T04:15:06.161880 | 2020-10-26T08:28:15 | 2020-10-26T08:28:15 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 3,347 | py | from __future__ import division
import torch
import random
import numpy as np
import cv2
def confidence_filter(result, confidence):
conf_mask = (result[:, :, 4] > confidence).float().unsqueeze(2)
result = result * conf_mask
return result
def confidence_filter_cls(result, confidence):
max_scores = torch.max(result[:, :, 5:25], 2)[0]
res = torch.cat((result, max_scores), 2)
print(res.shape)
cond_1 = (res[:, :, 4] > confidence).float()
cond_2 = (res[:, :, 25] > 0.995).float()
conf = cond_1 + cond_2
conf = torch.clamp(conf, 0.0, 1.0)
conf = conf.unsqueeze(2)
result = result * conf
return result
def get_abs_coord(box):
box[2], box[3] = abs(box[2]), abs(box[3])
x1 = (box[0] - box[2] / 2) - 1
y1 = (box[1] - box[3] / 2) - 1
x2 = (box[0] + box[2] / 2) - 1
y2 = (box[1] + box[3] / 2) - 1
return x1, y1, x2, y2
def sanity_fix(box):
if (box[0] > box[2]):
box[0], box[2] = box[2], box[0]
if (box[1] > box[3]):
box[1], box[3] = box[3], box[1]
return box
def bbox_iou(box1, box2):
"""
Returns the IoU of two bounding boxes
"""
# Get the coordinates of bounding boxes
b1_x1, b1_y1, b1_x2, b1_y2 = box1[:, 0], box1[:, 1], box1[:, 2], box1[:, 3]
b2_x1, b2_y1, b2_x2, b2_y2 = box2[:, 0], box2[:, 1], box2[:, 2], box2[:, 3]
# get the corrdinates of the intersection rectangle
inter_rect_x1 = torch.max(b1_x1, b2_x1)
inter_rect_y1 = torch.max(b1_y1, b2_y1)
inter_rect_x2 = torch.min(b1_x2, b2_x2)
inter_rect_y2 = torch.min(b1_y2, b2_y2)
# Intersection area
if torch.cuda.is_available():
inter_area = torch.max(inter_rect_x2 - inter_rect_x1 + 1, torch.zeros(inter_rect_x2.shape).cuda()) * torch.max(
inter_rect_y2 - inter_rect_y1 + 1, torch.zeros(inter_rect_x2.shape).cuda())
else:
inter_area = torch.max(inter_rect_x2 - inter_rect_x1 + 1, torch.zeros(inter_rect_x2.shape)) * torch.max(
inter_rect_y2 - inter_rect_y1 + 1, torch.zeros(inter_rect_x2.shape))
# Union Area
b1_area = (b1_x2 - b1_x1 + 1) * (b1_y2 - b1_y1 + 1)
b2_area = (b2_x2 - b2_x1 + 1) * (b2_y2 - b2_y1 + 1)
iou = inter_area / (b1_area + b2_area - inter_area)
return iou
def pred_corner_coord(prediction):
# Get indices of non-zero confidence bboxes
ind_nz = torch.nonzero(prediction[:, :, 4]).transpose(0, 1).contiguous()
box = prediction[ind_nz[0], ind_nz[1]]
box_a = box.new(box.shape)
box_a[:, 0] = (box[:, 0] - box[:, 2] / 2)
box_a[:, 1] = (box[:, 1] - box[:, 3] / 2)
box_a[:, 2] = (box[:, 0] + box[:, 2] / 2)
box_a[:, 3] = (box[:, 1] + box[:, 3] / 2)
box[:, :4] = box_a[:, :4]
prediction[ind_nz[0], ind_nz[1]] = box
return prediction
def write(x, batches, results, colors, classes):
c1 = tuple(x[1:3].int())
c2 = tuple(x[3:5].int())
img = results[int(x[0])]
cls = int(x[-1])
label = "{0}".format(classes[cls])
color = random.choice(colors)
cv2.rectangle(img, c1, c2, color, 1)
t_size = cv2.getTextSize(label, cv2.FONT_HERSHEY_PLAIN, 1, 1)[0]
c2 = c1[0] + t_size[0] + 3, c1[1] + t_size[1] + 4
cv2.rectangle(img, c1, c2, color, -1)
cv2.putText(img, label, (c1[0], c1[1] + t_size[1] + 4), cv2.FONT_HERSHEY_PLAIN, 1, [225, 255, 255], 1);
return img | [
"49043498+ZawLinTun16925410@users.noreply.github.com"
] | 49043498+ZawLinTun16925410@users.noreply.github.com |
55584a728432a93b6c2d548ab317693f82c8a4ad | 022620bbd69fc42dc492694132bb4d6897ddaabb | /dragon/transpiler/lark/lark_transpiler.py | 4d1ee5d15a7cb5e7faed183780ee5fb7bee1f165 | [] | no_license | pombredanne/dragon | 7e6de67515727e850be9565e13531e81c4bf62c2 | bf9318dbaac4aeca146fa25a733e2bbc87d83242 | refs/heads/master | 2021-01-24T22:06:36.803346 | 2018-02-23T03:42:46 | 2018-02-23T03:42:46 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 1,113 | py | from lark import Lark
from dragon.transpiler.lark.python_indenter import PythonIndenter
from dragon.transpiler.lark.transformers.haxe_transformer import HaxeTransformer
import os
import sys
class LarkTranspiler:
_PYTHON_3_GRAMMAR_FILENAME = 'python3.g'
# TODO: try PyPy, etc. once you get a large enough code-base to test against
_PARSER = "lalr"
_PARSER_START = 'file_input'
def __init__(self):
grammar_path = sys.modules[__name__].__file__
grammar_path = grammar_path[:grammar_path.rindex(os.path.sep)]
self.grammar_filename = os.path.join(grammar_path, LarkTranspiler._PYTHON_3_GRAMMAR_FILENAME)
self.tree = None
with open(self.grammar_filename) as f:
self._python_parser = Lark(f, parser=LarkTranspiler._PARSER, postlex=PythonIndenter(), start=LarkTranspiler._PARSER_START)
def transpile(self, raw_file_text):
self.tree = self._python_parser.parse(raw_file_text)
# insert here: convert to an equivalent AST
code = HaxeTransformer().transform(self.tree)
return code
| [
"nightbladecodes@gmail.com"
] | nightbladecodes@gmail.com |
3f5113c7c7eb29fed38d3eba86ad7c33317ca118 | 50a7fda682ad8afaa17f395c8e0873e55fe31a07 | /users/views.py | 2a45b423456f5b26215e2091e78a85e5e373972c | [] | no_license | Ngonie-x/auth-rest-api | c76f148e3f52da3a1e15426c4f91bc74c23ca89c | ba7c9e0e7effcca2739df0e41ca064fbdd86e247 | refs/heads/master | 2020-04-25T22:50:58.364387 | 2019-03-11T13:36:17 | 2019-03-11T13:36:17 | 173,124,701 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 297 | py | from django.shortcuts import render
from rest_framework import generics
from . import models
from . import serializers
# Create your views here.
class UserListView(generics.ListCreateAPIView):
queryset = models.CustomUser.objects.all()
serializer_class = serializers.UserSerializer
| [
"ngonidzashedelight@gmail.com"
] | ngonidzashedelight@gmail.com |
a3154200beab4765d7c8177e01cc426ef4ec63b0 | 3a40a3611195dc517137b9cc089c7ddf362a0fac | /math_practice.py | 3671db4e5bbab2b9260260bf8d1a9f2321eba774 | [] | no_license | kfcole20/python_practice | 6931d9f3bbfd37d5407afef57ba3b251b2cf9ddf | ba824c2e80b54482e5c6678e7e9766a5482c21ae | refs/heads/main | 2023-08-24T15:13:24.113338 | 2021-10-19T21:51:21 | 2021-10-19T21:51:21 | 417,870,766 | 0 | 0 | null | 2021-10-17T23:17:26 | 2021-10-16T15:36:20 | Python | UTF-8 | Python | false | false | 1,021 | py | # Assignment: Multiples, Sum, Average
# This assignment has several parts. All of your code should be in one file that is well commented to indicate what each block of code is doing and which problem you are solving. Don't forget to test your code as you go!
# Multiples
# Part I - Write code that prints all the odd numbers from 1 to 1000. Use the for loop and don't use a list to do this exercise.
for x in range(1, 1000):
# below checks if current index is odd or not
if x%2 != 0:
print(x)
# Part II - Create another program that prints all the multiples of 5 from 5 to 1,000,000.
for x in range(5, 1000000):
if x%5 == 0:
print(x)
# Sum List
# Create a program that prints the sum of all the values in the list: a = [1, 2, 5, 10, 255, 3]
a = [1, 2, 5, 10, 255, 3]
sum=0
for x in a:
sum+=x
print(sum)
# Average List
# Create a program that prints the average of the values in the list: a = [1, 2, 5, 10, 255, 3]
b = [1, 2, 5, 10, 255, 3]
sum=0
for x in b:
sum+=x
print(sum/len(b)) | [
"kfcole20@gmail.com"
] | kfcole20@gmail.com |
8adfff16b60943bb8d918070b4995a2715c7150d | da5dd3c4172b1d1238f8c6c43589f84f984a34ec | /mtg.py | 871aeeb0798096cea320ea903d71ec26d7c329a5 | [] | no_license | JKFrantz/BlueStew | 497dfe3b51f1c864f101e4a240eefc2d7efa54e1 | ad246a9f79668139807af107708dcdc8e02e314a | refs/heads/main | 2023-04-12T21:22:26.952477 | 2021-05-12T04:57:48 | 2021-05-12T04:57:48 | 365,330,854 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 16,944 | py | import glob
import os
import numpy
import scrython
import pandas as pd
import time
from collections import defaultdict
class Card:
def __init__(self, dict):
# val_list must be a dictionary with keys like "cmc"
self.values = dict
# return method for any variable
def get(self, val):
return self.values[val]
class Deck:
def __init__(self):
self.values = {
'mb': [],
'sb': [],
'seventyfive': [],
'curve': defaultdict(int),
'mana_pips': defaultdict(int),
'max_pip_map': defaultdict(int)
}
def get(self, val):
return self.values[val]
def asDict(self):
deck_tallies = {
'mb': defaultdict(int),
'sb': defaultdict(int)
}
for mb_or_sb in ['mb', 'sb']:
for card in self.get(mb_or_sb):
deck_tallies[mb_or_sb][card] += 1
return deck_tallies
def MTGO_list(self):
d = self.asDict()
mtgo_list = []
for mb_or_sb in ['mb', 'sb']:
for card in d[mb_or_sb]:
mtgo_list.append(f"{d[mb_or_sb][card]} {card.get('name')}")
if mb_or_sb == "mb":
mtgo_list.append("\n")
return mtgo_list
def formatted_list(self):
d = self.asDict()
formatted_list = []
type_map = {
"Creatures": ["Creature"],
"Planeswalkers": ["Planeswalker"],
"Spells": ["Instant", "Sorcery"],
"Artifacts": ["Artifact"],
"Enchantments": ["Enchantment"],
"Lands": ["Land"]
}
formatted_dict = {
"Creatures": defaultdict(int),
"Planeswalkers": defaultdict(int),
"Spells": defaultdict(int),
"Artifacts": defaultdict(int),
"Enchantments": defaultdict(int),
"Lands": defaultdict(int)
}
for card in d['mb']:
category = None
for label in type_map:
for type in type_map[label]:
if type in card.get('type_line'):
category = label
break
if category != None:
break
formatted_dict[category][card.get('name')] += d['mb'][card]
for label in formatted_dict:
if formatted_dict[label] != {}:
formatted_list.append(f"{label} ({sum(formatted_dict[label].values())}):")
for card_name in formatted_dict[label]:
formatted_list.append(f"{formatted_dict[label][card_name]} {card_name}")
formatted_list.append("\n")
formatted_list.append(f"Sideboard ({sum(d['sb'].values())}):")
for card in d['sb']:
formatted_list.append(f"{d['sb'][card]} {card.get('name')}")
return formatted_list
def save(self, list, path):
f = open(f"{path}.txt", "w")
for line in list:
f.write(line)
f.close()
def add(self, newcard, mb_or_sb, number = 1):
if ('Land' not in newcard.get('type_line')) and (mb_or_sb == 'mb'):
for color in color_map().keys():
sum = 0
for pip in newcard.get('pips'):
if pip == color:
sum += 1
if sum > self.get('max_pip_map')[color]:
self.values['max_pip_map'][color] = sum
for val in range(0, number):
self.values[mb_or_sb].append(newcard)
self.values['seventyfive'].append(newcard)
if ('Land' not in newcard.get('type_line')) and (mb_or_sb == 'mb'):
self.values['curve'][newcard.get('cmc')] += 1
if not isinstance(newcard.get('pips'), float):
for color in color_map().keys():
for char in newcard.get('pips'):
if color == char:
self.values['mana_pips'][color] += 1
class Spinner:
def __init__(self, dictionary):
self.spinner = dictionary
def spin(self):
keys = []
values = []
for val in self.spinner.keys():
keys.append(val)
values.append(self.spinner[val])
new_card = numpy.random.choice(keys, p = values)
return (new_card)
def multiply(self, card, multiplier):
for card2 in self.spinner:
if card == card2:
self.spinner[card2] *= multiplier
self.balance()
def add(self, card, number):
for card2 in self.spinner:
if card == card2:
self.spinner[card2] += number
if self.spinner[card2] < 0:
self.spinner[card2] = 0
self.balance()
def balance(self):
s = sum(self.spinner.values())
if s != 1:
r = 1 / s
for val in self.spinner:
self.spinner[val] *= r
def get(self):
return self.spinner
class Synergy_Group:
def __init__(self, setup_dict):
self.values = setup_dict
def get(self, value_being_asked_for):
return self.values[value_being_asked_for]
def get_group(self):
return self.values
def apply(self, colors, deck, mb_spinner, sb_spinner, master_list):
for val in self.get('mb_add'):
a = int(val[1] // 1)
in_color = True
card = find(val[0], 'name', master_list)
if not isinstance(card.get('color_identity'), float):
for val2 in card.get('color_identity'):
if val2 not in colors:
in_color = False
if in_color:
for val2 in range(0, a):
deck.add(card, 'mb')
m = val[1] % 1
if m > 0:
add = numpy.random.choice([True, False], p = [m, 1-m])
if add:
deck.add(card, 'mb')
if not isinstance(self.get('sb_add'), float):
for val in self.get('sb_add'):
a = int(val[1] // 1)
in_color = True
card = find(val[0], 'name', master_list)
for val2 in card.get('color_identity'):
if val2 not in colors:
in_color = False
if in_color:
for val2 in range(0, a):
deck.add(card, 'sb')
m = val[1] % 1
if m > 0:
add = numpy.random.choice([True, False], p = [m, 1-m])
if add:
deck.add(card, 'sb')
if not isinstance(self.get('mb_multipliers'), float):
for val in self.get('mb_multipliers'):
card = find(val[0], 'name', master_list)
mb_spinner.multiply(card, val[1])
if not isinstance(self.get('sb_multipliers'), float):
for val in self.get('sb_multipliers'):
card = find(val[0], 'name', master_list)
sb_spinner.multiply(card, val[1])
# randomly selects a given number of colors with optional
# required colors and option to given different
# odds for each color. If you use the latter option, make sure
# the odds for all 5 colors add up to 1.
def random_colors(number_of_colors, required_colors = [],
W = .2, U = .2, B = .2, R = .2, G = .2):
colors = []
colors += required_colors
while len(colors) < number_of_colors:
new_color = numpy.random.choice(['W', 'U', 'B', 'R', 'G'],
p = [W, U, B, R, G])
if new_color not in colors:
colors.append(new_color)
return colors
def find(name, field, list):
for val in list:
if val.get(field) == name:
return val
return None
def count(name, field, list):
count = 0
for val in list:
if val.get(field) == name:
