Reset23/the-stack-v2-blamed2 · Datasets at Hugging Face

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texto = raw_input("Ingrese cadena para ser encriptada : ") n = input("Ingrese el valor de n : ") salida="" for i in texto: #a z 97 122 #A Z 65 90 #0 9 48 57 temp=ord(i) if temp>=97 and temp<=122: valor=temp - 97 +n while valor>=26: valor=valor-26 salida=salida+chr(97+valor) if temp>=65 and temp<=90: valor=temp - 65 +n while valor >=26: valor=valor-26 salida=salida+chr(65+valor) if temp>=48 and temp<=57: valor=temp - 48 +n while valor >=10: valor=valor-10 salida=salida+chr(48+valor) print "El codigo encriptado es: ", salida

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from greenlet import greenlet def test1(): print 1 gr2.switch(1) print 2 def test2(x): print 3 gr1.switch() print 4 gr1 = greenlet(test1) gr2 = greenlet(test2) gr1.switch()

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''' author: Adam Rupe modified: Nalini Kumar https://github.com/adamrupe/DisCo brief: DisCo code for 2D turbulence data dependencies: see environment.yml ******************************************************************************* Use the following (elsewhere, e.g. a jupyter notebook) to calculate the number of parallel procedures needed for given choice of lightcone depths and work size (this is the value of srun -n in run_haswell.sl): from math import ceil total = 251 # number of time steps in the turbulence data p = 6 # past lightcone depth f = 2 # future lightcone depth work = 1 # worksize n_procs = ceil((total - f - p)/work) # number of required parallel procedures ''' import time, os, sys from math import ceil # Parent directory which contains the disco repo module_path = os.path.abspath(os.path.join('/global/common/software/ProjectDisCo/')) sys.path.append(module_path) from source.pdisco import * #Initialize MPI variables from mpi4py import MPI comm = MPI.COMM_WORLD size = comm.Get_size() rank = comm.Get_rank() if rank == 0: start = time.time() # Initialize parameters for pipeline p_depth = 14 f_depth = 2 c = 1 K_past = 4 K_future = 20 p_decay = 0.0 f_decay = 0.0 past_params = {'nClusters':K_past, 'maxIterations':200} future_params = {'nClusters':K_future, 'maxIterations':200} p_i_params = {'nClusters':K_past, 'method':'plusPlusDense', 'distributed': True} f_i_params = {'nClusters':K_future, 'method':'plusPlusDense', 'distributed': True} # Load data with appropriate halos work = 2 load_file = '/global/project/projectdirs/ProjectDisCo/Turbulence/turbulence_vorticity.npy' fullfield = np.load(load_file) #fullfield = fullfield*fullfield #reconstructing from squared vorticity # fullfield = np.absolute(fullfield) # reconstruct from absolute value of vorticity # make sure the full dataset gets processed / filtered total = len(fullfield) n_procs = ceil((total - (p_depth+f_depth))/work) last = n_procs - 1 if rank == last: myfield = np.copy(fullfield[rank*work : total]) else: myfield = np.copy(fullfield[rank*work : (rank+1)*work + (p_depth+f_depth)]) del fullfield # execute distributed reconstruction and causal filtering recon = DiscoReconstructor(p_depth, f_depth, c) recon.extract(myfield, boundary_condition='periodic') del myfield comm.Barrier() d4p.daalinit() recon.kmeans_lightcones(past_params, future_params, past_decay=p_decay, future_decay=f_decay, past_init_params=p_i_params, future_init_params=f_i_params, ) recon.reconstruct_morphs() comm.Barrier() comm.Allreduce(recon.local_joint_dist, recon.global_joint_dist, op=MPI.SUM ) recon.reconstruct_states(chi_squared) recon.causal_filter() save_dir = '/global/cscratch1/sd/atrupe/results/turbulence/SC19/result-18/fields/' save_name = 'turb_csfield_{:03d}'.format(rank) np.save(save_dir+save_name, recon.state_field) if rank == 0: end = time.time() print('Minutes to Solution: {}'.format((end-start)/60)) print('past depth: {}, \nfuture depth: {}, \nc: {}, \npast K: {}, \nfuture K: {}, \npast decay: {}, \nfuture decay: {}'.format(p_depth, f_depth, c, K_past, K_future, p_decay, f_decay)) print('Reconstructed from regular vorticity field') # print('Reconstructed from squared vorticity field') # print('Reconstructed from absolute value vorticity field') print('\n') d4p.daalfini()

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import nsga_ii from iga.gacommon import gaParams import copy class Population(nsga_ii.Population): def __init__(self, paramClass, paramDict): nsga_ii.Population.__init__(self, paramClass, paramDict) ops = gaParams.getVar('operators') len_ops = len(ops) op_prob = 1. / len_ops for i in xrange(len_ops): ops[i] = op_prob self.op_len = len(ops) print 'ops ', ops #---------------------------------------# def userInput(self, user_selection = []): ''' Takes a list of the indices of the individuals selected by the user during evaluation, and we save the actual users on a list, to be used during fitness evaluation. It is the programmer's responsibility to decide on the meaning of the user feedback. ''' # if feedback provided, otherwise the user selection was made # on the injected individuals if user_selection: user_selected = [] ops = gaParams.getVar('operators') inc_prob = .05 dec_prob = .05 / len(ops)-1 for i in user_selection: ind = self.subset[i] user_selected.append(ind) ind_ops = ind.operators ind_ops.count(1) if ind_ops: for j in xrange(self.op_len): if ind_ops[j]: ops[j] = min(ops[j] + 0.05, 0.9) else: ops[j] = max(ops[j] - 0.05, 0.1) print 'ops ', ops self.user_selected = user_selected #---------------------------------------# def nextgen(self): ''' Create next generation from current population. ''' best = copy.deepcopy(self.user_selected[0]) newPop = [best] random = self.params.random for i in xrange(0, self.popsize-1): p = self.pop[i] c1, c2 = self.crossover(p, best) self.params.mutate(c1) self.params.mutate(c2) newPop.extend([c1,c2]) # evaluate children self.eval(newPop) new_fronts = self.createFronts(newPop) self.crowdedDistance(new_fronts) self.combinepop(new_fronts) # explicitly copy the user selected individual into # the next generation and set its rank to the highest randPos = random.randrange(0, self.popsize) self.pop[randPos] = copy.deepcopy(self.user_selected[0]) self.pop[randPos].rank = 0 #---------------------------------------#