count += 1
return count
############################################################################
# These methods are used by the Generator program. They read files
# and do something with them, like make card objects or spinner objects.
############################################################################
def csv_to_spinner(file_name, master_list):
spinner_frame = pd.read_csv(file_name)
spinner_frame_dict = spinner_frame.to_dict()
spinner_dict = {}
for val in range(0, len(spinner_frame_dict['names'])):
spinner_dict[find(spinner_frame_dict['names'][val], 'name_in_decklist', master_list)] = \
spinner_frame_dict['numbers'][val]
return Spinner(spinner_dict)
def csv_to_synergy_list(file_name):
list_of_synergy_groups = []
list_of_synergy_dicts = []
synergy_dataframe = pd.read_csv(file_name)
synergy_column_names = synergy_dataframe.columns.values.tolist()
synergy_list_lines = synergy_dataframe.values.tolist()
for line in synergy_list_lines:
new_dict = {}
for val in range(len(synergy_column_names)):
new_dict[synergy_column_names[val]] = line[val]
list_of_synergy_dicts.append(new_dict)
for val in list_of_synergy_dicts:
for val2 in ["mb_add", "sb_add", "mb_multipliers", "sb_multipliers", "permit"]:
if isinstance(val[val2], str):
val[val2] = val[val2].split("|")
for val3 in range(len(val[val2])):
val[val2][val3] = val[val2][val3].split("/")
if len(val[val2][val3]) > 1:
if val[val2][val3][1].isdigit():
val[val2][val3][1] = int(val[val2][val3][1])
else:
val[val2][val3][1] = float(val[val2][val3][1])
else:
val[val2] = []
for val in list_of_synergy_dicts:
list_of_synergy_groups.append(Synergy_Group(val))
return list_of_synergy_groups
# reads a csv file and returns a list of card objects
def csv_to_card_list(file_name):
cards = pd.read_csv(file_name)
cards_dict = cards.to_dict()
cards_list = []
for val in range(0, len(cards_dict['name'])):
new_dict = {}
for val2 in cards_dict:
if isinstance(cards_dict[val2][val], float):
new_dict[val2] = ""
else:
new_dict[val2] = cards_dict[val2][val]
cards_list.append(Card(new_dict))
return cards_list
############################################################################
# These methods are mostly used in the setup process for a generator:
# creating master_list and spinner csv's from the Input_Decks folder.
############################################################################
# creates mb and sb spinner csvs in the output_directory for the pool
# of decks in the input_directory
def dir_to_csv_spinners(input_directory, output_directory):
individual_card_totals = {'mb': defaultdict(int), 'sb': defaultdict(int)}
overall_card_totals = {'mb': 0, 'sb': 0}
for filename in glob.glob(f"{input_directory}*.txt"):
f = open(filename, "r")
mb_or_sb = 'mb'
for line in f:
if (line == "\n") or (line == ""):
mb_or_sb = 'sb'
else:
stripped_line = line.strip()
line_list = stripped_line.split()
cards_added = int(line_list[0])
individual_card_totals[mb_or_sb][' '.join(line_list[1:])] += cards_added
overall_card_totals[mb_or_sb] += cards_added
dicts = {'mb': {'names': [], 'numbers': []}, 'sb': \
{'names': [], 'numbers': []}}
for val in individual_card_totals:
for val2 in individual_card_totals[val]:
dicts[val]['names'].append(val2)
dicts[val]['numbers'].append(float(individual_card_totals[val][val2]) / overall_card_totals[val])
for val in ['mb', 'sb']:
frame = pd.DataFrame(dicts[val])
frame.to_csv(f"{output_directory}{val}_spinner.csv", index=False)
# Makes a Deck object out of a normal MTGO decklist
def txt_to_deck(file_name, master_list):
f = open(file_name, "r")
the_deck = Deck()
mb_or_sb = 'mb'
for line in f:
if line == "\n":
mb_or_sb = 'sb'
else:
stripped_line = line.strip()
line_list = stripped_line.split()
new_card = find(' '.join(line_list[1:]), 'name', master_list)
the_deck.add(new_card, mb_or_sb, master_list, number = [int(line_list[0])])
return the_deck
# takes a directory and returns a list of Deck objects for every
# txt file in that directory
# Don't forget the final slash in the directory path!
def dir_to_decks(path, master_list):
decks_list = []
for filename in glob.glob(f"{path}*.txt"):
decks_list.append(txt_to_deck(filename, master_list))
return decks_list
# returns a dictionary of lists where each list index corresponds to the same card
# USES: dir_to_card_names, txt_to_card_names
def dir_to_master_list(input_dir):
all_card_names = dir_to_card_names(input_dir)
all_cards = {}
for val in all_card_names:
print("making Scryfall request")
all_cards[val] = scrython.cards.Named(fuzzy=val)
time.sleep(0.1)
# if you want to use card attributes other than these these,
# add them to the cards list below and the loop after that.
# If the field is a custom field (not a Scryfall one),
# you can also just manually make it
# in the csv file after you've already output it.
cards = {
"name_in_decklist": [],
"name": [],
"cmc": [],
"color_identity": [],
"type_line": [],
"mana_cost": [],
"custom_keywords": [],
}
for val in all_cards:
cards["name_in_decklist"].append(val)
# bc it might be "Brazen Borrower" in the decklist but
# "Brazen Borrower // Petty Theft" in Scryfall
cards["name"].append(all_cards[val].name())
cards["cmc"].append(all_cards[val].cmc())
cards["color_identity"].append(all_cards[val].color_identity())
cards["type_line"].append(all_cards[val].type_line())
try:
cards["mana_cost"].append(all_cards[val].mana_cost())
except KeyError:
cards["mana_cost"].append("")
cards["custom_keywords"].append("")
return cards
# returns a set of all card names in an entire directory
# don't forget the final slash in the directory path
# USES: text_to_card_names
def dir_to_card_names(dir_name):
card_set = set()
for filename in glob.glob(f"{dir_name}*.txt"):
s = txt_to_card_names(filename)
for val in s:
card_set.add(val)
return card_set
# returns a set containing all the card names in a specific
# deck txt file
def txt_to_card_names(file_name):
card_set = set()
f = open(file_name, "r")
for line in f:
if line != "\n":
stripped_line = line.strip()
line_list = stripped_line.split()
card_set.add(' '.join(line_list[1:]))
return card_set
def find_deck_files(input_directory, card_name):
print(f"Decks containing {card_name}:")
for filename in glob.glob(f"{input_directory}*.txt"):
f = open(filename, "r")
contains_card = False
for line in f:
if not ((line == "\n") or (line == "")):
stripped_line = line.strip()
line_list = stripped_line.split()
if ' '.join(line_list[1:]) == card_name:
contains_card = True
if contains_card == True:
print(filename)
def prune_spinner(list, field, spinner):
for card in spinner.get():
for val in list:
if not isinstance(card.get(field), float):
if val in card.get(field):
spinner.multiply(card, 0)
def other_colors(input_list):
output_list = ['W', 'U', 'B', 'R', 'G']
for color in input_list:
output_list.remove(color)
return output_list
def card_in_list_number(card, list):
total = 0
for list_card in list:
if card == list_card:
total += 1
return total
def keyword_in_list_number(keyword, field, list):
total = 0
for list_card in list:
if keyword in list_card.get(field):
total += 1
return total
def find_synergy_group(name, list):
for group in list:
if name == group.get('name'):
return group
def color_map():
color_map = {
'W' : 'White',
'U' : 'Blue',
'B' : 'Black',
'R' : 'Red',
'G' : 'Green'
}
return color_map
def basic_lands():
return ["Plains", "Island", "Swamp", "Mountain", "Forest",
"Snow-Covered Plains", "Snow-Covered Island", "Snow-Covered Swamp",
"Snow-Covered Mountain", "Snow-Covered Forest", "Wastes"]
| [
"noreply@github.com"
] | noreply@github.com |
a45d6d5dc449af0ee13747707b980ba6ccfb25bb | cbe59135edf1c03aef4ba4a37db7b2ef044a8061 | /manage.py | 87ce9fc302adeb5ce0e1f5992212dbdfa36a0a87 | [] | no_license | Bubuclem/metro | aabdc4244b834998212564779c5ea0b0683161a7 | 8c320b47d9169732694e12d9c865b3f3bcda6615 | refs/heads/master | 2023-04-12T04:09:35.238311 | 2021-05-22T10:38:39 | 2021-05-22T10:38:39 | 369,619,018 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 663 | py | #!/usr/bin/env python
"""Django's command-line utility for administrative tasks."""
import os
import sys
def main():
"""Run administrative tasks."""
os.environ.setdefault('DJANGO_SETTINGS_MODULE', 'TPMetro.settings')
try:
from django.core.management import execute_from_command_line
except ImportError as exc:
raise ImportError(
"Couldn't import Django. Are you sure it's installed and "
"available on your PYTHONPATH environment variable? Did you "
"forget to activate a virtual environment?"
) from exc
execute_from_command_line(sys.argv)
if __name__ == '__main__':
main()
| [
"clement.bubuyt@gmail.com"
] | clement.bubuyt@gmail.com |
4f8bac6b5e0090131a6376b376fa7e0af1e5899b | c9a910c3ebfed5a9c76c4681a0ce39fb7cb6ba08 | /Project/settings/staging.py | 4c57472bc36aa38c563f22e128c317cce623d292 | [] | no_license | gideonw14/django-starter | 8ba1dfaeba0951835254a0fd19b7b4da28210e44 | dff4ac695fd4cdde2f28789aa791d112e56e03a2 | refs/heads/master | 2021-07-12T07:09:37.720285 | 2017-10-16T22:33:43 | 2017-10-16T22:33:43 | 106,753,681 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 186 | py | # Staging version for running a semi-private version of the site on a production
# server. This is where managers and clients should be looking before your work is
# moved to production. | [
"gideonw14@gmail.com"
] | gideonw14@gmail.com |
75fdabe5340f4b15d16a487f118c0e2cc7b6ad4e | ab89de004e7c17cf23f497532e0e0249bfa7a35f | /BATTSI-v1.0-Part3.py | 833da439252b0115328ce16bb49cc9a27beeca37 | [] | no_license | fernan9/BATTSI | 0cf55fe4a44287cac2fa37bfd49c4715353d078f | 069e456ea44d6dbbfb19ae8dfd4c44625f47d991 | refs/heads/main | 2023-06-17T16:10:34.800328 | 2021-07-13T19:49:05 | 2021-07-13T19:49:05 | 385,718,755 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 5,647 | py | # -*- coding: utf-8 -*-
"""
BATTSI version 0.1
-
Standing for
-
Biological Activity Transformation Tool for Small Insects
version 0.1 - Still Script
last modified July 2021
-
Remaining bugs
*
This series of scripts uses the Python computer vision library OpenCV
"""
import cv2
import numpy as np
import pandas as pd
from time import process_time
from scipy import stats
from matplotlib import pyplot as plt
"""
Step 3/3 - Motion Detect
Motion detection module
The objective is to track activity of flies inside well trays
Activity is measured as movement
Video tracking can be used to estimate activity of flies per well
Absulute difference between frames is used
To succesfully evaluate CT in this setup we should follow:
- identify flies from background
- remove noise signal from plastic reflexions
- assign area to individual flies to generate data
- plot activity of individual wells along time
- define threshold of activity
- return a critical temperature estimate and confidence interval
LOG
- modification on 12/13/2020
Video was dropping at lost frames. This was solved in the past, but not saved.
A conditional was added to indicate the dropped frame.
Also, the lenght of the video is fictional, not general.
- modification on 07/12/2021 - July
Provide the following information
"""
videoName = 'test' # name of video
cuadros = 24 # frame rate
sampleSize = 20 # number of individuals
pozos = [[(308, 67), (332, 91)], [(336, 66), (363, 93)], [(366, 67), (396, 96)], [(395, 68), (422, 98)], [(302, 96), (333, 123)], [(336, 98), (363, 124)], [(367, 98), (393, 126)], [(394, 98), (419, 127)], [(302, 127), (331, 152)], [(334, 126), (362, 154)], [(363, 125), (390, 153)], [(393, 127), (422, 156)], [(303, 153), (332, 183)], [(332, 155), (363, 182)], [(363, 153), (391, 183)], [(390, 157), (420, 184)], [(301, 183), (331, 211)], [(333, 183), (361, 210)], [(363, 185), (390, 212)], [(390, 184), (420, 214)]]
"""
Below are the sensitivity parameters
"""
blurKernel = 9 # blur kernel 1,3,5,7,9
dilationIter = 3 # dilation iterations 3,5,7,9
"""
PROCEED TO RUN THE SCRIPT
"""
# remember to install MoviePy by typing in Spyder prompt
# conda install -c conda-forge moviepy
print("""-----
BATTSI - version 0.1
-
Perez Galvez July 2021
-
Motion Detect (part 3/3)
-
Transform video to dataframe
---
Video to run: {}
Frame rate: {}
Sample size: {}
--
""".format(videoName, cuadros, sampleSize))
#
cap = cv2.VideoCapture('{}.mp4'.format(videoName))
cuadrosTot = cap.get(cv2.CAP_PROP_FRAME_COUNT)
#cap.get(cv2.CAP_PROP_POS_MSEC)
#cap.set(cv2.CV_CAP_PROP_FPS, 15)
salida = [[]]
l2 = []
i = 0
ret, frame1 = cap.read()
ret, frame2 = cap.read()
nombres = []
for i in range(sampleSize):
a = 'well-%i' %(i+1)
nombres.append(a)
#
tamano = pozos
# start time flag
t1_start = process_time()
#
while cap.isOpened():
if ret:
diff = cv2.absdiff(frame1, frame2)
gray = cv2.cvtColor(diff,cv2.COLOR_BGR2GRAY)
blur = cv2.GaussianBlur(gray, (blurKernel,blurKernel), 0)
_, thresh = cv2.threshold(blur, 20, 255, cv2.THRESH_BINARY)
dilated = cv2.dilate(thresh, None, iterations=dilationIter)
frame1 = frame2
ret, frame2 = cap.read()
temp2 = []
clone=dilated.copy()
for j in range(len(pozos)):
temp = clone[pozos[j][0][1]:pozos[j][1][1],pozos[j][0][0]:pozos[j][1][0]]
#temp = dilated[pozos[j][0][1]:pozos[j][1][1],pozos[j][0][0]:pozos[j][1][0]]
#tamano =
actividad = np.sum(temp)/(temp.shape[0]*temp.shape[1])
temp2.append(actividad)
#print(tamano, actividad, i, nombres[j])
salida.append(temp2)
i+=1
if i % 1000 == 0: print("{} frames analyzed".format(i))
elif i > cuadrosTot-1 : # video length should be here
print(ret)
break
else:
print(ret,i,"drop frame")
ret, frame2 = cap.read()
i+=1
#salida.append(i)
print(i)
# stop time
t1_stop = process_time()
print("Elapsed time:", t1_stop, t1_start)
cv2.destroyAllWindows()
cap.release()
# Plot of activity traces
df=pd.DataFrame(salida,columns=nombres)
#hist = df.hist(bins=3)
#print(hist)
df['seconds'] = df.index / cuadros
colnames = list(df.columns)
barras = df.plot(x='seconds', y=colnames[:-1], figsize=(5,50),subplots = True)
plt.savefig('activity-{}-k{}-i{}.pdf'.format(videoName,blurKernel,dilationIter)) # k=kernel i=iterations
# Critical temperature analysis
sec = []
for column in df:
s = df[column].tolist()
ls = [k for k, e in enumerate(s) if e > 0]
if len(ls) == 0:
sec.append(0)
else:
sec.append(ls[(len(ls)-1)]/cuadros)
duracion = sec.pop()
print(sec, duracion)
#plt.hist(sec)
stats.describe(sec)
#plt.savefig('activityTrace-254.pdf')
df.to_csv('DataFrame-{}-k{}-i{}.csv'.format(videoName,blurKernel,dilationIter)) # where to save it, usually as a csv
#Then you can load it back using:
#df = pd.read_pickle(file_name)
"""
frame drop CORRECTION
"""
import ffmpeg
probe = ffmpeg.probe('{}.mp4'.format(videoName))
totalSec = probe['streams'][1]['duration']
CTmaxCorr = np.float64(sec)*float(totalSec)/duracion
resultados = {'Well':nombres,'CTmax':sec, 'CTmaxCorr':CTmaxCorr}
dfctmax = pd.DataFrame(resultados)
dfctmax.to_csv('result-{}-k{}-i{}.csv'.format(videoName,blurKernel,dilationIter))
| [
"noreply@github.com"
] | noreply@github.com |
7d6d68b3b902f1b2c8ce1f454317c21f2906e308 | 40268182f4aca109612a7c54c74b40bda245c3a2 | /src/main/admin/ducc_rsync | 0e25fbb941c75215fa9f6297a4a288685b7fd015 | [
"LicenseRef-scancode-unknown",
"CC0-1.0",
"CC-BY-2.0",
"CC-BY-SA-2.5",
"BSD-3-Clause",
"LicenseRef-scancode-unknown-license-reference",
"CC-BY-SA-3.0",
"LicenseRef-scancode-unicode",
"CC-BY-SA-2.0",
"Apache-2.0",
"LicenseRef-scancode-public-domain",
"MPL-1.0",
"LicenseRef-scancode-proprietar... | permissive | apache/uima-ducc | 51f51158e5bfb7f4d85efebcd3961fc73967c1e6 | fd8cab1dfe0ee8bd4b2e52637735f994048725cd | refs/heads/trunk | 2023-08-22T05:21:56.848900 | 2020-05-27T12:41:11 | 2020-05-27T12:41:11 | 15,070,660 | 9 | 24 | Apache-2.0 | 2023-07-18T12:32:19 | 2013-12-10T08:00:23 | Java | UTF-8 | Python | false | false | 14,020 | #!/usr/bin/env python