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# Copyright 2020 The OpenAGI Datum Authors. # # 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. from typing import Tuple import tensorflow as tf def is_binary_image(string: tf.Tensor) -> Tuple[bool, str]: """Determine image compression type using a binary string tensor/object. Args: string: binary string, can be `tf.Tensor` or python format.. Returns: a tuple containing a flag denoting whether input string is an image and the corresponding extension (if its an image, else empty). """ if not isinstance(string, (bytes, tf.Tensor)): raise ValueError(f'Input {string} is not a bytes string or `tf.Tensor`.') if isinstance(string, tf.Tensor): string = string.numpy() if string.startswith(b'\xff\xd8\xff'): return True, 'jpg' elif string.startswith(b'\x89\x50\x4e\x47\x0d\x0a\x1a\x0a'): return True, 'png' elif string.startswith(b'bm'): return True, 'bmp' else: return False, ''

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#2乗和誤差 import numpy as np def mean_squared_error(y, t): return 0.5 * np.sum((y - t) ** 2) #「2」を正解とする t = np.array([0,0,1,0,0,0,0,0,0,0]) #正解が一つのみ(one-hot表現) #正解と同じ「2」の確率が最も高くなる場合 y = np.array([0.1, 0.05, 0.6, 0.0, 0.05, 0.1, 0.0, 0.1, 0.0, 0.0]) print("正解と同じデータの確率が大きくなる場合の誤差") print(mean_squared_error(y, t)) #正解と異なる「7」の確率が最も高くなる場合 y = np.array([0.1, 0.05, 0.1, 0.0, 0.05, 0.1, 0.0, 0.6, 0.0, 0.0]) print("正解と異なるデータの確率が大きくなる場合の誤差") print(mean_squared_error(y, t))

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import os import time import sys import pyodbc #for mssql connection with python #connect db def connect(dbName): try: conn = pyodbc.connect('Driver={SQL Server};' 'Server=USBLRVDEEPAK1;' 'Database='+dbName+';' 'Trusted_Connection=yes;') except: print("Connection error! Check dbName") sys.exit() return conn #get table names def list_of_tables(conn,dbName): try: cursor = conn.cursor() statement = "SELECT TABLE_NAME FROM INFORMATION_SCHEMA.TABLES WHERE TABLE_TYPE = 'BASE TABLE' AND TABLE_CATALOG='" + dbName +"'" tables = cursor.execute(statement) return [table[0] for table in tables] except: print("Error! Check your db name") sys.exit() def generateForAll(): dbName = input("Enter the database name:") conn = connect(dbName) print("if you want all tables-> input 'ALL'") tables = list(map(str,input("Enter the names of tables to fetch: ").split())) schema = input("Enter for which schema: ") if(tables[0] == "ALL"): tables = list_of_tables(conn,dbName) if(len(tables)==0): print("Error! Check dbName or DB") sys.exit() s = time.time() for table in tables: statement = 'sqlcmd -s"|" -W -Q "set nocount on; select * from [' + dbName + '].['+schema+'].['+table+']" | findstr /v /c:"-" /b > "'+table+'.csv"' os.system(statement) e = time.time() print("Time taken(secs): ",e-s) generateForAll()

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import logging from django.conf import settings from django.contrib.auth.tokens import default_token_generator from django.core.mail import EmailMessage, EmailMultiAlternatives from django.urls import reverse from django.utils.encoding import force_bytes from django.utils.http import urlsafe_base64_encode from oscar.core.loading import get_model CommunicationEvent = get_model('order', 'CommunicationEvent') Email = get_model('customer', 'Email') class Dispatcher(object): def __init__(self, logger=None, mail_connection=None): if not logger: logger = logging.getLogger(__name__) self.logger = logger # Supply a mail_connection if you want the dispatcher to use that # instead of opening a new one. self.mail_connection = mail_connection # Public API methods def dispatch_direct_messages(self, recipient, messages): """ Dispatch one-off messages to explicitly specified recipient. """ if messages['subject'] and (messages['body'] or messages['html']): return self.send_email_messages(recipient, messages) def dispatch_order_messages(self, order, messages, event_type=None, **kwargs): """ Dispatch order-related messages to the customer. """ if order.is_anonymous: email = kwargs.get('email_address', order.guest_email) dispatched_messages = self.dispatch_anonymous_messages(email, messages) else: dispatched_messages = self.dispatch_user_messages(order.user, messages) self.create_communication_event(order, event_type, dispatched_messages) def dispatch_anonymous_messages(self, email, messages): dispatched_messages = {} #if email: # dispatched_messages['email'] = self.send_email_messages(email, messages), None return dispatched_messages def dispatch_user_messages(self, user, messages): """ Send messages to a site user """ dispatched_messages = {} #if messages['subject'] and (messages['body'] or messages['html']): # dispatched_messages['email'] = self.send_user_email_messages(user, messages) #if messages['sms']: # dispatched_messages['sms'] = self.send_text_message(user, messages['sms']) return dispatched_messages # Internal def create_communication_event(self, order, event_type, dispatched_messages): """ Create order communications event for audit """ if dispatched_messages and event_type is not None: CommunicationEvent._default_manager.create(order=order, event_type=event_type) def create_customer_email(self, user, messages, email): """ Create Email instance in database for logging purposes. """ # Is user is signed in, record the event for audit if email and user.is_authenticated: return Email._default_manager.create(user=user, email=user.email, subject=email.subject, body_text=email.body, body_html=messages['html']) def send_user_email_messages(self, user, messages): """ Send message to the registered user / customer and collect data in database. """ if not user.email: self.logger.warning("Unable to send email messages as user #%d has" " no email address", user.id) return None, None email = self.send_email_messages(user.email, messages) return email, self.create_customer_email(user, messages, email) def send_email_messages(self, recipient, messages): """ Send email to recipient, HTML attachment optional. """ if hasattr(settings, 'OSCAR_FROM_EMAIL'): from_email = settings.OSCAR_FROM_EMAIL else: from_email = None # Determine whether we are sending a HTML version too if messages['html']: email = EmailMultiAlternatives(messages['subject'], messages['body'], from_email=from_email, to=[recipient]) email.attach_alternative(messages['html'], "text/html") else: email = EmailMessage(messages['subject'], messages['body'], from_email=from_email, to=[recipient]) self.logger.info("Sending email to %s" % recipient) #if self.mail_connection: # self.mail_connection.send_messages([email]) #else: # email.send() return email def send_text_message(self, user, event_type): raise NotImplementedError def get_password_reset_url(user, token_generator=default_token_generator): """ Generate a password-reset URL for a given user """ kwargs = { 'token': token_generator.make_token(user), 'uidb64': urlsafe_base64_encode(force_bytes(user.id)).decode(), } return reverse('password-reset-confirm', kwargs=kwargs) def normalise_email(email): """ The local part of an email address is case-sensitive, the domain part isn't. This function lowercases the host and should be used in all email handling. """ clean_email = email.strip() if '@' in clean_email: local, host = clean_email.split('@') return local + '@' + host.lower() return clean_email