# -----------------------------------------------------------------------
# Licensed to the Apache Software Foundation (ASF) under one
# or more contributor license agreements. See the NOTICE file
# distributed with this work for additional information
# regarding copyright ownership. The ASF licenses this file
# to you under the Apache License, Version 2.0 (the
# "License"); you may not use this file except in compliance
# with the License. You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing,
# software distributed under the License is distributed on an
# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
# KIND, either express or implied. See the License for the
# specific language governing permissions and limitations
# under the License.
# -----------------------------------------------------------------------
import sys
version_min = [2, 7]
version_info = sys.version_info
version_error = False
if(version_info[0] < version_min[0]):
version_error = True
elif(version_info[0] == version_min[0]):
if(version_info[1] < version_min[1]):
version_error = True
if(version_error):
print('Python minimum requirement is version '+str(version_min[0])+'.'+str(version_min[1]))
sys.exit(1)
import argparse
import os
from argparse import RawDescriptionHelpFormatter
from ducc_util import *
class DuccRsync(DuccUtil):
merge = True
key_ducc_head = 'ducc.head'
key_ducc_head_reliable_list = 'ducc.head.reliable.list'
rsync_cmd = 'rsync'
rsync_flags = '-e "ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null" -avz --links --delete --ignore-errors --timeout 20'
symlink_cmd = 'rsync'
symlink_flags = '-e "ssh -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null" -vz --links --delete --ignore-errors --timeout 20'
ssh_cmd = 'ssh'
ssh_flags = '-o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null'
mkdir_cmd = 'mkdir'
mkdir_flags = '-p'
head_dirs_list = [
'admin',
'apache-uima',
'bin',
'cassandra-server',
'cron',
'docs',
'duccling',
'examples',
#'history',
'INSTALL',
'issuesFixed',
'lib',
'LICENSE',
#'logs',
'NOTICE',
'README',
'RELEASE_NOTES.html',
'resources',
'resources.private',
#'state',
'state/duccling.version',
'webserver',
]
agent_dirs_list = [
'admin',
'apache-uima',
'bin',
#'cassandra-server',
'cron',
'docs',
'duccling',
'examples',
#'history',
'INSTALL',
'issuesFixed',
'lib',
'LICENSE',
#'logs',
'NOTICE',
'README',
'RELEASE_NOTES.html',
'resources',
#'resources.private',
#'state',
#'webserver',
]
agent_files_list = [
'resources.private/ducc-broker-credentials.properties',
'state/duccling.version',
]
dual_dirs_list = head_dirs_list
head_dirs = ' '.join(head_dirs_list)
agent_dirs = ' '.join(agent_dirs_list)
dual_dirs = ' '.join(dual_dirs_list)
agent_files = ' '.join(agent_files_list)
def __init__(self):
DuccUtil.__init__(self, self.merge)
def _fn(self):
fpath = __file__.split('/')
flen = len(fpath)
return fpath[flen-1]
# extra help!
def get_epilog(self):
epilog = ''
epilog = epilog+'Purpose: synchronize DUCC directory(s) from present node to other head & agent nodes.'
return epilog
# parse command line
def get_args(self):
self.help_head_nodes = 'Blank separated list of head nodes to synchronize, default:"None"; specify "all" for '+' '.join(self.head_nodes)
self.help_agent_nodes = 'Blank separated list of agent nodes to synchronize, default:"None"; specify "all" for '+' '.join(self.agent_nodes)
self.help_head_dirs = 'Blank separated list of head directories (and files) to synchronize, default="'+self.head_dirs+'"'
self.help_agent_dirs = 'Blank separated list of agent directories (and files) to synchronize, default="'+self.agent_dirs+'"'
self.help_debug = 'Display debugging messages.'
self.help_quiet = 'Suppress informational messages.'
self.parser = argparse.ArgumentParser(formatter_class=RawDescriptionHelpFormatter,epilog=self.get_epilog())
self.parser.add_argument('--head-nodes' , action='store' , help=self.help_head_nodes)
self.parser.add_argument('--agent-nodes' , action='store' , help=self.help_agent_nodes)
self.parser.add_argument('--head-dirs' , action='store' , help=self.help_head_dirs)
self.parser.add_argument('--agent-dirs' , action='store' , help=self.help_agent_dirs)
self.parser.add_argument('--debug' , action='store_true', help=self.help_debug)
self.parser.add_argument('--quiet' , action='store_true', help=self.help_quiet)
self.args = self.parser.parse_args()
if(self.args.head_nodes == None):
if(self.args.agent_nodes == None):
raise Exception('--head-nodes and/or --agent-nodes must be specified')
# conditionally add node to list of nodes to be updated
def add(self,list,node):
if(node == self.localhost):
pass
elif(node in list):
pass
else:
list.append(node)
# create list of head nodes
def get_head_node_list(self):
node_list = []
# head
head = self.ducc_properties.get(self.key_ducc_head)
#reliable
reliable_string = self.ducc_properties.get(self.key_ducc_head_reliable_list)
reliable = reliable_string.split()
if(len(reliable) > 0):
for node in reliable:
self.add(node_list,node)
else:
self.add(node_list,head)
return node_list
# create list of head nodes
def get_agent_node_list(self):
node_list = []
ducc_nodes = 'ducc.nodes'
nodefiles = ducc_nodes.split();
map = {}
for nodefile in nodefiles:
nodes, map = self.read_nodefile(nodefile,map)
for key in map:
value = map[key]
for node in value:
self.add(node_list,node)
return node_list
# use user specified head nodes, else from ducc.properties
def resolve_head_nodes(self):
if(self.args.head_nodes == None):
self.head_nodes = None
elif(self.args.head_nodes.lower() != 'all'):
self.head_nodes = self.args.head_nodes.split()
# use user specified agent nodes, else from ducc.nodes
def resolve_agent_nodes(self):
if(self.args.agent_nodes == None):
self.agent_nodes = None
elif(self.args.agent_nodes.lower() != 'all'):
self.agent_nodes = self.args.agent_nodes.split()
# update nodes that are head+agent
def update_dual(self,user):
rc = 0
if(self.head_nodes != None):
if(self.agent_nodes != None):
for node in self.head_nodes:
if(node in self.agent_nodes):
if(self.args.debug):
print 'update head+agent: '+node
self.mkdir(node,user)
rc = self.rsync_dirs(node,user,self.dual_dirs)
return rc
# update nodes that are head only
def update_heads(self,user):
rc = 0
update = True
if(self.head_nodes != None):
for node in self.head_nodes:
if(self.agent_nodes != None):
if(node in self.agent_nodes):
# dual should have done this one
update = False
if(update):
if(self.args.debug):
print 'update head: '+node
self.mkdir(node,user)
rc = self.rsync_dirs(node,user,self.head_dirs)
return rc
# update nodes that are agent only
def update_agents(self,user):
rc = 0
update = True
if(self.agent_nodes != None):
for node in self.agent_nodes:
if(self.head_nodes != None):
if(node in self.head_nodes):
# dual should have done this one
update = False
if(update):
if(self.args.debug):
print 'update agent: '+node
self.mkdir(node,user)
rc = self.rsync_dirs(node,user,self.agent_dirs)
if(rc == 0):
rc = self.rsync_files(node,user,self.agent_files)
return rc
# update the specified node dirs
def mkdir(self,node,user):
rc = 0
rmt = self.mkdir_cmd+' '+self.mkdir_flags+' '+DUCC_HOME
cmd = self.ssh_cmd+' '+self.ssh_flags+' '+user+'@'+node+' '+rmt
proc = subprocess.Popen(cmd, shell=True, bufsize=0, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
lines = []
for line in proc.stdout:
lines.append(line.strip())
proc.wait()
rc = proc.returncode
if(rc != 0):
self.rsync_display(rc, cmd, lines)
elif(self.args.debug):
self.rsync_display(rc, cmd, lines)
return rc
# update the specified node dirs
def rsync_dirs(self,node,user,subdirs):
rc = 0
for subdir in subdirs.split():
if(not self.args.quiet):
print 'rsync '+user+' '+node+' '+subdir
dir = os.path.join(DUCC_HOME,subdir)
cmd = self.rsync_cmd+' '+self.rsync_flags+' '+dir+' '+user+'@'+node+':'+DUCC_HOME
proc = subprocess.Popen(cmd, shell=True, bufsize=0, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
lines = []
for line in proc.stdout:
lines.append(line.strip())
proc.wait()
rc = proc.returncode
if(rc != 0):
self.rsync_display(rc, cmd, lines)
break
elif(self.args.debug):
self.rsync_display(rc, cmd, lines)
self.symlink(user,node)
return rc
# update the specified node files
def rsync_files(self,node,user,subfiles):
rc = 0
for subfile in subfiles.split():
if(not self.args.quiet):
print 'rsync '+user+' '+node+' '+subfile
file = os.path.join(DUCC_HOME,subfile)
# head = abs path of this script (.../admin)
head, tail = os.path.split(file)
rmt = self.mkdir_cmd+' '+self.mkdir_flags+' '+head
cmd = self.ssh_cmd+' '+self.ssh_flags+' '+user+'@'+node+' '+rmt
proc = subprocess.Popen(cmd, shell=True, bufsize=0, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
lines = []
for line in proc.stdout:
lines.append(line.strip())
proc.wait()
rc = proc.returncode
if(rc != 0):
self.rsync_display(rc, cmd, lines)
break
elif(self.args.debug):
self.rsync_display(rc, cmd, lines)
# rsync file
cmd = self.rsync_cmd+' '+self.rsync_flags+' '+file+' '+user+'@'+node+':'+head
proc = subprocess.Popen(cmd, shell=True, bufsize=0, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
lines = []
for line in proc.stdout:
lines.append(line.strip())
proc.wait()
rc = proc.returncode
if(rc != 0):
self.rsync_display(rc, cmd, lines)
break
elif(self.args.debug):
self.rsync_display(rc, cmd, lines)
self.symlink(user,node)
return rc
def rsync_display(self, rc, cmd, lines):
print rc, cmd
for line in lines:
print line
def symlink(self,user,node):
# head = abs path of this script (.../admin)
head, tail = os.path.split(sys.argv[0])
# ducc_home = abs path of DUCC_HOME
ducc_home, tail = os.path.split(head)
if(len(ducc_home) > 0):
user_home = os.path.expanduser('~')
ducc_runtime = os.path.join(user_home,'ducc_runtime')
rmt = 'ln -s '+ducc_home+' '+ducc_runtime
cmd = self.ssh_cmd+' '+self.ssh_flags+' '+user+'@'+node+' '+rmt
proc = subprocess.Popen(cmd, shell=True, bufsize=0, stdout=subprocess.PIPE, stderr=subprocess.STDOUT)
lines = []
for line in proc.stdout:
lines.append(line.strip())
proc.wait()
rc = proc.returncode
#if(rc != 0):
#self.rsync_display(rc, cmd, lines)
# do rsync of dir(s) from present node to peer(s)
def main(self, argv):
try:
self.head_nodes = self.get_head_node_list()
self.agent_nodes = self.get_agent_node_list()
self.get_args()
self.resolve_head_nodes()
self.resolve_agent_nodes()
user = find_ducc_uid()
rc = 0
if(rc == 0):
rc = self.update_dual(user)
if(rc == 0):
rc = self.update_heads(user)
if(rc == 0):
rc = self.update_agents(user)
except Exception,e:
print e
if __name__ == '__main__':
instance = DuccRsync()
instance.main(sys.argv[1:])
| [
"degenaro@apache.org"
] | degenaro@apache.org | |
68fc4fa054a1a05f3a080363e2ac0012b84033e5 | 0f0a02662668a863f0d104567525ea2dc4ff44e2 | /transformToLD/Classes/dbpedia.py | bb2035481a5fb80a649a9a8af4bca7702f9d9700 | [] | no_license | MinaMeh/TransformToLD | ad97603787c6b6af4fd4ea7c9bdd73f537b58956 | 2be072ad07a0993b5473c04cccd6edcc5c5d5b35 | refs/heads/master | 2022-12-14T11:01:03.436595 | 2020-09-02T21:46:20 | 2020-09-02T21:46:20 | 231,263,872 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 8,896 | py | MY_LIST = ['Abbey', 'AcademicConference', 'AcademicJournal', 'Activity', 'Actor', 'AdministrativeRegion', 'AdultActor', 'Agent', 'Aircraft', 'Airline', 'Airport', 'Album', 'AmateurBoxer', 'Ambassador', 'AmericanFootballLeague', 'AmericanFootballPlayer', 'AmericanFootballTeam', 'Amphibian', 'AmusementParkAttraction', 'AnatomicalStructure', 'Animal', 'AnimangaCharacter', 'Anime', 'Arachnid', 'Archaea', 'Archeologist', 'Architect', 'ArchitecturalStructure', 'Arena', 'Aristocrat', 'Arrondissement', 'Artery', 'ArtificialSatellite', 'Artist', 'ArtistDiscography', 'Artwork', 'Asteroid', 'Astronaut', 'Athlete', 'AthleticsPlayer', 'Atoll', 'Attack', 'AustralianFootballLeague', 'AustralianFootballTeam', 'AustralianRulesFootballPlayer', 'AutoRacingLeague', 'Automobile', 'AutomobileEngine', 'Award', 'BackScene', 'Bacteria', 'BadmintonPlayer', 'Band', 'Bank', 'Baronet', 'BaseballLeague', 'BaseballPlayer', 'BaseballSeason', 'BaseballTeam', 'BasketballLeague', 'BasketballPlayer', 'BasketballTeam', 'Bay', 'Beach', 'BeachVolleyballPlayer', 'BeautyQueen', 'Beer', 'Beverage', 'Biathlete', 'BiologicalDatabase', 'Biologist', 'Biomolecule', 'Bird', 'BloodVessel', 'BoardGame', 'BobsleighAthlete', 'BodyOfWater', 'Bodybuilder', 'Bone', 'Book', 'BowlingLeague', 'Boxer', 'BoxingLeague', 'Brain', 'Brewery', 'Bridge', 'BritishRoyalty', 'BroadcastNetwork', 'Broadcaster', 'BrownDwarf', 'Building', 'BullFighter', 'BusCompany', 'BusinessPerson', 'Camera', 'CanadianFootballLeague', 'CanadianFootballTeam', 'Canal', 'Canoeist', 'Cardinal', 'Cartoon', 'Case', 'Casino', 'Castle', 'Cat', 'Cave', 'CelestialBody', 'Cemetery', 'Chancellor', 'ChartsPlacements', 'Cheese', 'Chef', 'ChemicalCompound', 'ChemicalElement', 'ChemicalSubstance', 'ChessPlayer', 'ChristianBishop', 'ChristianPatriarch', 'Church', 'City', 'CityDistrict', 'ClassicalMusicArtist', 'ClassicalMusicComposition', 'Cleric', 'ClericalAdministrativeRegion', 'ClubMoss', 'Coach', 'CollectionOfValuables', 'College', 'CollegeCoach', 'Colour', 'Comedian', 'ComedyGroup', 'Comic', 'ComicBook', 'ComicStrip', 'Comics', 'ComicsCharacter', 'ComicsCreator', 'Company', 'ConcentrationCamp', 'Congressman', 'Conifer', 'Constellation', 'Continent', 'Convention', 'Country', 'Crater', 'CricketGround', 'CricketLeague', 'CricketTeam', 'Cricketer', 'Criminal', 'CrossCountrySkier', 'Crustacean', 'CultivatedVariety', 'Curler', 'CurlingLeague', 'Currency', 'Cycad', 'CyclingCompetition', 'CyclingLeague', 'CyclingRace', 'CyclingTeam', 'Cyclist', 'DTMRacer', 'Dam', 'DartsPlayer', 'Database', 'Decoration', 'Deity', 'Department', 'Deputy', 'Device', 'DigitalCamera', 'Diocese', 'Disease', 'District', 'DistrictWaterBoard', 'Dog', 'Drug', 'Earthquake', 'Economist', 'EducationalInstitution', 'Egyptologist', 'Election', 'ElectionDiagram', 'Embryology', 'EmployersOrganisation', 'Engineer', 'Entomologist', 'Enzyme', 'EthnicGroup', 'Eukaryote', 'EurovisionSongContestEntry', 'Event', 'Factory', 'Family', 'Fashion', 'FashionDesigner', 'Fencer', 'Fern', 'Festival', 'FictionalCharacter', 'FieldHockeyLeague', 'FigureSkater', 'Film', 'FilmFestival', 'Fish', 'Flag', 'FloweringPlant', 'Food', 'FootballLeagueSeason', 'FootballMatch', 'FormerMunicipality', 'FormulaOneRacer', 'FormulaOneTeam', 'Fungus', 'GaelicGamesPlayer', 'Galaxy', 'Game', 'Garden', 'GatedCommunity', 'Gene', 'Genre', 'GeologicalPeriod', 'Ginkgo', 'GivenName', 'Glacier', 'Gnetophytes', 'GolfCourse', 'GolfLeague', 'GolfPlayer', 'GolfTournament', 'GovernmentAgency', 'GovernmentCabinet', 'GovernmentalAdministrativeRegion', 'Governor', 'GrandPrix', 'Grape', 'GreenAlga', 'GridironFootballPlayer', 'Group', 'Guitar', 'Guitarist', 'Gymnast', 'HandballLeague', 'HandballPlayer', 'HandballTeam', 'HighDiver', 'Historian', 'HistoricBuilding', 'HistoricPlace', 'HockeyClub', 'HockeyTeam', 'Holiday', 'HollywoodCartoon', 'Horse', 'HorseRace', 'HorseRider', 'HorseTrainer', 'Hospital', 'Hotel', 'HumanGene', 'Humorist', 'IceHockeyLeague', 'IceHockeyPlayer', 'InformationAppliance', 'Infrastructure', 'InlineHockeyLeague', 'Insect', 'Instrument', 'Instrumentalist', 'Intercommunality', 'InternationalFootballLeagueEvent', 'InternationalOrganisation', 'Island', 'Jockey', 'Journalist', 'Judge', 'LacrosseLeague', 'LacrossePlayer', 'Lake', 'Language', 'LaunchPad', 'Law', 'LawFirm', 'LegalCase', 'Legislature', 'Library', 'Ligament', 'Lighthouse', 'Linguist', 'List', 'Locality', 'Lock', 'Locomotive', 'LunarCrater', 'Lymph', 'Magazine', 'Mammal', 'Manga',