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# здесь подключаются модули import pygame from minerobj import * import settings pygame.init() sc = pygame.display.set_mode((settings.DIS_WIDTH, settings.DIS_HEIGHT)) clock = pygame.time.Clock() marked_bombs = 0 text = '' font = pygame.font.SysFont('serif', settings.DIS_WIDTH//8) cell_font = pygame.font.SysFont('serif', Cell.cell_width//2) pygame.display.update() pygame.display.set_caption("Miner") field = Field() field.create_empty_field(sc, WHITE) first_play = True game_active = True #main loop while game_active: clock.tick(settings.FPS) # event loop for event in pygame.event.get(): if event.type == pygame.QUIT: exit() elif event.type == pygame.MOUSEBUTTONUP: if event.button == 1: #cell opening loop for i in range(settings.CELLS): for j in range(settings.CELLS): #checks for pressing if field.cells[i][j].collide(event.pos): if first_play: first_play = False field.create_field(sc, settings.WHITE, i, j) field.cells[i][j].active() zero_indexes = set() #recursive opening of null cells def open_ceil(i, j): if field.cells[i][j].value == 0: field.cells[i][j].active() zero_indexes.add((i, j)) for item in field.cells[i][j].neighbor: if item[0] >= 0 and item[0] < CELLS and item[1] >= 0 and item[1] < settings.CELLS: if (item[0], item[1]) not in zero_indexes: field.cells[item[0]][item[1]].active() for x in [-1, 0, 1]: for y in [-1, 0, 1]: if (x + i >= 0 and x + i < CELLS) and (y + j >= 0 and y + j < settings.CELLS) and ( i + x, j + y) not in zero_indexes: open_ceil(i + x, j + y) else: return 1 open_ceil(i, j) #Lose event if field.cells[i][j].value == '*': game_active = False text = 'YOU LOSE' elif event.button == 3: #cell labeling loop for i in range(CELLS): for j in range(CELLS): if field.cells[i][j].collide(event.pos): field.cells[i][j].active_flag() if field.cells[i][j].value =='*' and field.cells[i][j].flag: marked_bombs+= 1 elif field.cells[i][j].value =='*' and not field.cells[i][j].flag: marked_bombs -= 1 #win event if (marked_bombs == settings.BOMBS): game_active = False text = 'YOU WON!' #pygame draw loop for i in range(settings.CELLS): for j in range(settings.CELLS): rect, cell_text = field.cells[i][j].get() pygame.draw.rect(rect[0], (rect[1][0], rect[1][1], rect[1][2]), (rect[2][0], rect[2][1], rect[2][2], rect[2][3])) rect[0].blit(cell_font.render(str(cell_text[0]),1, (0,0,255)), (cell_text[1][0], cell_text[1][1])) pygame.display.update() else: #end game loop while True: for event in pygame.event.get(): if event.type == pygame.QUIT: exit() game_end = font.render(text, 1, (255, 255, 255)) sc.fill((0, 0, 0)) sc.blit(game_end, (settings.DIS_WIDTH // 5, settings.DIS_HEIGHT // 2.5)) pygame.display.update()

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# Generated by Django 2.2.7 on 2020-06-16 15:47 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('producao', '0101_auto_20200616_1506'), ] operations = [ migrations.AddField( model_name='bobine', name='diam', field=models.DecimalField(blank=True, decimal_places=2, max_digits=10, null=True, verbose_name='Diametro'), ), ]

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# -*- coding: utf-8 -*- """ Created on Fri Aug 8 15:00:56 2014 @author: sean """ # -*- coding: utf-8 -*- """ Created on Wed Aug 6 17:39:00 2014 @author: sean """ import time import sys import pandas as pd import sklearn.linear_model.logistic as logi import libLinear_functions data_path='../data/' executable_path = '../../../../lib/liblinear-weights/' features="site+ad+banner_width*banner_height+site*banner_width*banner_height".split('+') rtb_flag = [1,0] sql_fields = list(set(sum([fs.split('*') for fs in features], []))) sql_table = 'aggregated_ctr' #Data table con_dict_mad={'host':'db.lqm.io', 'db':'madvertise_production', 'user':'readonly', 'passwd':'z0q909TVZj'} con_dict_dse={'host':'db.lqm.io', 'db':'dse', 'user':'dse', 'passwd':'dSe@lQm'} factors = features[:] non_factors = [] #train_per=['2014-06-23 01:00:00', '2014-07-07 00:00:00'] train_per=['2014-06-23 01:00:00', '2014-07-07 00:00:00'] cut_off_list=[0] C_list=[ 0.372] # C_list=[0.372] test_per=['2014-06-24 01:00:00', '2014-06-24 02:00:00'] # remove cross terms factors+=['campaign_id', 'ad_account_id', 'pub_account_id', 'site*ad', 'ad*pub_account_id'] select_factors_list=[ features + ['site*ad']] #select_factors_list=[features[:], # features + ['site*ad'], # ['site', 'banner_width*banner_height', 'site*banner_width*banner_height', 'pub_account_id', 'ad*pub_account_id']] rtb_flag=[0,1] model_type=0 has_intercept = True # bias term in LR tol = 0.00000001 # NB these filenames are HARDCODED in write_sparse routines weights_file = 'train_ais.txt' train_file = 'train_svm.txt' test_file = 'test_svm.txt' probability_file = 'preds_SummModel_py.txt' results = [] # DATA RANGE IS INCLUSIVE => 00:00-02:00 = 3 HOURS #timings=[] #timings.append(time.clock()) #train_df=libLinear_functions.MySQL_getdata(con_dict_dse['host'], # con_dict_dse['db'], # con_dict_dse['user'], # con_dict_dse['passwd'], # sql_table, train_per, sql_fields, rtb_flag) #timings.append(time.clock()) #train_df=libLinear_functions.add_features(train_df) #timings.append(time.clock()) #test_df= libLinear_functions.MySQL_getdata(con_dict_dse['host'], # con_dict_dse['db'], # con_dict_dse['user'], # con_dict_dse['passwd'], # sql_table, test_per, sql_fields, rtb_flag) #timings.append(time.clock()) #test_df = libLinear_functions.add_features(test_df) #timings.append(time.clock()) # #train_df=libLinear_functions.load_data(data_path,train_per) #test_df=libLinear_functions.load_data(data_path,test_per) sc, click_no_click_df, weights, targets \ = libLinear_functions.create_sparse_cat(train_df, factors, non_factors) timings.append(time.clock()) for cut_off in cut_off_list: sparse_train_all = libLinear_functions.create_sparse(sc, cut_off, click_no_click_df) timings.append(time.clock()) sparse_test_all = sc.transform(test_df) timings.append(time.clock()) for trial_factors in select_factors_list: sparse_train=sc.select_factors(sparse_train_all, trial_factors) timings.append(time.clock()) sparse_test = sc.select_factors(sparse_test_all, trial_factors) timings.append(time.clock()) libLinear_functions.write_sparse(sc, sparse_train, weights, targets, data_path, len(trial_factors)) timings.append(time.clock()) libLinear_functions.write_sparse_test(sc, sparse_test, data_path, n_columns_used= len(trial_factors)) for C in C_list: mean_log_loss_train = 0 mean_log_loss_test = 0 model_file = \ '{start}_{stop}_cut_{cut_off}_C_{C:0.3}.model'.format( start=libLinear_functions.date_name(train_per[0]), stop=libLinear_functions.date_name(train_per[1]), cut_off=cut_off, C=C) timings.append(time.clock()) libLinear_functions.fit(executable_path, data_path, train_file, model_file, weights_file, model_type, reg_param=C, tol=tol, has_intercept=has_intercept) timings.append(time.clock()) pCTR_train = libLinear_functions.predict(executable_path, data_path, train_file, model_file, probability_file) timings.append(time.clock()) if type(pCTR_train) is pd.Series: pCTR_train = pCTR_train.iloc[:pCTR_train.shape[0]/2] # training data is duplicated 1st no -clicks then clicks pCTR=pCTR_train data_df=train_df if type(pCTR) is pd.Series: amounts = pd.DataFrame({ 'misses':data_df['instances' ]-data_df['clicks'], 'hits':data_df['clicks']}) mean_log_loss, weighted_log_loss = libLinear_functions.log_loss_weighted(pCTR, amounts) data_df['pCTR: ' + '+'.join(trial_factors) ] =pCTR data_df['lloss: ' + '+'.join(trial_factors) ] =weighted_log_loss mean_log_loss_train=mean_log_loss # TODO what to do if ERROR? pCTR_test = libLinear_functions.predict(executable_path, data_path, test_file, model_file, probability_file) pCTR=pCTR_test data_df=test_df if type(pCTR) is pd.Series: amounts = pd.DataFrame({ 'misses':data_df['instances' ]-data_df['clicks'], 'hits':data_df['clicks']}) mean_log_loss, weighted_log_loss = libLinear_functions.log_loss_weighted(pCTR, amounts) data_df['pCTR: ' + '+'.join(trial_factors) ] =pCTR data_df['lloss: ' + '+'.join(trial_factors) ] =weighted_log_loss mean_log_loss_test=mean_log_loss results.append([train_per[:], trial_factors, cut_off, C, mean_log_loss_train, mean_log_loss_test]) data_per=train_per data_file = data_path + 'data_pred_df_{0}_{1}scikit.csv'.format( libLinear_functions.date_name(data_per[0]), libLinear_functions.date_name(data_per[1])) train_df.to_csv(data_file, index=False) data_per=test_per data_file = data_path + 'data_pred_df_{0}_{1}scikit.csv'.format( libLinear_functions.date_name(data_per[0]), libLinear_functions.date_name(data_per[1])) test_df.to_csv(data_file, index=False) clf=logi.LogisticRegression(tol = 0.00000001, C=0.372) timings.append(time.clock()) clf.fit(sparse_train,targets,weights) timings.append(time.clock()) #results_all_df=pd.DataFrame(results_all,columns=['dates','cutoff','C','logloss']) #results_all_df.to_csv('../data/res_all1.csv')

[ "sean.violante@gmail.com" ]

sean.violante@gmail.com

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Schwartz210/Database-software

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import Tkinter import tkMessageBox top = Tkinter.Tk() def deleteme(): tkMessageBox.askquestion("Delete", "Are You Sure?", icon='warning') if 'yes': print "Deleted" else: print "I'm Not Deleted Yet" B1 = Tkinter.Button(top, text = "Delete", command = deleteme) B1.pack() top.mainloop()

[ "Schwartz210@gmail.com" ]

Schwartz210@gmail.com

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/backends/__init__.py

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[ "BSD-2-Clause" ]

permissive

trb/Multicache

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import json class Cache(object): def __init__(self, backend): self.backend = backend def set(self, key, data): if type(data) is not str: data = ('json', json.dumps(data)) self.backend.store(key, data) def get(self, key): data = self.backend.retrieve(key) if type(data) is tuple: encoding, data = data if encoding != 'json': raise TypeError('No decoder found for encoding "{0}".' + ' Available decoder: "json"'.format(encoding)) return json.loads(data) return data def has(self, key): return self.backend.check(key) def delete(self, key): self.backend.remove(key) def default(): import Local return Cache(Local.LocalBackend())

[ "thomas.rubbert@gmail.com" ]

thomas.rubbert@gmail.com

037fc634a6c96cca0b1264ed15b267b1d4a37fa3

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[]

no_license

dr-dos-ok/Code_Jam_Webscraper

c06fd59870842664cd79c41eb460a09553e1c80a

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refs/heads/master

2020-04-06T08:17:40.938460

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# 0123 # 0 .... # 1 .... # 2 .... # 3 .... class Game: def __init__(self, size = 4): self.size = 4 self.rows = { 'X': 0, 'O': 0 } self.columns = {} self.columns['X'] = [True] * size self.columns['O'] = [True] * size self.diagonals = {'X': [True, True], 'O': [True, True]} self.empty = 0 self.result = None def add_empty(self): self.empty += 1 def add_to_row(self, symbol): self.rows[symbol] += 1 def discard_diagonal(self, symbol, i, j): if i == j: self.diagonals[symbol][0] = False if (self.size - i - 1) == j: self.diagonals[symbol][1] = False def discard_column(self, symbol, column): self.columns[symbol][column] = False def discard_row(self, symbol): self.rows[symbol] = 0 def check_and_clean_rows(self): for symbol in self.rows.keys(): if self.rows[symbol] == self.size: self.result = symbol self.rows[symbol] = 0 def game_over(self): if not self.result: for symbol in self.columns.keys(): if any(self.columns[symbol]): self.result = symbol break for symbol in self.diagonals.keys(): if any(self.diagonals[symbol]): self.result = symbol break if not self.result: if self.empty: self.result = 'N' else: self.result = 'D' def print_result(self, game_count): if self.result in ('X', 'O'): print "Case #%i: %s won" % (game_count, self.result) elif self.result == 'D': print "Case #%i: Draw" % (game_count) elif self.result == 'N': print "Case #%i: Game has not completed" % (game_count) def get_stats(input): n = int(input.readline().strip()) counts = {} other = { 'X': 'O', 'O': 'X' } g = Game() game_count = 1 i = 0 j = 0 while game_count <= n: line = input.readline().strip() i = 0 for cell in line: if cell == 'T': g.add_to_row('X') g.add_to_row('O') elif cell == '.': g.discard_column('X', i) g.discard_column('O', i) g.discard_diagonal('X', i, j) g.discard_diagonal('O', i, j) g.add_empty() elif cell in ('X', 'O'): g.add_to_row(cell) g.discard_row(other[cell]) g.discard_column(other[cell], i) g.discard_diagonal(other[cell], i, j) i += 1 g.check_and_clean_rows() j += 1 if j >= g.size: g.game_over() if g.result: g.print_result(game_count) if i == 0: input.readline() while input.readline().strip(): pass g = Game() game_count += 1 i = 0 j = 0 if __name__ == '__main__': import sys get_stats(sys.stdin)