'Manhua', 'Manhwa', 'MartialArtist', 'Mayor', 'MeanOfTransportation', 'Medician', 'MemberOfParliament', 'MemberResistanceMovement', 'MetroStation', 'MicroRegion', 'MilitaryAircraft', 'MilitaryConflict', 'MilitaryPerson', 'MilitaryStructure', 'MilitaryUnit', 'MilitaryVehicle', 'Mill', 'Mine', 'Mineral', 'MixedMartialArtsEvent', 'MixedMartialArtsLeague', 'Model', 'Mollusca', 'Monarch', 'Monastery', 'Monument', 'Mosque', 'Moss', 'MotocycleRacer', 'MotorRace', 'Motorcycle', 'MotorcycleRacingLeague', 'MotorcycleRider', 'MotorsportRacer', 'MotorsportSeason', 'Mountain', 'MountainPass', 'MountainRange', 'MultiVolumePublication', 'Municipality', 'Murderer', 'Muscle', 'Museum', 'MusicFestival', 'MusicGenre', 'MusicGroup', 'Musical', 'MusicalArtist', 'MusicalWork', 'MythologicalFigure', 'NCAATeamSeason', 'Name', 'NarutoCharacter', 'NascarDriver', 'NationalCollegiateAthleticAssociationAthlete', 'NationalFootballLeagueEvent', 'NationalFootballLeagueSeason', 'NaturalEvent', 'NaturalPlace', 'NaturalRegion', 'Nerve', 'NetballPlayer', 'Newspaper', 'Noble', 'NobleFamily', 'Non-ProfitOrganisation', 'NordicCombined', 'Novel', 'NuclearPowerStation', 'OfficeHolder', 'OldTerritory', 'OlympicEvent', 'OlympicResult', 'Olympics', 'Opera', 'Organisation', 'OrganisationMember', 'Painter', 'Painting', 'Parish', 'Park', 'PeriodicalLiterature', 'Person', 'PersonFunction', 'Philosopher', 'Photographer', 'Place', 'Planet', 'Plant', 'Play', 'PlayboyPlaymate', 'Poem', 'Poet', 'PokerPlayer', 'PoliticalFunction', 'PoliticalParty', 'Politician', 'PoliticianSpouse', 'PoloLeague', 'Pope', 'PopulatedPlace', 'Port', 'PowerStation', 'Prefecture', 'Presenter', 'President', 'Priest', 'PrimeMinister', 'Prison', 'Product', 'Profession', 'Professor', 'ProgrammingLanguage', 'Project', 'ProtectedArea', 'Protein', 'Province', 'PublicTransitSystem', 'Publisher', 'Race', 'RaceHorse', 'RaceTrack', 'Racecourse', 'RacingDriver', 'RadioHost', 'RadioProgram', 'RadioStation', 'RailwayLine', 'RailwayStation', 'RailwayTunnel', 'RallyDriver', 'Rebellion', 'RecordLabel', 'RecordOffice', 'Referee', 'Region', 'Religious', 'ReligiousBuilding', 'ReligiousOrganisation', 'Reptile', 'ResearchProject', 'RestArea', 'Restaurant', 'River', 'Road', 'RoadJunction', 'RoadTunnel', 'Rocket', 'RocketEngine', 'RollerCoaster', 'RomanEmperor', 'RouteOfTransportation', 'Rower', 'Royalty', 'RugbyClub', 'RugbyLeague', 'RugbyPlayer', 'Saint', 'SambaSchool', 'Satellite', 'School', 'Scientist', 'ScreenWriter', 'Sculpture', 'Sea', 'Senator', 'SerialKiller', 'Settlement', 'Ship', 'ShoppingMall', 'Singer', 'Single', 'SiteOfSpecialScientificInterest', 'Skater', 'SkiArea', 'SkiResort', 'Ski_jumper', 'Skier', 'Skyscraper', 'SnookerChamp', 'SnookerPlayer', 'SnookerWorldRanking', 'SoapCharacter', 'SoccerClub', 'SoccerClubSeason', 'SoccerLeague', 'SoccerLeagueSeason', 'SoccerManager', 'SoccerPlayer', 'SoccerTournament', 'SocietalEvent', 'SoftballLeague', 'Software', 'SolarEclipse', 'Song', 'SpaceMission', 'SpaceShuttle', 'SpaceStation', 'Spacecraft', 'Species', 'SpeedSkater', 'SpeedwayLeague', 'SpeedwayRider', 'SpeedwayTeam', 'Sport', 'SportCompetitionResult', 'SportFacility', 'SportsClub', 'SportsEvent', 'SportsLeague', 'SportsManager', 'SportsSeason', 'SportsTeam', 'SportsTeamMember', 'SportsTeamSeason', 'Square', 'SquashPlayer', 'Stadium', 'Standard', 'Star', 'State', 'StatedResolution', 'Station', 'Statistic', 'StormSurge', 'Stream', 'Street', 'SubMunicipality', 'SumoWrestler', 'SupremeCourtOfTheUnitedStatesCase', 'Surfer', 'Surname', 'Swimmer', 'Synagogue', 'TableTennisPlayer', 'Tax', 'TelevisionEpisode', 'TelevisionHost', 'TelevisionSeason', 'TelevisionShow', 'TelevisionStation', 'TennisLeague', 'TennisPlayer', 'TennisTournament', 'Territory', 'Theatre', 'TimePeriod', 'TopicalConcept', 'Tournament', 'Tower', 'Town', 'TrackList', 'TradeUnion', 'Train', 'TrainCarriage', 'TramStation', 'Treaty', 'Tunnel', 'UndergroundJournal', 'UnitOfWork', 'University', 'Valley', 'Vein', 'Venue', 'Vicar', 'VicePresident', 'VideoGame', 'VideogamesLeague', 'Village', 'Vodka', 'VoiceActor', 'Volcano', 'VolleyballCoach', 'VolleyballLeague', 'VolleyballPlayer', 'WaterRide', 'WaterTower', 'Watermill', 'WaterwayTunnel', 'Weapon', 'Website', 'WindMotor', 'Windmill', 'Wine', 'WineRegion', 'Winery', 'WinterSportPlayer', 'WomensTennisAssociationTournament', 'Work', 'WorldHeritageSite', 'Wrestler', 'WrestlingEvent', 'Writer', 'WrittenWork', 'Year', 'YearInSpaceflight', 'Zoo']
| [
"fa_meherhera@esi.dz"
] | fa_meherhera@esi.dz |
a3ed777084912071631cfd77693a976fda3ed110 | 266648ed05db468dad88d2d249c6f84877be8ce5 | /day2/num2_10.py | f4c6ca52bbee57e11cf72ef083b8ff2b2ea08a4e | [] | no_license | nicklez5/summitworks | 6227011cff716a2cd4450cc04e76e2472487db31 | c2516851560e5a5ae3520095eae81c7413d7071c | refs/heads/main | 2023-03-02T04:38:45.554920 | 2021-02-01T19:41:17 | 2021-02-01T19:41:17 | 331,765,678 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 313 | py | import random
all_words = "all the words in the world".split()
def get_random_word():
return random.choice(all_words)
def get_unique_words():
list_set = []
while(len(list_set) != 1000):
list_set.append(get_random_word())
tmp_set = set(list_set)
print(tmp_set)
get_unique_words()
| [
"jlu080@ucr.edu"
] | jlu080@ucr.edu |
7235263640152d56990e710466dad45c4b7f817f | 162e0e4791188bd44f6ce5225ff3b1f0b1aa0b0d | /mrex/metrics/tests/test_common.py | 27be6f705fd1d384f9a902c6518ff891fc0eb1e9 | [] | no_license | testsleeekGithub/trex | 2af21fa95f9372f153dbe91941a93937480f4e2f | 9d27a9b44d814ede3996a37365d63814214260ae | refs/heads/master | 2020-08-01T11:47:43.926750 | 2019-11-06T06:47:19 | 2019-11-06T06:47:19 | 210,987,245 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 52,155 | py |
from functools import partial
from itertools import product
from itertools import chain
from itertools import permutations
import numpy as np
import scipy.sparse as sp
import pytest
from mrex.datasets import make_multilabel_classification
from mrex.preprocessing import LabelBinarizer
from mrex.utils.multiclass import type_of_target
from mrex.utils.validation import _num_samples
from mrex.utils.validation import check_random_state
from mrex.utils import shuffle
from mrex.utils.testing import assert_allclose
from mrex.utils.testing import assert_almost_equal
from mrex.utils.testing import assert_array_equal
from mrex.utils.testing import assert_array_less
from mrex.utils.testing import assert_raise_message
from mrex.utils.testing import assert_raises
from mrex.utils.testing import ignore_warnings
from mrex.metrics import accuracy_score
from mrex.metrics import average_precision_score
from mrex.metrics import balanced_accuracy_score
from mrex.metrics import brier_score_loss
from mrex.metrics import cohen_kappa_score
from mrex.metrics import confusion_matrix
from mrex.metrics import coverage_error
from mrex.metrics import explained_variance_score
from mrex.metrics import f1_score
from mrex.metrics import fbeta_score
from mrex.metrics import hamming_loss
from mrex.metrics import hinge_loss
from mrex.metrics import jaccard_score
from mrex.metrics import label_ranking_average_precision_score
from mrex.metrics import label_ranking_loss
from mrex.metrics import log_loss
from mrex.metrics import max_error
from mrex.metrics import matthews_corrcoef
from mrex.metrics import mean_absolute_error
from mrex.metrics import mean_squared_error
from mrex.metrics import mean_tweedie_deviance
from mrex.metrics import mean_poisson_deviance
from mrex.metrics import mean_gamma_deviance
from mrex.metrics import median_absolute_error
from mrex.metrics import multilabel_confusion_matrix
from mrex.metrics import precision_recall_curve
from mrex.metrics import precision_score
from mrex.metrics import r2_score
from mrex.metrics import recall_score
from mrex.metrics import roc_auc_score
from mrex.metrics import roc_curve
from mrex.metrics import zero_one_loss
from mrex.metrics import ndcg_score
from mrex.metrics import dcg_score
from mrex.metrics.base import _average_binary_score
# Note toward developers about metric testing
# -------------------------------------------
# It is often possible to write one general test for several metrics:
#
# - invariance properties, e.g. invariance to sample order
# - common behavior for an argument, e.g. the "normalize" with value True
# will return the mean of the metrics and with value False will return
# the sum of the metrics.
#
# In order to improve the overall metric testing, it is a good idea to write
# first a specific test for the given metric and then add a general test for
# all metrics that have the same behavior.
#
# Two types of datastructures are used in order to implement this system:
# dictionaries of metrics and lists of metrics wit common properties.
#
# Dictionaries of metrics
# ------------------------
# The goal of having those dictionaries is to have an easy way to call a
# particular metric and associate a name to each function:
#
# - REGRESSION_METRICS: all regression metrics.
# - CLASSIFICATION_METRICS: all classification metrics
# which compare a ground truth and the estimated targets as returned by a
# classifier.
# - THRESHOLDED_METRICS: all classification metrics which
# compare a ground truth and a score, e.g. estimated probabilities or
# decision function (format might vary)
#
# Those dictionaries will be used to test systematically some invariance
# properties, e.g. invariance toward several input layout.
#
REGRESSION_METRICS = {
"max_error": max_error,
"mean_absolute_error": mean_absolute_error,
"mean_squared_error": mean_squared_error,
"median_absolute_error": median_absolute_error,
"explained_variance_score": explained_variance_score,
"r2_score": partial(r2_score, multioutput='variance_weighted'),
"mean_normal_deviance": partial(mean_tweedie_deviance, p=0),
"mean_poisson_deviance": mean_poisson_deviance,
"mean_gamma_deviance": mean_gamma_deviance,
"mean_compound_poisson_deviance":
partial(mean_tweedie_deviance, p=1.4),
}
CLASSIFICATION_METRICS = {
"accuracy_score": accuracy_score,
"balanced_accuracy_score": balanced_accuracy_score,
"adjusted_balanced_accuracy_score": partial(balanced_accuracy_score,
adjusted=True),
"unnormalized_accuracy_score": partial(accuracy_score, normalize=False),
# `confusion_matrix` returns absolute values and hence behaves unnormalized
# . Naming it with an unnormalized_ prefix is neccessary for this module to
# skip sample_weight scaling checks which will fail for unnormalized
# metrics.
"unnormalized_confusion_matrix": confusion_matrix,
"normalized_confusion_matrix": lambda *args, **kwargs: (
confusion_matrix(*args, **kwargs).astype('float') / confusion_matrix(
*args, **kwargs).sum(axis=1)[:, np.newaxis]
),
"unnormalized_multilabel_confusion_matrix": multilabel_confusion_matrix,
"unnormalized_multilabel_confusion_matrix_sample":
partial(multilabel_confusion_matrix, samplewise=True),
"hamming_loss": hamming_loss,
"zero_one_loss": zero_one_loss,
"unnormalized_zero_one_loss": partial(zero_one_loss, normalize=False),
# These are needed to test averaging
"jaccard_score": jaccard_score,
"precision_score": precision_score,
"recall_score": recall_score,
"f1_score": f1_score,
"f2_score": partial(fbeta_score, beta=2),
"f0.5_score": partial(fbeta_score, beta=0.5),
"matthews_corrcoef_score": matthews_corrcoef,
"weighted_f0.5_score": partial(fbeta_score, average="weighted", beta=0.5),
"weighted_f1_score": partial(f1_score, average="weighted"),
"weighted_f2_score": partial(fbeta_score, average="weighted", beta=2),
"weighted_precision_score": partial(precision_score, average="weighted"),
"weighted_recall_score": partial(recall_score, average="weighted"),
"weighted_jaccard_score": partial(jaccard_score, average="weighted"),
"micro_f0.5_score": partial(fbeta_score, average="micro", beta=0.5),
"micro_f1_score": partial(f1_score, average="micro"),
"micro_f2_score": partial(fbeta_score, average="micro", beta=2),
"micro_precision_score": partial(precision_score, average="micro"),
"micro_recall_score": partial(recall_score, average="micro"),
"micro_jaccard_score": partial(jaccard_score, average="micro"),
"macro_f0.5_score": partial(fbeta_score, average="macro", beta=0.5),
"macro_f1_score": partial(f1_score, average="macro"),
"macro_f2_score": partial(fbeta_score, average="macro", beta=2),
"macro_precision_score": partial(precision_score, average="macro"),
"macro_recall_score": partial(recall_score, average="macro"),
"macro_jaccard_score": partial(jaccard_score, average="macro"),
"samples_f0.5_score": partial(fbeta_score, average="samples", beta=0.5),
"samples_f1_score": partial(f1_score, average="samples"),
"samples_f2_score": partial(fbeta_score, average="samples", beta=2),
"samples_precision_score": partial(precision_score, average="samples"),
"samples_recall_score": partial(recall_score, average="samples"),
"samples_jaccard_score": partial(jaccard_score, average="samples"),
"cohen_kappa_score": cohen_kappa_score,
}
def precision_recall_curve_padded_thresholds(*args, **kwargs):
"""
The dimensions of precision-recall pairs and the threshold array as
returned by the precision_recall_curve do not match. See
func:`mrex.metrics.precision_recall_curve`
This prevents implicit conversion of return value triple to an higher
dimensional np.array of dtype('float64') (it will be of dtype('object)
instead). This again is needed for assert_array_equal to work correctly.