[ "miliar1732@gmail.com" ]

miliar1732@gmail.com

010cf9a1587637d6a46d499f8c6bed86fd66dd1a

8c9dfa35d17ffda6f6d98373a62349d6fbe5ba19

/metadex/analysis.py

94c01e9774f3ca4e118332c2311901f17c5783e6

[]

no_license

veeeceee/metadex

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refs/heads/master

2021-01-24T09:35:08.464741

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import glob import math import numpy as np import pandas as pd import sys import os import errno import itertools from skbio.stats import subsample_counts from functools import reduce from Bio import Entrez import time import seaborn as sns import re #import requests from scipy import stats ############################################################################################ ''' DETERMING THE RELATIONSHIP BETWEEN CHANGE IN DIVERSITY AND CHANGE IN FUNCTION ''' ############################################################################################ pd.options.mode.chained_assignment = None ###SEARCH BY GENE### #takes dataframe def search_by_gene(query, dfCounts): """ Summary: gets the subset of a dataframe by the query of interest Args: query (str): search term of interest, use [space] for OR & | [pipe] for AND dfCounts (pandas.DataFrame): counts dataframe Returns: geneSorted (pandas.DataFrame): dataframe for genes containing query """ queryList = query.replace(" ", "|").replace("+", " ") geneSorted = dfCounts[dfCounts['gene function'].str.contains(queryList)] return geneSorted def merge_dfs2(ldf, rdf): """ Summary: merges two counts (with hierarchy) Args: ldf (pandas.DataFrame): left dataframe rdf (pandas.DataFrame): right dataframe Returns: pd.merge(ldf, rdf) (pandas.DataFrame): merged dataframe """ print('yep, again...') return ldf.merge(rdf, how='outer', on=['gene function', 'organism', 'phylum', 'class', 'order', 'family']) def merge_all_counts(studyName): """ Summary: merges all counts w/ hierarchy Args: studyName (str): study name/directory name (ideally one and the same) Returns: mergedCounts (pandas.DataFrame): merged dataframe """ annotatedCountsList = glob.glob(studyName + '/norm_taxonomy/*norm_taxonomy.csv') annotatedDFsList = [pd.read_csv(count) for count in annotatedCountsList] [annDF.pop('Unnamed: 0') for annDF in annotatedDFsList] mergedCounts = reduce(merge_dfs2, annotatedDFsList) mergedCounts.fillna(0) mergedCounts.to_csv(str(studyName) + '_allcounts.csv') return mergedCounts def split_hierarchically(geneSorted): """ Summary: breaks out the Entrez lineage column into separate columns for each taxonomic level Args: geneSorted (pandas.DataFrame): annotated counts with column for hierarchy Returns: taxList (list): list of counts dataframes, each at a different taxonomic level """ taxList = [] taxList.append(geneSorted.groupby('phylum').sum()) taxList.append(geneSorted.groupby('class').sum()) taxList.append(geneSorted.groupby('order').sum()) taxList.append(geneSorted.groupby('family').sum()) return taxList def subset_by_gene(studyName, geneName, testMerge): """ Summary: subsets counts dataframe by query (gene name/gene family name) Args: studyName (str): name of study directory geneName (str): query of interest testMerge (pandas.DataFrame): merged annotated counts Returns: geneDF (pandas.DataFrame): dataframe of counts only for gene/query of interest """ os.chdir(studyName) geneDF = search_by_gene(geneName, testMerge) geneDF.to_csv(str(geneName)+'_'+'allcounts.csv') os.chdir('..') return geneDF ############################################################################################## ####PLOT RENYI PROFILE### #input is a data frame of values with rows representing taxa (in the individual columns) and columns representing the individual samples, as labelled with [group]_[samplenumber] ###MAKE COUNTS PROPORTIONAL (FOR RENYI PROFILE ETC)### def make_counts_proportional(counts): """ Summary: converts numerical counts to fractional representation Args: counts (pandas.Series): counts Returns: counts (pandas.Series): counts represented proportionally """ counts = counts/counts.sum() return counts ###CALCULATE RENYI ENTROPY### def renyientropy(px, alpha): """ Summary: calculates renyi entropy of array px at alpha Args: px (array-like object): distribution of counts alpha (): alpha value at which renyi is to be calculated Returns: renyi (): renyi entropy of px at alpha """ if alpha < 0: raise ValueError("alpha must be a non-negative real number") elif alpha == 0: renyi = np.log2(len(px[px > 0])+.00000000000001) elif alpha == 1: renyi = -np.sum(np.nan_to_num(px*np.log2(px+.00000000000001))) elif alpha == np.inf: renyi = -np.log2(px.max()) else: renyi = 1/(1-alpha) * np.log2((px**alpha).sum()) return renyi #####CALCULATE RENYI PROFILE##### def calculate_renyi_profile(lvlCounts): """ Summary: calculates renyi profile of a counts distribution Args: lvlCounts (array-like object): counts distribution Returns: profile_values (list): renyi profile of lvlCounts """ profile_values = [] if lvlCounts.sum() == 0: profile_values = [0,0,0,0,0,0,0,0,0,0,0] else: lvlCounts = lvlCounts/lvlCounts.sum() counts_distribution = lvlCounts profile_values.append(renyientropy(counts_distribution, 0)) profile_values.append(renyientropy(counts_distribution, .25)) profile_values.append(renyientropy(counts_distribution, .5)) profile_values.append(renyientropy(counts_distribution, 1)) profile_values.append(renyientropy(counts_distribution, 2)) profile_values.append(renyientropy(counts_distribution, 4)) profile_values.append(renyientropy(counts_distribution, 8)) profile_values.append(renyientropy(counts_distribution, 16)) profile_values.append(renyientropy(counts_distribution, 32)) profile_values.append(renyientropy(counts_distribution, 64)) profile_values.append(renyientropy(counts_distribution, np.inf)) return profile_values ###RENYI PROFILE VIA SEABORN###(10 AUG 2017)### def renyi_profile_of_level(levelName,countsDF): """ Summary: calculate renyi profile at a taxonomic level Args: levelName (str): phlyum, class, order, or family countsDF (pandas.DataFrame): dataframe of counts at taxonomic level Returns: """ alphasList = [] renyiProfileList = [] bigGroupList = [] #write similarly to make_renyiprofile_list for i in range(len(countsDF.columns.tolist())): renyiProfileList.insert(i, calculate_renyi_profile(countsDF.ix[:, i])) alphasList.insert(i, ['0','0.25','0.5','1','2','2^2','2^3','2^4','2^5','2^6', 'Inf']) bigGroupList.insert(i , [countsDF.columns[i].split('_')[0]] * 11) flatAlphaList = list(itertools.chain.from_iterable(alphasList)) flatGroupList = list(itertools.chain.from_iterable(bigGroupList)) flatRenyiList = list(itertools.chain.from_iterable(renyiProfileList)) levelList = [levelName] * len(flatAlphaList) countsDF.columns.str.split('_').str[0] renyiDF = pd.DataFrame({'level': levelList,'group':flatGroupList,'alpha':flatAlphaList,'H_alpha':flatRenyiList}) renyiDF.to_csv(levelName +'_renyi_profile.csv') return renyiDF def plot_renyi(geneDF, level): """ Summary: plots all four renyi profiles for a gene of interest: phylum, class, order, and family Args: geneList (list): list of dataframes, one in each taxonomic level Returns: """ renyiDF = renyi_profile_of_level(level, geneDF) sns.set() sns.set_context("paper", font_scale=2.5) sns.factorplot(x="alpha", y="H_alpha", col="level", hue="group", data= renyiDF, ci="sd", palette="muted", size=15, aspect=.85) return def get_diversity_measures(geneName, searchString, studyName, level): """ Summary: creates renyi plot, donut, and outputs code for treemap all as visualisations of diversity for gene of interest Args: geneName (str): actual gene name searchString (str): query for gene of interest studyName (str): name of study directory Returns: Renyi plots Donut plots code to generate treemaps via Brunel """ print('merging pre-processed counts:') mergedCounts = merge_all_counts(studyName) print('subsetting merged counts table by gene '+ geneName + '...') geneDF = subset_by_gene(studyName,searchString, mergedCounts) avgGeneDF = output_treemap(geneDF, geneName, studyName) geneLvlDF = geneDF.groupby(level).sum() geneLvlDF.to_csv(geneName + level +'_counts.csv') print(''' quantitative measure of diversity: Renyi profile by taxonomic level | | ^ ^ | | | Diversity | richness evenness [H_alpha(X)] | | | | v v |______________________________________________ 0 alpha inf The Renyi Profile is a generalised version of the Shannon Entropy, where the Renyi entropy of order alpha: log(sum(i=1->n, (p_i)^alpha)) H_alpha(X) = ----------------------------- 1 - alpha unless alpha = 1, in which case H_alpha(X) is the Shannon Entropy: H_1(X) = - sum(i=1->n, p_i*log(p_i)) If there are multiple communities, they can be ranked using the renyi profile (see above- vertical axis allows for partial or complete diversity ordering) Is the change in functional abundance across environments due to a change in diversity? This provides a quantitative answer. ''') print(geneName) plot_renyi(geneLvlDF, level) return avgGeneDF '''PLOTTING RENYI AND TREEMAP''' #Renyi profile: using seaborn, reading CSV #Donut: using Bokeh, reading CSV #Treemap: using Brunel, reading CSV #Renyi CSV #input: #output: dataframe or csv with columns for each group's renyi profile, and rows for each value in the renyi profilealpha ''' Renyi will be plotted via seaborn Group alpha H_alpha(X) ------|------|---------- | 0 | | ... | | inf | ''' #Brunel Treemap CSV ''' %brunel data('.csv') treemap x(phylum) y(class) color(phylum) size(counts) sort(counts) label(class) tooltip(#all) %brunel data('.csv') treemap x(class) y(order) color(class) size(counts) sort(counts) label(order) tooltip(#all) %brunel data('.csv') treemap x(order) y(family) color(order) size(counts) sort(counts) label(family) tooltip(#all) ''' ''' ''' #brunel command to plot: data('') x(alpha) def average_by_groups(grpsList, taxListLevel): grpsMeanList = [] for i in range(len(grpsList.tolist())): grpsMeanList.insert(i, taxListLevel.filter(like=grpsList.tolist()[i]).mean(1)) return grpsMeanList def output_treemap(geneSorted, geneName, studyName): """ Summary: generates code to make treemaps Args: geneSorted (pandas.DataFrame): gene counts DF with hierarchy geneName (str): actual gene name studyName (str): name of study directory Returns: None, prints out code that can be copied into Jupyter as-is to generate treemaps via Brunel """ cols = pd.Series([c for c in geneSorted.columns if '_' in c.lower()]) grpsList = cols.str.split("_").str[0].unique() geneAvg = average_by_groups(grpsList, geneSorted) for i in range(len(geneAvg)): geneSorted[str(grpsList[i])] = geneAvg[i] cols = pd.Series([c for c in geneSorted.columns if '_' not in c.lower()]) geneSortedMean = geneSorted[cols] geneMeanList = [] grpsList = grpsList.tolist() for k in range(len(geneAvg)): geneSortedMean[grpsList[k]] = geneAvg[k] donutList = [] fileName = (studyName + '_' + geneName.replace(' ', '') + '_avg.csv') geneSortedMean.to_csv(fileName) print(''' INSTRUCTIONS FOR GENERATING DIVERSITY TREEMAPS First copy the import statements and the read_csv into a cell. For each figure you want to generate, copy each line starting with "%brunel" into its own iPython/Jupyter cell: ''') variableName = geneName.replace(' ', '') print(''' #copy this into a cell import brunel import pandas as pd {0} = pd.read_csv('{1}') '''.format(variableName , fileName)) for e in range(len(grpsList)): print(''' %brunel data('{0}') treemap x(phylum) y(class) color(phylum) size({1}) sort({1}) label(organism, {1}) tooltip(#all) :: width=2000, height=2000 %brunel data('{0}') treemap x(class) y(order) color(class) size({1}) sort({1}) label(organism, {1}) tooltip(#all) :: width=2000, height=2000 %brunel data('{0}') treemap x(order) y(family) color(order) size({1}) sort({1}) label(organism, {1}) tooltip(#all) :: width=2000, height=2000 '''.format(variableName, grpsList[e], fileName)) #geneMeanList[k] grpsList[k] return geneSortedMean def search_by_taxa(query, level, dfCounts): """ Summary: gets the subset of a dataframe by the query of interest Args: query (str): search term of interest, use [space] for OR & | [pipe] for AND dfCounts (pandas.DataFrame): counts dataframe Returns: geneSorted (pandas.DataFrame): dataframe for genes containing query """ queryList = query.replace(" ", "|").replace("+", " ") geneSorted = dfCounts[dfCounts[level].str.contains(queryList)==True] return geneSorted def subset_by_taxa(studyName, level, query, testMerge): """ Summary: subsets counts dataframe by query (gene name/gene family name) Args: studyName (str): name of study directory level (str): taxonomic level of interest testMerge (pandas.DataFrame): merged annotated counts Returns: geneDF (pandas.DataFrame): dataframe of counts only for gene/query of interest """ os.chdir(studyName) geneDF = search_by_taxa(query, level, testMerge) geneDF.to_csv(str(query)+'_'+'allcounts.csv') os.chdir('..') return geneDF

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2,168

py

# -*- coding: utf-8 -*- # Generated by Django 1.11.14 on 2018-08-08 13:31 from __future__ import unicode_literals import datetime from django.db import migrations, models class Migration(migrations.Migration): initial = True dependencies = [ ] operations = [ migrations.CreateModel( name='EmailVerifyRecord', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('code', models.CharField(max_length=20, verbose_name='验证码')), ('email', models.EmailField(max_length=50, verbose_name='邮箱')), ('send_type', models.CharField(choices=[('register', '注册'), ('forget', '找回密码'), ('update_email', '修改邮箱')], max_length=30, verbose_name='验证码类型')), ('send_time', models.DateTimeField(default=datetime.datetime.now, verbose_name='发送时间')), ], options={ 'verbose_name_plural': '邮箱验证码', 'verbose_name': '邮箱验证码', }, ), migrations.CreateModel( name='UserProfile', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('username', models.CharField(default='', max_length=50, verbose_name='昵称')), ('birthday', models.DateField(blank=True, default=datetime.datetime.now, null=True, verbose_name='生日')), ('gender', models.CharField(choices=[('male', '男'), ('female', '女')], default='female', max_length=6)), ('password', models.CharField(default='', max_length=100)), ('mobile', models.CharField(blank=True, max_length=11, null=True)), ('image', models.ImageField(default='image/elliot.png', upload_to='image/%Y/%m')), ('age', models.IntegerField(default=0)), ], options={ 'verbose_name_plural': '用户信息', 'verbose_name': '用户信息', }, ), ]

[ "fengkai.feng@qunar.com" ]

fengkai.feng@qunar.com

2b215ce4b4cdb5828c2a21c4d7217c5fc438e7b9

b0864cdac46135b613d21a4dc5fd766ca61155b6

/rango/migrations/0006_category_slug.py

03079bfbff770044f6d550c59c9ecd9f6f45ac06

[]

no_license

singhalabhishek160/rango

6bfa6625a2f9c0ba4fc090f0cf49f01f7cdc54a5

eb2ee1dbf497fe2006bda8fa85b872dcf9c4d6c9

refs/heads/master

2021-01-21T23:23:59.075260

2017-06-23T17:39:56

95,241,539

0

null

UTF-8

Python

false

433

py

# -*- coding: utf-8 -*- from __future__ import unicode_literals from django.db import models, migrations class Migration(migrations.Migration): dependencies = [ ('rango', '0005_remove_category_slug'), ] operations = [ migrations.AddField( model_name='category', name='slug', field=models.SlugField(default=''), preserve_default=False, ), ]

[ "singhalabhishek160@gmail.com" ]

singhalabhishek160@gmail.com

4e58d2a0290f0e86a5c37fbb09beec1ce8fbe031

f074af31286de1f05f8b1a93bf0e10a533895fcb

/views.py

e8343d2ade9776063ac124a8de05f569dbdf0fce

[]

no_license

escofresco/speeechtotext

10663b131a5e04b6623d974bac006b53056c33aa

89c44c898e4fe1101f6241d93e418100a0f84d1f

refs/heads/master

2022-12-13T09:56:20.681023

2019-10-18T19:43:23

215,436,964

0

null

2022-12-08T06:44:17

2019-10-16T02:15:51

Python

UTF-8

Python

false

4,394

py

import os import time from botocore.exceptions import ClientError from flask import flash, redirect, render_template, request, session, url_for from werkzeug import secure_filename from app import app, socketio import helpers @app.route("/") def home(): return render_template("home.html") @app.route("/upload", methods=["POST"]) def upload(): if request.method == "POST": if "file" in request.files: file = request.files["file"] if file and helpers.file_is_valid(file.filename): filename = secure_filename(file.filename) #file.save(os.path.join(app.config['UPLOAD_FOLDER'], filename)) filepath = "tmp/" + filename file.save(filepath) # flash("Upload successful") # try: # upload_res = helpers.upload_to_s3(filepath, filename) # except ClientError as e: # # return render_template("error_view.html", # # error_message=str(e)) # return str(e) # try: # transcribe_res = helpers.transcribe(filename) # except ClientError as e: # # return render_template("error_view.html", # # error_message=str(e)) # return str(e) # transcript_uri = transcribe_res["TranscriptionJob"][ # "Transcript"]["TranscriptFileUri"] # session[filename] = helpers.load_json_from_uri(transcript_uri) # print("*" * 40) # print(transcript_uri) # print("*" * 40) # #helpers.remove_from_s3(filename) # print(f"session var filename{session[filename]}") # # return redirect( # # url_for("view_transcript", transcript_id=filename)) return filename flash("Oh no...a file wasn't uploaded.") #return redirect(request.url) return "No file was uploaded!" @app.route("/<transcript_id>") def view_transcript(transcript_id): # session["testname"] = {"jobName": "adsf", "results":{"transcripts": [{"transcript":"asdfjkhds hjdsajhsdhjlhjlsda jsdajh"}]}} try: transcript = helpers.transcript_by_id(transcript_id) return render_template( "transcript_view.html", transcript_title=transcript["transcript_title"], transcript_content=transcript["transcript_content"]) except FileNotFoundError as e: return render_template("error_view.html", error_message=str(e)) @socketio.on("upload and transcribe") def on_upload_and_transcribe(filename): socketio.sleep(0) try: socketio.emit("progress update", "upload started") upload_res = helpers.upload_to_s3("tmp/"+filename, filename) socketio.sleep(0) socketio.emit("progress update", "upload successful") socketio.sleep(0) except ClientError as e: # return render_template("error_view.html", # error_message=str(e)) return str(e) try: socketio.emit("progress update", "transcription started") socketio.sleep(0) transcribe_res = helpers.transcribe(filename) socketio.emit("progress update", "waiting...") socketio.sleep(0) socketio.emit("progress update", "transcription succesful") socketio.sleep(0) except ClientError as e: # return render_template("error_view.html", # error_message=str(e)) return str(e) transcript_uri = transcribe_res["TranscriptionJob"][ "Transcript"]["TranscriptFileUri"] session[filename] = helpers.load_json_from_uri(transcript_uri) # socketio.sleep(0) # socketio.emit("progress update", "upload started") # socketio.sleep(2) # socketio.emit("progress update", "upload successful") # socketio.sleep(5) # socketio.emit("progress update", "transcription started") # socketio.emit("progress update", "waiting...") # socketio.sleep(33) # socketio.emit("progress update", "transcription succesful") # socketio.sleep(10) #transcript_uri = "testname" socketio.emit("upload and transcription complete", filename) socketio.sleep(0)