As a workaround we pad the threshold array with NaN values to match
the dimension of precision and recall arrays respectively.
"""
precision, recall, thresholds = precision_recall_curve(*args, **kwargs)
pad_threshholds = len(precision) - len(thresholds)
return np.array([
precision,
recall,
np.pad(thresholds,
pad_width=(0, pad_threshholds),
mode='constant',
constant_values=[np.nan])
])
CURVE_METRICS = {
"roc_curve": roc_curve,
"precision_recall_curve": precision_recall_curve_padded_thresholds,
}
THRESHOLDED_METRICS = {
"coverage_error": coverage_error,
"label_ranking_loss": label_ranking_loss,
"log_loss": log_loss,
"unnormalized_log_loss": partial(log_loss, normalize=False),
"hinge_loss": hinge_loss,
"brier_score_loss": brier_score_loss,
"roc_auc_score": roc_auc_score, # default: average="macro"
"weighted_roc_auc": partial(roc_auc_score, average="weighted"),
"samples_roc_auc": partial(roc_auc_score, average="samples"),
"micro_roc_auc": partial(roc_auc_score, average="micro"),
"ovr_roc_auc": partial(roc_auc_score, average="macro", multi_class='ovr'),
"weighted_ovr_roc_auc": partial(roc_auc_score, average="weighted",
multi_class='ovr'),
"ovo_roc_auc": partial(roc_auc_score, average="macro", multi_class='ovo'),
"weighted_ovo_roc_auc": partial(roc_auc_score, average="weighted",
multi_class='ovo'),
"partial_roc_auc": partial(roc_auc_score, max_fpr=0.5),
"average_precision_score":
average_precision_score, # default: average="macro"
"weighted_average_precision_score":
partial(average_precision_score, average="weighted"),
"samples_average_precision_score":
partial(average_precision_score, average="samples"),
"micro_average_precision_score":
partial(average_precision_score, average="micro"),
"label_ranking_average_precision_score":
label_ranking_average_precision_score,
"ndcg_score": ndcg_score,
"dcg_score": dcg_score
}
ALL_METRICS = dict()
ALL_METRICS.update(THRESHOLDED_METRICS)
ALL_METRICS.update(CLASSIFICATION_METRICS)
ALL_METRICS.update(REGRESSION_METRICS)
ALL_METRICS.update(CURVE_METRICS)
# Lists of metrics with common properties
# ---------------------------------------
# Lists of metrics with common properties are used to test systematically some
# functionalities and invariance, e.g. SYMMETRIC_METRICS lists all metrics that
# are symmetric with respect to their input argument y_true and y_pred.
#
# When you add a new metric or functionality, check if a general test
# is already written.
# Those metrics don't support binary inputs
METRIC_UNDEFINED_BINARY = {
"samples_f0.5_score",
"samples_f1_score",
"samples_f2_score",
"samples_precision_score",
"samples_recall_score",
"samples_jaccard_score",
"coverage_error",
"unnormalized_multilabel_confusion_matrix_sample",
"label_ranking_loss",
"label_ranking_average_precision_score",
"dcg_score",
"ndcg_score"
}
# Those metrics don't support multiclass inputs
METRIC_UNDEFINED_MULTICLASS = {
"brier_score_loss",
"micro_roc_auc",
"samples_roc_auc",
"partial_roc_auc",
"roc_auc_score",
"weighted_roc_auc",
"average_precision_score",
"weighted_average_precision_score",
"micro_average_precision_score",
"samples_average_precision_score",
"jaccard_score",
# with default average='binary', multiclass is prohibited
"precision_score",
"recall_score",
"f1_score",
"f2_score",
"f0.5_score",
# curves
"roc_curve",
"precision_recall_curve",
}
# Metric undefined with "binary" or "multiclass" input
METRIC_UNDEFINED_BINARY_MULTICLASS = METRIC_UNDEFINED_BINARY.union(
METRIC_UNDEFINED_MULTICLASS)
# Metrics with an "average" argument
METRICS_WITH_AVERAGING = {
"precision_score", "recall_score", "f1_score", "f2_score", "f0.5_score",
"jaccard_score"
}
# Threshold-based metrics with an "average" argument
THRESHOLDED_METRICS_WITH_AVERAGING = {
"roc_auc_score", "average_precision_score", "partial_roc_auc",
}
# Metrics with a "pos_label" argument
METRICS_WITH_POS_LABEL = {
"roc_curve",
"precision_recall_curve",
"brier_score_loss",
"precision_score", "recall_score", "f1_score", "f2_score", "f0.5_score",
"jaccard_score",
"average_precision_score",
"weighted_average_precision_score",
"micro_average_precision_score",
"samples_average_precision_score",
# pos_label support deprecated; to be removed in 0.18:
"weighted_f0.5_score", "weighted_f1_score", "weighted_f2_score",
"weighted_precision_score", "weighted_recall_score",
"micro_f0.5_score", "micro_f1_score", "micro_f2_score",
"micro_precision_score", "micro_recall_score",
"macro_f0.5_score", "macro_f1_score", "macro_f2_score",
"macro_precision_score", "macro_recall_score",
}
# Metrics with a "labels" argument
# TODO: Handle multi_class metrics that has a labels argument as well as a
# decision function argument. e.g hinge_loss
METRICS_WITH_LABELS = {
"unnormalized_confusion_matrix",
"normalized_confusion_matrix",
"roc_curve",
"precision_recall_curve",
"hamming_loss",
"precision_score", "recall_score", "f1_score", "f2_score", "f0.5_score",
"jaccard_score",
"weighted_f0.5_score", "weighted_f1_score", "weighted_f2_score",
"weighted_precision_score", "weighted_recall_score",
"weighted_jaccard_score",
"micro_f0.5_score", "micro_f1_score", "micro_f2_score",
"micro_precision_score", "micro_recall_score",
"micro_jaccard_score",
"macro_f0.5_score", "macro_f1_score", "macro_f2_score",
"macro_precision_score", "macro_recall_score",
"macro_jaccard_score",
"unnormalized_multilabel_confusion_matrix",
"unnormalized_multilabel_confusion_matrix_sample",
"cohen_kappa_score",
}
# Metrics with a "normalize" option
METRICS_WITH_NORMALIZE_OPTION = {
"accuracy_score",
"zero_one_loss",
}
# Threshold-based metrics with "multilabel-indicator" format support
THRESHOLDED_MULTILABEL_METRICS = {
"log_loss",
"unnormalized_log_loss",
"roc_auc_score", "weighted_roc_auc", "samples_roc_auc",
"micro_roc_auc", "partial_roc_auc",
"average_precision_score", "weighted_average_precision_score",
"samples_average_precision_score", "micro_average_precision_score",
"coverage_error", "label_ranking_loss",
"ndcg_score",
"dcg_score",
"label_ranking_average_precision_score",
}
# Classification metrics with "multilabel-indicator" format
MULTILABELS_METRICS = {
"accuracy_score", "unnormalized_accuracy_score",
"hamming_loss",
"zero_one_loss", "unnormalized_zero_one_loss",
"weighted_f0.5_score", "weighted_f1_score", "weighted_f2_score",
"weighted_precision_score", "weighted_recall_score",
"weighted_jaccard_score",
"macro_f0.5_score", "macro_f1_score", "macro_f2_score",
"macro_precision_score", "macro_recall_score",
"macro_jaccard_score",
"micro_f0.5_score", "micro_f1_score", "micro_f2_score",
"micro_precision_score", "micro_recall_score",
"micro_jaccard_score",
"unnormalized_multilabel_confusion_matrix",
"samples_f0.5_score", "samples_f1_score", "samples_f2_score",
"samples_precision_score", "samples_recall_score",
"samples_jaccard_score",
}
# Regression metrics with "multioutput-continuous" format support
MULTIOUTPUT_METRICS = {
"mean_absolute_error", "mean_squared_error", "r2_score",
"explained_variance_score"
}
# Symmetric with respect to their input arguments y_true and y_pred
# metric(y_true, y_pred) == metric(y_pred, y_true).
SYMMETRIC_METRICS = {
"accuracy_score", "unnormalized_accuracy_score",
"hamming_loss",
"zero_one_loss", "unnormalized_zero_one_loss",
"micro_jaccard_score", "macro_jaccard_score",
"jaccard_score",
"samples_jaccard_score",
"f1_score", "micro_f1_score", "macro_f1_score",
"weighted_recall_score",
# P = R = F = accuracy in multiclass case
"micro_f0.5_score", "micro_f1_score", "micro_f2_score",
"micro_precision_score", "micro_recall_score",
"matthews_corrcoef_score", "mean_absolute_error", "mean_squared_error",
"median_absolute_error", "max_error",
"cohen_kappa_score", "mean_normal_deviance"
}
# Asymmetric with respect to their input arguments y_true and y_pred
# metric(y_true, y_pred) != metric(y_pred, y_true).
NOT_SYMMETRIC_METRICS = {
"balanced_accuracy_score",
"adjusted_balanced_accuracy_score",
"explained_variance_score",
"r2_score",
"unnormalized_confusion_matrix",
"normalized_confusion_matrix",
"roc_curve",
"precision_recall_curve",
"precision_score", "recall_score", "f2_score", "f0.5_score",
"weighted_f0.5_score", "weighted_f1_score", "weighted_f2_score",
"weighted_precision_score", "weighted_jaccard_score",
"unnormalized_multilabel_confusion_matrix",
"macro_f0.5_score", "macro_f2_score", "macro_precision_score",
"macro_recall_score", "log_loss", "hinge_loss",
"mean_gamma_deviance", "mean_poisson_deviance",
"mean_compound_poisson_deviance"
}
# No Sample weight support
METRICS_WITHOUT_SAMPLE_WEIGHT = {
"median_absolute_error",
"max_error",
"ovo_roc_auc",
"weighted_ovo_roc_auc"
}
METRICS_REQUIRE_POSITIVE_Y = {
"mean_poisson_deviance",
"mean_gamma_deviance",
"mean_compound_poisson_deviance",
}
def _require_positive_targets(y1, y2):
"""Make targets strictly positive"""
offset = abs(min(y1.min(), y2.min())) + 1
y1 += offset
y2 += offset
return y1, y2
def test_symmetry_consistency():
# We shouldn't forget any metrics
assert (SYMMETRIC_METRICS.union(
NOT_SYMMETRIC_METRICS, set(THRESHOLDED_METRICS),
METRIC_UNDEFINED_BINARY_MULTICLASS) ==
set(ALL_METRICS))
assert (
SYMMETRIC_METRICS.intersection(NOT_SYMMETRIC_METRICS) ==
set())
@pytest.mark.parametrize("name", sorted(SYMMETRIC_METRICS))
def test_symmetric_metric(name):
# Test the symmetry of score and loss functions
random_state = check_random_state(0)
y_true = random_state.randint(0, 2, size=(20, ))
y_pred = random_state.randint(0, 2, size=(20, ))
if name in METRICS_REQUIRE_POSITIVE_Y:
y_true, y_pred = _require_positive_targets(y_true, y_pred)
y_true_bin = random_state.randint(0, 2, size=(20, 25))
y_pred_bin = random_state.randint(0, 2, size=(20, 25))
metric = ALL_METRICS[name]
if name in METRIC_UNDEFINED_BINARY:
if name in MULTILABELS_METRICS:
assert_allclose(metric(y_true_bin, y_pred_bin),
metric(y_pred_bin, y_true_bin),
err_msg="%s is not symmetric" % name)
else:
assert False, "This case is currently unhandled"
else:
assert_allclose(metric(y_true, y_pred),
metric(y_pred, y_true),
err_msg="%s is not symmetric" % name)
@pytest.mark.parametrize("name", sorted(NOT_SYMMETRIC_METRICS))
def test_not_symmetric_metric(name):
# Test the symmetry of score and loss functions
random_state = check_random_state(0)
y_true = random_state.randint(0, 2, size=(20, ))
y_pred = random_state.randint(0, 2, size=(20, ))
if name in METRICS_REQUIRE_POSITIVE_Y:
y_true, y_pred = _require_positive_targets(y_true, y_pred)
metric = ALL_METRICS[name]
# use context manager to supply custom error message
with assert_raises(AssertionError) as cm:
assert_array_equal(metric(y_true, y_pred), metric(y_pred, y_true))
cm.msg = ("%s seems to be symmetric" % name)
@pytest.mark.parametrize(
'name',
sorted(set(ALL_METRICS) - METRIC_UNDEFINED_BINARY_MULTICLASS))
def test_sample_order_invariance(name):
random_state = check_random_state(0)
y_true = random_state.randint(0, 2, size=(20, ))
y_pred = random_state.randint(0, 2, size=(20, ))
if name in METRICS_REQUIRE_POSITIVE_Y:
y_true, y_pred = _require_positive_targets(y_true, y_pred)
y_true_shuffle, y_pred_shuffle = shuffle(y_true, y_pred, random_state=0)
with ignore_warnings():
metric = ALL_METRICS[name]
assert_allclose(metric(y_true, y_pred),
metric(y_true_shuffle, y_pred_shuffle),
err_msg="%s is not sample order invariant" % name)
@ignore_warnings
def test_sample_order_invariance_multilabel_and_multioutput():
random_state = check_random_state(0)
# Generate some data
y_true = random_state.randint(0, 2, size=(20, 25))
y_pred = random_state.randint(0, 2, size=(20, 25))
y_score = random_state.normal(size=y_true.shape)
y_true_shuffle, y_pred_shuffle, y_score_shuffle = shuffle(y_true,
y_pred,
y_score,
random_state=0)
for name in MULTILABELS_METRICS:
metric = ALL_METRICS[name]
assert_allclose(metric(y_true, y_pred),
metric(y_true_shuffle, y_pred_shuffle),
err_msg="%s is not sample order invariant" % name)
for name in THRESHOLDED_MULTILABEL_METRICS:
metric = ALL_METRICS[name]
assert_allclose(metric(y_true, y_score),
metric(y_true_shuffle, y_score_shuffle),
err_msg="%s is not sample order invariant" % name)
for name in MULTIOUTPUT_METRICS:
metric = ALL_METRICS[name]
assert_allclose(metric(y_true, y_score),
metric(y_true_shuffle, y_score_shuffle),
err_msg="%s is not sample order invariant" % name)
assert_allclose(metric(y_true, y_pred),
metric(y_true_shuffle, y_pred_shuffle),
err_msg="%s is not sample order invariant" % name)
@pytest.mark.parametrize(
'name',
sorted(set(ALL_METRICS) - METRIC_UNDEFINED_BINARY_MULTICLASS))
def test_format_invariance_with_1d_vectors(name):
random_state = check_random_state(0)
y1 = random_state.randint(0, 2, size=(20, ))
y2 = random_state.randint(0, 2, size=(20, ))
if name in METRICS_REQUIRE_POSITIVE_Y:
y1, y2 = _require_positive_targets(y1, y2)
y1_list = list(y1)
y2_list = list(y2)
y1_1d, y2_1d = np.array(y1), np.array(y2)
assert_array_equal(y1_1d.ndim, 1)
assert_array_equal(y2_1d.ndim, 1)
y1_column = np.reshape(y1_1d, (-1, 1))
y2_column = np.reshape(y2_1d, (-1, 1))
y1_row = np.reshape(y1_1d, (1, -1))
y2_row = np.reshape(y2_1d, (1, -1))
with ignore_warnings():
metric = ALL_METRICS[name]
measure = metric(y1, y2)
assert_allclose(metric(y1_list, y2_list), measure,
err_msg="%s is not representation invariant with list"
"" % name)
assert_allclose(metric(y1_1d, y2_1d), measure,
err_msg="%s is not representation invariant with "
"np-array-1d" % name)
assert_allclose(metric(y1_column, y2_column), measure,
err_msg="%s is not representation invariant with "
"np-array-column" % name)
# Mix format support
assert_allclose(metric(y1_1d, y2_list), measure,
err_msg="%s is not representation invariant with mix "
"np-array-1d and list" % name)
assert_allclose(metric(y1_list, y2_1d), measure,
err_msg="%s is not representation invariant with mix "
"np-array-1d and list" % name)
assert_allclose(metric(y1_1d, y2_column), measure,
err_msg="%s is not representation invariant with mix "
"np-array-1d and np-array-column" % name)
assert_allclose(metric(y1_column, y2_1d), measure,
err_msg="%s is not representation invariant with mix "
"np-array-1d and np-array-column" % name)
assert_allclose(metric(y1_list, y2_column), measure,
err_msg="%s is not representation invariant with mix "
"list and np-array-column" % name)
assert_allclose(metric(y1_column, y2_list), measure,
err_msg="%s is not representation invariant with mix "
"list and np-array-column" % name)
# These mix representations aren't allowed
assert_raises(ValueError, metric, y1_1d, y2_row)
assert_raises(ValueError, metric, y1_row, y2_1d)
assert_raises(ValueError, metric, y1_list, y2_row)
assert_raises(ValueError, metric, y1_row, y2_list)
assert_raises(ValueError, metric, y1_column, y2_row)
assert_raises(ValueError, metric, y1_row, y2_column)
# NB: We do not test for y1_row, y2_row as these may be
# interpreted as multilabel or multioutput data.
if (name not in (MULTIOUTPUT_METRICS | THRESHOLDED_MULTILABEL_METRICS |
MULTILABELS_METRICS)):
assert_raises(ValueError, metric, y1_row, y2_row)
@pytest.mark.parametrize(
'name',
sorted(set(CLASSIFICATION_METRICS) - METRIC_UNDEFINED_BINARY_MULTICLASS))
def test_classification_invariance_string_vs_numbers_labels(name):
# Ensure that classification metrics with string labels are invariant
random_state = check_random_state(0)
y1 = random_state.randint(0, 2, size=(20, ))
y2 = random_state.randint(0, 2, size=(20, ))
y1_str = np.array(["eggs", "spam"])[y1]
y2_str = np.array(["eggs", "spam"])[y2]
pos_label_str = "spam"
labels_str = ["eggs", "spam"]
with ignore_warnings():
metric = CLASSIFICATION_METRICS[name]
measure_with_number = metric(y1, y2)
# Ugly, but handle case with a pos_label and label
metric_str = metric
if name in METRICS_WITH_POS_LABEL:
metric_str = partial(metric_str, pos_label=pos_label_str)
measure_with_str = metric_str(y1_str, y2_str)
assert_array_equal(measure_with_number, measure_with_str,
err_msg="{0} failed string vs number invariance "
"test".format(name))
measure_with_strobj = metric_str(y1_str.astype('O'),
y2_str.astype('O'))
assert_array_equal(measure_with_number, measure_with_strobj,
err_msg="{0} failed string object vs number "
"invariance test".format(name))
if name in METRICS_WITH_LABELS:
metric_str = partial(metric_str, labels=labels_str)
measure_with_str = metric_str(y1_str, y2_str)
assert_array_equal(measure_with_number, measure_with_str,
err_msg="{0} failed string vs number "
"invariance test".format(name))
measure_with_strobj = metric_str(y1_str.astype('O'),
y2_str.astype('O'))
assert_array_equal(measure_with_number, measure_with_strobj,
err_msg="{0} failed string vs number "
"invariance test".format(name))
@pytest.mark.parametrize('name', THRESHOLDED_METRICS)
def test_thresholded_invariance_string_vs_numbers_labels(name):
# Ensure that thresholded metrics with string labels are invariant
random_state = check_random_state(0)
y1 = random_state.randint(0, 2, size=(20, ))
y2 = random_state.randint(0, 2, size=(20, ))
y1_str = np.array(["eggs", "spam"])[y1]
pos_label_str = "spam"
with ignore_warnings():
metric = THRESHOLDED_METRICS[name]
if name not in METRIC_UNDEFINED_BINARY:
# Ugly, but handle case with a pos_label and label
metric_str = metric
if name in METRICS_WITH_POS_LABEL:
metric_str = partial(metric_str, pos_label=pos_label_str)
measure_with_number = metric(y1, y2)
measure_with_str = metric_str(y1_str, y2)
assert_array_equal(measure_with_number, measure_with_str,
err_msg="{0} failed string vs number "
"invariance test".format(name))
measure_with_strobj = metric_str(y1_str.astype('O'), y2)
assert_array_equal(measure_with_number, measure_with_strobj,
err_msg="{0} failed string object vs number "
"invariance test".format(name))
else:
# TODO those metrics doesn't support string label yet
assert_raises(ValueError, metric, y1_str, y2)
assert_raises(ValueError, metric, y1_str.astype('O'), y2)
invalids = [([0, 1], [np.inf, np.inf]),
([0, 1], [np.nan, np.nan]),
([0, 1], [np.nan, np.inf])]
@pytest.mark.parametrize(
'metric',
chain(THRESHOLDED_METRICS.values(), REGRESSION_METRICS.values()))
def test_regression_thresholded_inf_nan_input(metric):
for y_true, y_score in invalids:
assert_raise_message(ValueError,
"contains NaN, infinity",
metric, y_true, y_score)
@pytest.mark.parametrize('metric', CLASSIFICATION_METRICS.values())
def test_classification_inf_nan_input(metric):
# Classification metrics all raise a mixed input exception
for y_true, y_score in invalids:
assert_raise_message(ValueError,
"Input contains NaN, infinity or a "
"value too large",
metric, y_true, y_score)
@ignore_warnings
def check_single_sample(name):
# Non-regression test: scores should work with a single sample.
# This is important for leave-one-out cross validation.
# Score functions tested are those that formerly called np.squeeze,
# which turns an array of size 1 into a 0-d array (!).
metric = ALL_METRICS[name]
# assert that no exception is thrown
if name in METRICS_REQUIRE_POSITIVE_Y:
values = [1, 2]
else:
values = [0, 1]
for i, j in product(values, repeat=2):
metric([i], [j])
@ignore_warnings
def check_single_sample_multioutput(name):
metric = ALL_METRICS[name]
for i, j, k, l in product([0, 1], repeat=4):
metric(np.array([[i, j]]), np.array([[k, l]]))
@pytest.mark.parametrize(
'name',
sorted(
set(ALL_METRICS)
# Those metrics are not always defined with one sample
# or in multiclass classification
- METRIC_UNDEFINED_BINARY_MULTICLASS - set(THRESHOLDED_METRICS)))
def test_single_sample(name):
check_single_sample(name)
@pytest.mark.parametrize('name',
sorted(MULTIOUTPUT_METRICS | MULTILABELS_METRICS))
def test_single_sample_multioutput(name):
check_single_sample_multioutput(name)
@pytest.mark.parametrize('name', sorted(MULTIOUTPUT_METRICS))
def test_multioutput_number_of_output_differ(name):
y_true = np.array([[1, 0, 0, 1], [0, 1, 1, 1], [1, 1, 0, 1]])
y_pred = np.array([[0, 0], [1, 0], [0, 0]])
metric = ALL_METRICS[name]
assert_raises(ValueError, metric, y_true, y_pred)
@pytest.mark.parametrize('name', sorted(MULTIOUTPUT_METRICS))
def test_multioutput_regression_invariance_to_dimension_shuffling(name):
# test invariance to dimension shuffling
random_state = check_random_state(0)
y_true = random_state.uniform(0, 2, size=(20, 5))
y_pred = random_state.uniform(0, 2, size=(20, 5))
metric = ALL_METRICS[name]
error = metric(y_true, y_pred)
for _ in range(3):
perm = random_state.permutation(y_true.shape[1])
assert_allclose(metric(y_true[:, perm], y_pred[:, perm]),
error,
err_msg="%s is not dimension shuffling invariant" % (
name))
@ignore_warnings
def test_multilabel_representation_invariance():
# Generate some data
n_classes = 4
n_samples = 50
_, y1 = make_multilabel_classification(n_features=1, n_classes=n_classes,
random_state=0, n_samples=n_samples,
allow_unlabeled=True)
_, y2 = make_multilabel_classification(n_features=1, n_classes=n_classes,
random_state=1, n_samples=n_samples,
allow_unlabeled=True)
# To make sure at least one empty label is present
y1 = np.vstack([y1, [[0] * n_classes]])
y2 = np.vstack([y2, [[0] * n_classes]])
y1_sparse_indicator = sp.coo_matrix(y1)
y2_sparse_indicator = sp.coo_matrix(y2)
for name in MULTILABELS_METRICS:
metric = ALL_METRICS[name]
# XXX cruel hack to work with partial functions
if isinstance(metric, partial):
metric.__module__ = 'tmp'
metric.__name__ = name
measure = metric(y1, y2)
# Check representation invariance
assert_allclose(metric(y1_sparse_indicator, y2_sparse_indicator),
measure,
err_msg="%s failed representation invariance between "
"dense and sparse indicator formats." % name)
@pytest.mark.parametrize('name', sorted(MULTILABELS_METRICS))
def test_raise_value_error_multilabel_sequences(name):
# make sure the multilabel-sequence format raises ValueError
multilabel_sequences = [
[[0, 1]],
[[1], [2], [0, 1]],
[(), (2), (0, 1)],
[[]],
[()],
np.array([[], [1, 2]], dtype='object')]
metric = ALL_METRICS[name]
for seq in multilabel_sequences:
assert_raises(ValueError, metric, seq, seq)
@pytest.mark.parametrize('name', sorted(METRICS_WITH_NORMALIZE_OPTION))
def test_normalize_option_binary_classification(name):
# Test in the binary case
n_samples = 20
random_state = check_random_state(0)
y_true = random_state.randint(0, 2, size=(n_samples, ))
y_pred = random_state.randint(0, 2, size=(n_samples, ))
metrics = ALL_METRICS[name]
measure = metrics(y_true, y_pred, normalize=True)
assert_array_less(-1.0 * measure, 0,
err_msg="We failed to test correctly the normalize "
"option")
assert_allclose(metrics(y_true, y_pred, normalize=False) / n_samples,
measure)
@pytest.mark.parametrize('name', sorted(METRICS_WITH_NORMALIZE_OPTION))
def test_normalize_option_multiclass_classification(name):
# Test in the multiclass case
random_state = check_random_state(0)
y_true = random_state.randint(0, 4, size=(20, ))
y_pred = random_state.randint(0, 4, size=(20, ))
n_samples = y_true.shape[0]
metrics = ALL_METRICS[name]
measure = metrics(y_true, y_pred, normalize=True)
assert_array_less(-1.0 * measure, 0,
err_msg="We failed to test correctly the normalize "
"option")
assert_allclose(metrics(y_true, y_pred, normalize=False) / n_samples,
measure)
def test_normalize_option_multilabel_classification():
# Test in the multilabel case
n_classes = 4
n_samples = 100
# for both random_state 0 and 1, y_true and y_pred has at least one
# unlabelled entry
_, y_true = make_multilabel_classification(n_features=1,
n_classes=n_classes,
random_state=0,
allow_unlabeled=True,
n_samples=n_samples)
_, y_pred = make_multilabel_classification(n_features=1,
n_classes=n_classes,
random_state=1,
allow_unlabeled=True,
n_samples=n_samples)
# To make sure at least one empty label is present
y_true += [0]*n_classes
y_pred += [0]*n_classes
for name in METRICS_WITH_NORMALIZE_OPTION:
metrics = ALL_METRICS[name]
measure = metrics(y_true, y_pred, normalize=True)
assert_array_less(-1.0 * measure, 0,
err_msg="We failed to test correctly the normalize "
"option")
assert_allclose(metrics(y_true, y_pred, normalize=False) / n_samples,
measure, err_msg="Failed with %s" % name)
@ignore_warnings
def _check_averaging(metric, y_true, y_pred, y_true_binarize, y_pred_binarize,
is_multilabel):
n_samples, n_classes = y_true_binarize.shape
# No averaging
label_measure = metric(y_true, y_pred, average=None)
assert_allclose(label_measure,
[metric(y_true_binarize[:, i], y_pred_binarize[:, i])
for i in range(n_classes)])
# Micro measure
micro_measure = metric(y_true, y_pred, average="micro")
assert_allclose(micro_measure,
metric(y_true_binarize.ravel(), y_pred_binarize.ravel()))
# Macro measure
macro_measure = metric(y_true, y_pred, average="macro")
assert_allclose(macro_measure, np.mean(label_measure))
# Weighted measure
weights = np.sum(y_true_binarize, axis=0, dtype=int)
if np.sum(weights) != 0:
weighted_measure = metric(y_true, y_pred, average="weighted")
assert_allclose(weighted_measure,
np.average(label_measure, weights=weights))
else:
weighted_measure = metric(y_true, y_pred, average="weighted")
assert_allclose(weighted_measure, 0)
# Sample measure
if is_multilabel:
sample_measure = metric(y_true, y_pred, average="samples")
assert_allclose(sample_measure,
np.mean([metric(y_true_binarize[i], y_pred_binarize[i])
for i in range(n_samples)]))
assert_raises(ValueError, metric, y_true, y_pred, average="unknown")
assert_raises(ValueError, metric, y_true, y_pred, average="garbage")
def check_averaging(name, y_true, y_true_binarize, y_pred, y_pred_binarize,
y_score):
is_multilabel = type_of_target(y_true).startswith("multilabel")
metric = ALL_METRICS[name]
if name in METRICS_WITH_AVERAGING:
_check_averaging(metric, y_true, y_pred, y_true_binarize,
y_pred_binarize, is_multilabel)
elif name in THRESHOLDED_METRICS_WITH_AVERAGING:
_check_averaging(metric, y_true, y_score, y_true_binarize,
y_score, is_multilabel)
else:
raise ValueError("Metric is not recorded as having an average option")
@pytest.mark.parametrize('name', sorted(METRICS_WITH_AVERAGING))
def test_averaging_multiclass(name):
n_samples, n_classes = 50, 3
random_state = check_random_state(0)
y_true = random_state.randint(0, n_classes, size=(n_samples, ))
y_pred = random_state.randint(0, n_classes, size=(n_samples, ))
y_score = random_state.uniform(size=(n_samples, n_classes))
lb = LabelBinarizer().fit(y_true)
y_true_binarize = lb.transform(y_true)
y_pred_binarize = lb.transform(y_pred)
check_averaging(name, y_true, y_true_binarize,
y_pred, y_pred_binarize, y_score)
@pytest.mark.parametrize(
'name',
sorted(METRICS_WITH_AVERAGING | THRESHOLDED_METRICS_WITH_AVERAGING))
def test_averaging_multilabel(name):
n_samples, n_classes = 40, 5
_, y = make_multilabel_classification(n_features=1, n_classes=n_classes,
random_state=5, n_samples=n_samples,
allow_unlabeled=False)
y_true = y[:20]
y_pred = y[20:]
y_score = check_random_state(0).normal(size=(20, n_classes))
y_true_binarize = y_true
y_pred_binarize = y_pred
check_averaging(name, y_true, y_true_binarize,
y_pred, y_pred_binarize, y_score)
@pytest.mark.parametrize('name', sorted(METRICS_WITH_AVERAGING))
def test_averaging_multilabel_all_zeroes(name):
y_true = np.zeros((20, 3))
y_pred = np.zeros((20, 3))
y_score = np.zeros((20, 3))
y_true_binarize = y_true
y_pred_binarize = y_pred
check_averaging(name, y_true, y_true_binarize,
y_pred, y_pred_binarize, y_score)
def test_averaging_binary_multilabel_all_zeroes():
y_true = np.zeros((20, 3))
y_pred = np.zeros((20, 3))
y_true_binarize = y_true
y_pred_binarize = y_pred
# Test _average_binary_score for weight.sum() == 0
binary_metric = (lambda y_true, y_score, average="macro":
_average_binary_score(
precision_score, y_true, y_score, average))
_check_averaging(binary_metric, y_true, y_pred, y_true_binarize,
y_pred_binarize, is_multilabel=True)
@pytest.mark.parametrize('name', sorted(METRICS_WITH_AVERAGING))
def test_averaging_multilabel_all_ones(name):
y_true = np.ones((20, 3))
y_pred = np.ones((20, 3))
y_score = np.ones((20, 3))
y_true_binarize = y_true
y_pred_binarize = y_pred
check_averaging(name, y_true, y_true_binarize,
y_pred, y_pred_binarize, y_score)
@ignore_warnings
def check_sample_weight_invariance(name, metric, y1, y2):
rng = np.random.RandomState(0)
sample_weight = rng.randint(1, 10, size=len(y1))
# check that unit weights gives the same score as no weight
unweighted_score = metric(y1, y2, sample_weight=None)
assert_allclose(
unweighted_score,
metric(y1, y2, sample_weight=np.ones(shape=len(y1))),
err_msg="For %s sample_weight=None is not equivalent to "
"sample_weight=ones" % name)
# check that the weighted and unweighted scores are unequal
weighted_score = metric(y1, y2, sample_weight=sample_weight)
# use context manager to supply custom error message
with assert_raises(AssertionError) as cm:
assert_allclose(unweighted_score, weighted_score)
cm.msg = ("Unweighted and weighted scores are unexpectedly almost "
"equal (%s) and (%s) for %s" % (unweighted_score,
weighted_score, name))
# check that sample_weight can be a list
weighted_score_list = metric(y1, y2,
sample_weight=sample_weight.tolist())
assert_allclose(
weighted_score, weighted_score_list,
err_msg=("Weighted scores for array and list "
"sample_weight input are not equal (%s != %s) for %s") % (
weighted_score, weighted_score_list, name))
# check that integer weights is the same as repeated samples
repeat_weighted_score = metric(
np.repeat(y1, sample_weight, axis=0),
np.repeat(y2, sample_weight, axis=0), sample_weight=None)
assert_allclose(
weighted_score, repeat_weighted_score,
err_msg="Weighting %s is not equal to repeating samples" % name)
# check that ignoring a fraction of the samples is equivalent to setting
# the corresponding weights to zero
sample_weight_subset = sample_weight[1::2]
sample_weight_zeroed = np.copy(sample_weight)
sample_weight_zeroed[::2] = 0
y1_subset = y1[1::2]
y2_subset = y2[1::2]
weighted_score_subset = metric(y1_subset, y2_subset,
sample_weight=sample_weight_subset)
weighted_score_zeroed = metric(y1, y2,
sample_weight=sample_weight_zeroed)
assert_allclose(
weighted_score_subset, weighted_score_zeroed,
err_msg=("Zeroing weights does not give the same result as "
"removing the corresponding samples (%s != %s) for %s" %
(weighted_score_zeroed, weighted_score_subset, name)))
if not name.startswith('unnormalized'):
# check that the score is invariant under scaling of the weights by a
# common factor
for scaling in [2, 0.3]:
assert_allclose(
weighted_score,
metric(y1, y2, sample_weight=sample_weight * scaling),
err_msg="%s sample_weight is not invariant "
"under scaling" % name)
# Check that if number of samples in y_true and sample_weight are not
# equal, meaningful error is raised.
error_message = ("Found input variables with inconsistent numbers of "
"samples: [{}, {}, {}]".format(
_num_samples(y1), _num_samples(y2),
_num_samples(sample_weight) * 2))
assert_raise_message(ValueError, error_message, metric, y1, y2,
sample_weight=np.hstack([sample_weight,
sample_weight]))
@pytest.mark.parametrize(
'name',
sorted(
set(ALL_METRICS).intersection(set(REGRESSION_METRICS)) -
METRICS_WITHOUT_SAMPLE_WEIGHT))
def test_regression_sample_weight_invariance(name):
n_samples = 50
random_state = check_random_state(0)
# regression
y_true = random_state.random_sample(size=(n_samples,))
y_pred = random_state.random_sample(size=(n_samples,))
metric = ALL_METRICS[name]
check_sample_weight_invariance(name, metric, y_true, y_pred)
@pytest.mark.parametrize(
'name',
sorted(
set(ALL_METRICS) - set(REGRESSION_METRICS) -
METRICS_WITHOUT_SAMPLE_WEIGHT - METRIC_UNDEFINED_BINARY))
def test_binary_sample_weight_invariance(name):
# binary
n_samples = 50
random_state = check_random_state(0)
y_true = random_state.randint(0, 2, size=(n_samples, ))
y_pred = random_state.randint(0, 2, size=(n_samples, ))
y_score = random_state.random_sample(size=(n_samples,))
metric = ALL_METRICS[name]
if name in THRESHOLDED_METRICS:
check_sample_weight_invariance(name, metric, y_true, y_score)
else:
check_sample_weight_invariance(name, metric, y_true, y_pred)
@pytest.mark.parametrize(
'name',
sorted(
set(ALL_METRICS) - set(REGRESSION_METRICS) -
METRICS_WITHOUT_SAMPLE_WEIGHT - METRIC_UNDEFINED_BINARY_MULTICLASS))
def test_multiclass_sample_weight_invariance(name):
# multiclass
n_samples = 50
random_state = check_random_state(0)
y_true = random_state.randint(0, 5, size=(n_samples, ))
y_pred = random_state.randint(0, 5, size=(n_samples, ))
y_score = random_state.random_sample(size=(n_samples, 5))
metric = ALL_METRICS[name]
if name in THRESHOLDED_METRICS:
# softmax
temp = np.exp(-y_score)
y_score_norm = temp / temp.sum(axis=-1).reshape(-1, 1)
check_sample_weight_invariance(name, metric, y_true, y_score_norm)
else:
check_sample_weight_invariance(name, metric, y_true, y_pred)
@pytest.mark.parametrize(
'name',
sorted((MULTILABELS_METRICS | THRESHOLDED_MULTILABEL_METRICS
| MULTIOUTPUT_METRICS) - METRICS_WITHOUT_SAMPLE_WEIGHT))
def test_multilabel_sample_weight_invariance(name):
# multilabel indicator
random_state = check_random_state(0)
_, ya = make_multilabel_classification(n_features=1, n_classes=10,
random_state=0, n_samples=50,
allow_unlabeled=False)
_, yb = make_multilabel_classification(n_features=1, n_classes=10,
random_state=1, n_samples=50,
allow_unlabeled=False)
y_true = np.vstack([ya, yb])
y_pred = np.vstack([ya, ya])
y_score = random_state.randint(1, 4, size=y_true.shape)
metric = ALL_METRICS[name]
if name in THRESHOLDED_METRICS:
check_sample_weight_invariance(name, metric, y_true, y_score)
else:
check_sample_weight_invariance(name, metric, y_true, y_pred)
@ignore_warnings
def test_no_averaging_labels():
# test labels argument when not using averaging
# in multi-class and multi-label cases
y_true_multilabel = np.array([[1, 1, 0, 0], [1, 1, 0, 0]])
y_pred_multilabel = np.array([[0, 0, 1, 1], [0, 1, 1, 0]])
y_true_multiclass = np.array([0, 1, 2])
y_pred_multiclass = np.array([0, 2, 3])
labels = np.array([3, 0, 1, 2])
_, inverse_labels = np.unique(labels, return_inverse=True)
for name in METRICS_WITH_AVERAGING:
for y_true, y_pred in [[y_true_multiclass, y_pred_multiclass],
[y_true_multilabel, y_pred_multilabel]]:
if name not in MULTILABELS_METRICS and y_pred.ndim > 1:
continue
metric = ALL_METRICS[name]
score_labels = metric(y_true, y_pred, labels=labels, average=None)
score = metric(y_true, y_pred, average=None)
assert_array_equal(score_labels, score[inverse_labels])
@pytest.mark.parametrize(
'name',
sorted(MULTILABELS_METRICS - {"unnormalized_multilabel_confusion_matrix"}))
def test_multilabel_label_permutations_invariance(name):
random_state = check_random_state(0)
n_samples, n_classes = 20, 4
y_true = random_state.randint(0, 2, size=(n_samples, n_classes))
y_score = random_state.randint(0, 2, size=(n_samples, n_classes))
metric = ALL_METRICS[name]
score = metric(y_true, y_score)
for perm in permutations(range(n_classes), n_classes):
y_score_perm = y_score[:, perm]
y_true_perm = y_true[:, perm]
current_score = metric(y_true_perm, y_score_perm)
assert_almost_equal(score, current_score)
@pytest.mark.parametrize(
'name', sorted(THRESHOLDED_MULTILABEL_METRICS | MULTIOUTPUT_METRICS))
def test_thresholded_multilabel_multioutput_permutations_invariance(name):
random_state = check_random_state(0)
n_samples, n_classes = 20, 4
y_true = random_state.randint(0, 2, size=(n_samples, n_classes))
y_score = random_state.normal(size=y_true.shape)
# Makes sure all samples have at least one label. This works around errors
# when running metrics where average="sample"
y_true[y_true.sum(1) == 4, 0] = 0
y_true[y_true.sum(1) == 0, 0] = 1
metric = ALL_METRICS[name]
score = metric(y_true, y_score)
for perm in permutations(range(n_classes), n_classes):
y_score_perm = y_score[:, perm]
y_true_perm = y_true[:, perm]
current_score = metric(y_true_perm, y_score_perm)
assert_almost_equal(score, current_score)
@pytest.mark.parametrize(
'name',
sorted(set(THRESHOLDED_METRICS) - METRIC_UNDEFINED_BINARY_MULTICLASS))
def test_thresholded_metric_permutation_invariance(name):
n_samples, n_classes = 100, 3
random_state = check_random_state(0)
y_score = random_state.rand(n_samples, n_classes)
temp = np.exp(-y_score)
y_score = temp / temp.sum(axis=-1).reshape(-1, 1)
y_true = random_state.randint(0, n_classes, size=n_samples)
metric = ALL_METRICS[name]
score = metric(y_true, y_score)
for perm in permutations(range(n_classes), n_classes):
inverse_perm = np.zeros(n_classes, dtype=int)
inverse_perm[list(perm)] = np.arange(n_classes)
y_score_perm = y_score[:, inverse_perm]
y_true_perm = np.take(perm, y_true)
current_score = metric(y_true_perm, y_score_perm)
assert_almost_equal(score, current_score)
| [
"shkolanovaya@gmail.com"
] | shkolanovaya@gmail.com |
50a8d27c1d813c6ed8183b40f90329c05166936e | 5a6030a8d67207fcf77359c8d6c3fbd4860d1144 | /project/routes.py | 44a24ec1c52ac49029a2673d6a91f303357123fb | [] | no_license | atharv6f/Bengaluru-Real-Estate-price-prediction | 3a71a3b384993ce2d5d32b256e3748898a05b208 | d7330833443c846ceadf2c993c52bd2ac4d29999 | refs/heads/master | 2022-12-18T17:51:08.102823 | 2020-09-06T18:44:00 | 2020-09-06T18:44:00 | 293,140,015 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 5,733 | py | import os
import secrets
from PIL import Image
from flask import render_template, url_for, flash, redirect, request, abort
from project import app, db, bcrypt, mail
from project.forms import (RegistrationForm, LoginForm, UpdateAccountForm,
AppForm, RequestResetForm, ResetPasswordForm)
from project.models import User
from flask_login import login_user, current_user, logout_user, login_required
from flask_mail import Message
from project import util
@app.route("/")
def index():
return render_template('index.html')
@app.route("/register", methods=['GET', 'POST'])
def register():
if current_user.is_authenticated:
return redirect(url_for('index'))
form = RegistrationForm()
if form.validate_on_submit():
hashed_password = bcrypt.generate_password_hash(form.password.data).decode('utf-8')
user = User(username=form.username.data, email=form.email.data, password=hashed_password)
db.session.add(user)
db.session.commit()
flash('Your account has been created! You are now able to log in', 'success')
return redirect(url_for('login'))
return render_template('register.html', title='Register', form=form)
@app.route("/login", methods=['GET', 'POST'])
def login():
if current_user.is_authenticated:
return redirect(url_for('apps'))
form = LoginForm()
if form.validate_on_submit():
user = User.query.filter_by(email=form.email.data).first()
if user and bcrypt.check_password_hash(user.password, form.password.data):
login_user(user, remember=form.remember.data)
next_page = request.args.get('next')
return redirect(next_page) if next_page else redirect(url_for('apps'))
else:
flash('Login Unsuccessful. Please check email and password', 'danger')
return render_template('login.html', title='Login', form=form)
@app.route("/logout")
def logout():
logout_user()
return redirect(url_for('index'))
def save_picture(form_picture):
random_hex = secrets.token_hex(8)
_, f_ext = os.path.splitext(form_picture.filename)
picture_fn = random_hex + f_ext
picture_path = os.path.join(app.root_path, 'static', 'profile_pics', picture_fn)
output_size = (125, 125)
i = Image.open(form_picture)
i.thumbnail(output_size)
i.save(picture_path)
prev_picture = os.path.join(app.root_path, 'static', 'profile_pics', current_user.image_file)
if os.path.exists(prev_picture):
os.remove(prev_picture)
return picture_fn
@app.route("/account", methods=['GET', 'POST'])
@login_required
def account():
form = UpdateAccountForm()
if form.validate_on_submit():
if form.picture.data:
old_pic = current_user.image_file
picture_file = save_picture(form.picture.data)
current_user.image_file = picture_file
current_user.username = form.username.data
current_user.email = form.email.data
db.session.commit()
flash('Your account has been updated!', 'success')
return redirect(url_for('account'))
elif request.method == 'GET':
form.username.data = current_user.username
form.email.data = current_user.email
image_file = url_for('static', filename='profile_pics/' + current_user.image_file)
return render_template('account.html', title='Account',
image_file=image_file, form=form)
def send_reset_email(user):
token = user.get_reset_token()
msg = Message('Password Reset Request',
sender='EMAIL_USER',
recipients=[user.email])
msg.body = f'''To reset your password, visit the following link:
{url_for('reset_token', token=token, _external=True)}
If you did not make this request then simply ignore this email and no changes will be made.
'''
mail.send(msg)
@app.route("/reset_password", methods=['GET', 'POST'])
def reset_request():
if current_user.is_authenticated:
return redirect(url_for('index'))
form = RequestResetForm()
if form.validate_on_submit():
user = User.query.filter_by(email=form.email.data).first()
send_reset_email(user)
flash('An email has been sent with instructions to reset your password.', 'info')
return redirect(url_for('login'))
return render_template('reset_request.html', title='Reset Password', form=form)
@app.route("/reset_password/<token>", methods=['GET', 'POST'])
def reset_token(token):
if current_user.is_authenticated:
return redirect(url_for('index'))
user = User.verify_reset_token(token)
if user is None:
flash('That is an invalid or expired token', 'warning')
return redirect(url_for('reset_request'))
form = ResetPasswordForm()
if form.validate_on_submit():
hashed_password = bcrypt.generate_password_hash(form.password.data).decode('utf-8')
user.password = hashed_password
db.session.commit()
flash('Your password has been updated! You are now able to log in', 'success')
return redirect(url_for('login'))
return render_template('reset_token.html', title='Reset Password', form=form)
@app.route('/apps', methods=['GET','POST'])
@login_required
def apps():
form = AppForm()
area = 0
beedrooms = 0
bathrooms = 0
location = None
if form.validate_on_submit():
price =0
area = form.area.data
beedrooms = form.beedrooms.data
bathrooms = form.bathrooms.data
location = form.location.data
return render_template('app.html', form=form, price = util.get_estimated_price(location,area,beedrooms,bathrooms,1)) | [
"atharv6f@gmail.com"
] | atharv6f@gmail.com |
53aa70e4939b563a79bf97b65b6cde48c07abd28 | d9d5995cc08bd98e5cb9bbb45535700cc86fb58e | /cloud/venv/Scripts/rst2xetex.py | 5af092e3ac9c877568605bf4a92bb6e9919d69a1 | [] | no_license | peternu2020/WhisperDemo | 44c2bc98dbb3173d847c6d324786229b4c057830 | 3f2790d4fbe3904f79a4dc32fc2b22e6580fc008 | refs/heads/master | 2020-09-09T02:08:51.384454 | 2019-11-11T04:09:15 | 2019-11-11T04:09:15 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 915 | py | #!C:\Users\Admin\Documents\AWS_test_s3\venv\Scripts\python.exe
# $Id: rst2xetex.py 7847 2015-03-17 17:30:47Z milde $
# Author: Guenter Milde
# Copyright: This module has been placed in the public domain.
"""
A minimal front end to the Docutils Publisher, producing Lua/XeLaTeX code.
"""
try:
import locale
locale.setlocale(locale.LC_ALL, '')
except:
pass
from docutils.core import publish_cmdline
description = ('Generates LaTeX documents from standalone reStructuredText '
'sources for compilation with the Unicode-aware TeX variants '
'XeLaTeX or LuaLaTeX. '
'Reads from <source> (default is stdin) and writes to '
'<destination> (default is stdout). See '
'<http://docutils.sourceforge.net/docs/user/latex.html> for '
'the full reference.')
publish_cmdline(writer_name='xetex', description=description)
| [
"salomekariuki2020@u.northwestern.edu"
] | salomekariuki2020@u.northwestern.edu |
de89526204340fed105a0efb1a4cfd7137b26f44 | b08d42933ac06045905d7c005ca9c114ed3aecc0 | /src/coefSubset/evaluate/ranks/tenth/rank_2i26_I.py | 4c80ed792391aea378782cf42541231cd379011d | [] | no_license | TanemuraKiyoto/PPI-native-detection-via-LR | d148d53f5eb60a4dda5318b371a3048e3f662725 | 897e7188b0da94e87126a4acc0c9a6ff44a64574 | refs/heads/master | 2022-12-05T11:59:01.014309 | 2020-08-10T00:41:17 | 2020-08-10T00:41:17 | 225,272,083 | 1 | 0 | null | null | null | null | UTF-8 | Python | false | false | 3,204 | py | # 9 July 2019
# Kiyoto Aramis Tanemura
# Several metrics are used to assess the performance of the trained RF model, notably native ranking. This script returns a ranking of the native protein-protein complex among a decoy set. For convenience, I will define as a function and will call in a general performance assessment script.
# Modified 11 July 2019 by Kiyoto Aramis Tanemura. To parallelize the process, I will replace the for loop for the testFileList to a multiprocessing pool.
# Modified 9 September 2019 by Kiyoto Aramis Tanemura. I will use the function to perform the calculation on one CSV file only. Thus instead of a function to import in other scripts, they will be individual jobs parallelized as individual jobs in the queue.
import os
import pandas as pd
import numpy as np
import pickle
os.chdir('/mnt/scratch/tanemur1/')
# Read the model and trainFile
testFile = '2i26.csv'
identifier = 'I'
thresholdCoef = 0.1
testFilePath = '/mnt/scratch/tanemur1/CASF-PPI/nonb_descriptors/complete/'
modelPath = '/mnt/home/tanemur1/6May2019/2019-11-11/results/coefSubset/tenth/'
outputPath = '/mnt/home/tanemur1/6May2019/2019-11-11/results/coefSubset/evaluate/tenth/ranks/'
pdbID = testFile[:4]
with open(modelPath + 'model' + identifier + '.pkl', 'rb') as f:
clf = pickle.load(f)
result = pd.DataFrame()
scoreList = []
df1 = pd.read_csv(testFilePath + testFile)
dropList = ['Unnamed: 0', 'Unnamed: 0.1', 'ref']
df1 = df1.drop(dropList, axis = 1)
df1 = df1.set_index('Pair_name')
df1 = pd.DataFrame(df1.values.T, columns = df1.index, index = df1.columns)
df1.fillna(0.0, inplace = True)
df1 = df1.reindex(sorted(df1.columns), axis = 1)
# Drop features with coefficients below threshold
coefs = pd.read_csv('/mnt/home/tanemur1/6May2019/2019-11-11/results/medianCoefs.csv', index_col = 0, header = None, names = ['coefficients'])
coefs = coefs[np.abs(coefs['coefficients']) < thresholdCoef]
dropList = list(coefs.index)
del coefs
df1.drop(dropList, axis = 1, inplace = True)
with open(modelPath + 'standardScaler' + identifier + '.pkl', 'rb') as g:
scaler = pickle.load(g)
for i in range(len(df1)):
# subtract from one row each row of the dataframe, then remove the trivial row[[i]] - row[[i]]. Also some input files have 'class' column. This is erroneous and is removed.
df2 = pd.DataFrame(df1.iloc[[i]].values - df1.values, index = df1.index, columns = df1.columns)
df2 = df2.drop(df1.iloc[[i]].index[0], axis = 0)
# Standardize inut DF using the standard scaler used for training data.
df2 = scaler.transform(df2)
# Predict class of each comparison descriptor and sum the classes to obtain score. Higher score corresponds to more native-like complex
predictions = clf.predict(df2)
score = sum(predictions)
scoreList.append(score)
# Make a new DataFrame to store the score and corresponding descriptorID. Add rank as column. Note: lower rank corresponds to more native-like complex
result = pd.DataFrame(data = {'score': scoreList}, index = df1.index.tolist()).sort_values(by = 'score', ascending = False)
result['rank'] = range(1, len(result) + 1)
with open(outputPath + pdbID + identifier + '.csv', 'w') as h:
result.to_csv(h)
| [
"tanemur1@msu.edu"
] | tanemur1@msu.edu |
6ac3aed8fa2a8988fe9eef16f03367f0f03734ed | 0c3afb070e7c8d52b66d32272e8dd6da93e3186b | /minerals_app/apps.py | 0c782dd5812f21ef4a5fde65d11417871c88ba1c | [] | no_license | FVPukay/mackys-minerals | b8d1f19478f975cc0bfa49aa3f091d6c77c3afb9 | ce3f472917b40637bf27d6a53a1141aabbc07855 | refs/heads/master | 2023-04-27T11:18:46.585575 | 2022-11-06T00:14:59 | 2022-11-06T00:14:59 | 206,874,503 | 1 | 0 | null | 2023-04-21T20:36:48 | 2019-09-06T21:10:04 | Python | UTF-8 | Python | false | false | 98 | py | from django.apps import AppConfig
class MineralsAppConfig(AppConfig):
name = 'minerals_app'
| [
"frederickpukay@gmail.com"
] | frederickpukay@gmail.com |
a65a90b47466d6936a96eccf140c06ee21b57225 | ddf1267a1a7cb01e70e3b12ad4a7bfaf291edb3e | /src/user/migrations/0023_action_read_date.py | d87e85c86569ba17531d435462e2b08d515436fd | [
"MIT"
] | permissive | Garinmckayl/researchhub-backend | 46a17513c2c9928e51db4b2ce5a5b62df453f066 | cd135076d9a3b49a08456f7ca3bb18ff35a78b95 | refs/heads/master | 2023-06-17T04:37:23.041787 | 2021-05-18T01:26:46 | 2021-05-18T01:26:46 | null | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 386 | py | # Generated by Django 2.2.9 on 2020-01-10 20:16
from django.db import migrations, models
class Migration(migrations.Migration):
dependencies = [
('user', '0022_action'),
]
operations = [
migrations.AddField(
model_name='action',
name='read_date',
field=models.DateTimeField(default=None, null=True),
),
]
| [
"lightning.lu7@gmail.com"
] | lightning.lu7@gmail.com |
2ae7e9e029e0318f8546701a477685f345344028 | acb1e1a381c1dd47847cc67441fe5891f9eed382 | /app/models/models.py | 8b0dc22ce3a0ef6990ec08a493d77ce741da3584 | [] | no_license | zzgzhang/microblog | c2b469a32f88a2d2968bca57917bf4d8d5040ccd | 414b78d57f1e9dc91a3fd6ae04f39b7f12030f3a | refs/heads/master | 2021-01-19T19:25:51.066270 | 2017-08-25T01:41:35 | 2017-08-25T01:41:35 | 101,192,758 | 0 | 0 | null | 2017-08-25T01:41:36 | 2017-08-23T14:56:54 | Python | UTF-8 | Python | false | false | 3,793 | py | import sqlalchemy as sa
from sqlalchemy.ext.declarative import declarative_base
from app.models import engine
from sqlalchemy.orm import relationship, backref
from app.models import session
from app import app
Base = declarative_base()
followers = sa.Table('followers', Base.metadata,
sa.Column('follower_id', sa.Integer, sa.ForeignKey('users.id')),
sa.Column('followed_id', sa.Integer, sa.ForeignKey('users.id'))
)
class Users(Base):
__tablename__ = 'users'
id = sa.Column(sa.Integer, primary_key=True)
username = sa.Column(sa.String(20), nullable=False)
password = sa.Column(sa.String(20), nullable=False)
nickname = sa.Column(sa.String(64), nullable=False)
email = sa.Column(sa.String(120), nullable=False)
description = sa.Column(sa.String(500), nullable=False, server_default=' ', default=' ')
# server_default在数据库中设置字段的默认值,default是设置sqlalchemy提交是的默认值
imgpath = sa.Column(sa.String(30), nullable=False, server_default='default.jpg', default='default.jpg')
last_seen = sa.Column(sa.DateTime())
followed = relationship('Users',
secondary='followers',
primaryjoin=(followers.c.follower_id == id),
secondaryjoin=(followers.c.followed_id == id),
backref=backref('followers', lazy='dynamic'),
lazy='dynamic')
def is_authenticated(self):
return True
def is_active(self):
return True
def is_anonymous(self):
return False
def get_id(self):
return str(self.id)
def __repr__(self):
return 'username:%s, password:%s' % (self.username, self.password)
def get_imgpath(self):
img_path = '/static/resources/' + self.imgpath
return img_path
def follow(self, user):
if not self.is_following(user):
self.followed.append(user)
return self
def unfollow(self, user):
if self.is_following(user):
self.followed.remove(user)
return self
def is_following(self, user):
return self.followed.filter(followers.c.followed_id == user.id).count() > 0
def followed_posts(self, page=0):
limit = app.config['POSTS_PER_PAGE']
posts = self.__get_followed_posts(limit=limit, page=(page - 1))
has_next_page = False
tmp_posts = self.__get_followed_posts(limit=limit, page=(page))
if tmp_posts.count() > 0:
has_next_page = True
has_pre_page = False
tmp_posts = self.__get_followed_posts(limit=limit, page=(page - 2))
if tmp_posts.count() > 0 and page > 1:
has_pre_page = True
results = {
'posts' : posts,
'has_pre_page' : has_pre_page,
'pre_page_num' : page - 1,
'has_next_page' : has_next_page,
'next_page_num' : page + 1
}
return results
def __get_followed_posts(self, limit, page):
posts = session.query(Posts).join(followers, (followers.c.followed_id == Posts.user_id)).filter(
followers.c.follower_id == self.id).order_by(Posts.timestamp.desc()).limit(limit).offset(
limit * int(page))
return posts
class Posts(Base):
__tablename__ = 'posts'
id = sa.Column(sa.Integer, primary_key=True)
body = sa.Column(sa.String(500), nullable=True)
timestamp = sa.Column(sa.DateTime(), nullable=True)
user_id = sa.Column(sa.Integer(), sa.ForeignKey('users.id'))
author = relationship(Users)
def __repr__(self):
return '%s' % self.body
if __name__ == "__main__":
Base.metadata.create_all(engine)
| [
"zhenyuanwei@foxmail.com"
] | zhenyuanwei@foxmail.com |
ac49d4bdeec80dc055970855b39eb4853d19e263 | 106de5ce972a31cf82cd6404bab43e36fc4b1735 | /other/ip_snp_prs/gene_prs_v0.1.py | dd769080b8d942a936debd8c203301ff7a1080f3 | [] | no_license | L-RZ/py | 89607e2114e1ee885259644c872a01cd48aadc93 | 66a96d4be298717e4da6c7893618e60ca0872c2d | refs/heads/master | 2020-04-08T09:19:52.822380 | 2018-12-04T21:57:45 | 2018-12-04T21:57:45 | 159,218,913 | 0 | 0 | null | null | null | null | UTF-8 | Python | false | false | 5,447 | py | import numpy as np
import pandas as pd
import HTSeq, os,sys,time
## for test
gt_addr = '/Users/ruizeliu/Documents/lrz/other/sczasn_IP/test_dir/raw.txt'
assoc_addr = '/Users/ruizeliu/Documents/lrz/other/sczasn_IP/test_dir/risk_or.txt'
ip_addr = '/Users/ruizeliu/Documents/lrz/other/sczasn_IP/test_dir/IP_InWeb.txt'
map_addr = '/Users/ruizeliu/Documents/lrz/other/sczasn_IP/test_dir/tmp1.map'
out_addr = '/Users/ruizeliu/Documents/lrz/other/sczasn_IP/test_dir/test_result.txt'
# gt_addr = sys.argv[1]
# assoc_addr = sys.argv[2]
# ip_addr = sys.argv[3]
# map_addr = sys.argv[4]
# out_addr = sys.argv[5]
def make_snp_genome(map_addr):
f_map = open(map_addr)
snp_genome = HTSeq.GenomicArrayOfSets("auto",stranded=False)
all_snp_list= []
for map_line in f_map:
map_line_l = map_line.strip().split()
map_chr = map_line_l[0]
map_pos = int(map_line_l[3])
map_snp_id = map_line_l[1]
snp_iv = HTSeq.GenomicInterval(map_chr, map_pos, map_pos + 1)
snp_genome[snp_iv] += map_snp_id
all_snp_list.append(map_snp_id)
return snp_genome, all_snp_list
def rc(seq):
c = {'A':'T','T':'A','G':'C','C':'G'}
return ''.join(map(lambda x: c[x], list(seq)))[::-1]
def make_logOR(assoc_addr, gt_addr, all_snp_list):
f_assoc = open(assoc_addr )
assoc_header = f_assoc.next()
assoc_dict = {}
for line in f_assoc:
line_l = line.split()
snp_id = line_l[1]
snp_A1 = line_l[3]
snp_A2 = line_l[4]
snp_frq = line_l[5]
snp_OR = line_l[8]
if snp_id in all_snp_list:
assoc_dict[snp_id] = (snp_A1, snp_A2, snp_frq, snp_OR)
f_gt = open(gt_addr)
gt_header = f_gt.next()
gt_header_l = gt_header.split()
logor_list = []
result = ['\t'.join(['snp_id', 'A1', 'logOR(A1)','frq(A1)'])]
# print gt_header_l # test
for gt_snp_id in gt_header_l[6:]:
snp_id, allele = gt_snp_id.split('_')
snp_A1, snp_A2, snp_frq, snp_OR = assoc_dict[snp_id]
snp_logOR = np.log(float(snp_OR))
snp_frq = float(snp_frq)
if set((snp_A1, snp_A2)) in [set(('A','T')), set(('C','G'))]:
if float(snp_frq) > 0.5: #A1 frq
new_A1 = allele
new_logOR = -snp_logOR
new_frq = 1 - snp_frq
else:
new_A1 = allele
new_logOR = snp_logOR
new_frq = snp_frq
else:
if allele not in [snp_A1, rc(snp_A1)]:
if allele not in [snp_A2, rc(snp_A2)]:
print 'error:', gt_snp_id
else:
new_A1 = allele
new_logOR = -snp_logOR
new_frq = 1 - snp_frq
else:
new_A1 = allele
new_logOR = snp_logOR
new_frq = snp_frq
logor_list.append(snp_logOR)
result.append('\t'.join([snp_id, new_A1, str(new_logOR), str(new_frq)]))
print '\n'.join(result) # test
return logor_list
print ' '.join(sys.argv)
print 'start',time.ctime()
snp_genome, all_snp_list = make_snp_genome(map_addr)
logOR = make_logOR(assoc_addr, gt_addr, all_snp_list)
logOR = np.array(logOR, dtype=float)
gt_array = []
f_gt = open(gt_addr)
gt_header = f_gt.next()
phe_list = []
gt_list = []
ip_df = pd.read_table(ip_addr)
bait_list = list(set(ip_df['bait']))
for gt_line in f_gt:
gt_line_l = gt_line.strip().split()
phe = gt_line_l[5]
gt = np.array(gt_line_l[6:], dtype='float16')
phe_list.append(phe)
gt_list.append(gt)
print 'done gt',time.ctime()
f_out = open(out_addr, 'w')
f_out.write('\t'.join(['IP\tbait\tint'] + phe_list) + '\n')
for bait in bait_list:
bait_df = ip_df[ip_df['bait'] == bait] # bait type : all_combined
int_type = list(set(bait_df['int']))
for i in int_type: # y , n
bait_int_df = bait_df[bait_df['int'] == i]
ip = ' '.join(list(set(bait_int_df['IP'])))
gene_len = 0
snp_used = np.zeros(len(all_snp_list), dtype=bool)
for index, row in bait_int_df.iterrows():
snp_used_id_list = []
gene_chr = str(row['chr'])
gene_s, gene_e = row['pos'].split('-')
gene_s = int(gene_s)
gene_e = int(gene_e)
s = gene_s - 200e3
if s<=0: s = 1
e = gene_e + 200e3
gene_iv = HTSeq.GenomicInterval(gene_chr, s , e + 1)
gene_len = gene_e - gene_s + 1
for iv, val in snp_genome[gene_iv].steps():
if len(val) != 0:
snp_id = list(val)[0] # snp id
snp_used_id_list.append(snp_id)
snp_id_index = all_snp_list.index(snp_id)
snp_used[snp_id_index] = True
snp_num = np.sum(snp_used)
#for PRS
iid_prs_list = []
for gt in gt_list:
gt_used = gt[snp_used]
logOR_used = logOR[snp_used]
iid_prs = np.sum(gt_used * logOR_used) / snp_num / gene_len
iid_prs_list.append(str(iid_prs))
# print gt
# print snp_used
# print logOR_used
print ip, bait, i, snp_num, gene_len
out_line = [ip, bait, i ] + iid_prs_list
f_out.write('\t'.join(out_line) + '\n')
print 'Done', time.ctime()
| [
"ruizeliu@wmdb6-44d.broadinstitute.org"
] | ruizeliu@wmdb6-44d.broadinstitute.org |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.