[ "jonaszakr@gmail.com" ]

jonaszakr@gmail.com

0d0efe5aebd2fc8deddd6b033513330081a63629

72cdc45a345fe47c525468ff82ef8ce845d9f800

/Python/django_ajax/ajax_post/app/models.py

db2ea4bd5133f6de68fbf6b39f46e364a5fbe072

[]

no_license

bopopescu/Coding-Dojo-assignments

474242e14371e729b5948602ffc0a9328f1e43cb

0598d7162b37d9472c6f1b82acc51d625ac871ca

refs/heads/master

2022-11-23T18:55:36.393073

2018-07-20T07:43:56

281,670,452

0

null

2020-07-22T12:24:30

null

UTF-8

Python

false

414

py

from django.db import models # Create your models here. class NoteManager(models.Manager): def create_note(self,post_data): self.create(note=post_data['note']) def notes_rev(self): return self.all().order_by('-id') class Note(models.Model): note = models.TextField() create_at = models.DateTimeField(auto_now_add=True) updated_at = models.DateTimeField(auto_now=True) obj = NoteManager()

[ "gringojaimes20@gmail.com" ]

gringojaimes20@gmail.com

2ac28a5d0a7c0005ad33dbe2e2cc6aa1d71abd57

5534f53315b0e0f12e6fa83f2b5eb5879c42a0e1

/CMSSW_10_3_1_RECO_EXPRESS.py

bc77f9b8b3493be8db0b7bc40fe8349d0544371b

[]

no_license

goni-zz/PbPbRun2018ForestingSetup_v0

b5fa6cd004e31de25b3ec5df131b3b6cde9dd074

0fca2a9945f6833711ce46822ac1bfeeefc4e0d8

refs/heads/master

2022-11-08T23:10:39.763145

2018-11-04T05:52:36

null

0

null

UTF-8

Python

false

3,376,093

py

from FWCore.ParameterSet.VarParsing import VarParsing options = VarParsing('analysis') options.register ('isPP', False, VarParsing.multiplicity.singleton, VarParsing.varType.bool, "Flag if this is a pp simulation") options.parseArguments() import FWCore.ParameterSet.Config as cms process = cms.Process("RECO") #process.source = cms.Source("NewEventStreamFileReader", # fileNames = cms.untracked.vstring('file:SED_INPUT') #) process.source = cms.Source("NewEventStreamFileReader", fileNames = cms.untracked.vstring(options.inputFiles[0]) ) process.AODEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(31457280), outputCommands = cms.untracked.vstring( ( 'drop *', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_castorreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_zdcreco_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep recoCaloClusters_hybridSuperClusters_*_*', 'keep recoSuperClusters_hybridSuperClusters_uncleanOnlyHybridSuperClusters_*', 'keep recoCaloClusters_multi5x5SuperClusters_multi5x5EndcapBasicClusters_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoTracks_GsfGlobalElectronTest_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTracks_ctfPixelLess_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_ak4PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'drop doubles_*Jets_rhos_*', 'drop doubles_*Jets_sigmas_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep *_towerMaker_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'drop recoHcalNoiseRBXs_*_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep recoPhotonCores_gedPhotonCore_*_*', 'keep recoPhotons_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'drop *_gedPhotons_valMapPFEgammaCandToPhoton_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'drop *_pfElectronTranslator_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep recoCaloClusters_pfElectronTranslator_*_*', 'keep recoPreshowerClusters_pfElectronTranslator_*_*', 'keep recoSuperClusters_pfElectronTranslator_*_*', 'keep recoCaloClusters_pfPhotonTranslator_*_*', 'keep recoPreshowerClusters_pfPhotonTranslator_*_*', 'keep recoSuperClusters_pfPhotonTranslator_*_*', 'keep recoPhotons_pfPhotonTranslator_*_*', 'keep recoPhotonCores_pfPhotonTranslator_*_*', 'keep recoConversions_pfPhotonTranslator_*_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*' ) ) ) process.AODSIMEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(31457280), outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_castorreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_zdcreco_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep recoCaloClusters_hybridSuperClusters_*_*', 'keep recoSuperClusters_hybridSuperClusters_uncleanOnlyHybridSuperClusters_*', 'keep recoCaloClusters_multi5x5SuperClusters_multi5x5EndcapBasicClusters_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoTracks_GsfGlobalElectronTest_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTracks_ctfPixelLess_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_ak4PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'drop doubles_*Jets_rhos_*', 'drop doubles_*Jets_sigmas_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep *_towerMaker_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'drop recoHcalNoiseRBXs_*_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep recoPhotonCores_gedPhotonCore_*_*', 'keep recoPhotons_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'drop *_gedPhotons_valMapPFEgammaCandToPhoton_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'drop *_pfElectronTranslator_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep recoCaloClusters_pfElectronTranslator_*_*', 'keep recoPreshowerClusters_pfElectronTranslator_*_*', 'keep recoSuperClusters_pfElectronTranslator_*_*', 'keep recoCaloClusters_pfPhotonTranslator_*_*', 'keep recoPreshowerClusters_pfPhotonTranslator_*_*', 'keep recoSuperClusters_pfPhotonTranslator_*_*', 'keep recoPhotons_pfPhotonTranslator_*_*', 'keep recoPhotonCores_pfPhotonTranslator_*_*', 'keep recoConversions_pfPhotonTranslator_*_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep *_allTrackMCMatch_*_*', 'keep *_muonSimClassifier_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*' ) ) ) process.AnomalousCellParameters = cms.PSet( maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999) ) process.BeamSpotAOD = cms.PSet( outputCommands = cms.untracked.vstring('keep *_offlineBeamSpot_*_*') ) process.BeamSpotFEVT = cms.PSet( outputCommands = cms.untracked.vstring('keep *_offlineBeamSpot_*_*') ) process.BeamSpotRECO = cms.PSet( outputCommands = cms.untracked.vstring('keep *_offlineBeamSpot_*_*') ) process.CSCSegAlgoDF = cms.PSet( algo_name = cms.string('CSCSegAlgoDF'), algo_psets = cms.VPSet( cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(8.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(8.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(10), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.5), tanThetaMax = cms.double(1.2) ), cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(12.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(12.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(10), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.8), tanThetaMax = cms.double(2.0) ), cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(8.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(8.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(30), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.5), tanThetaMax = cms.double(1.2) ) ), 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( 3, 1, 2, 2, 1, 2, 1, 2, 1, 2 ) ) process.CSCSegAlgoRU = cms.PSet( algo_name = cms.string('CSCSegAlgoRU'), algo_psets = cms.VPSet( cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.005), dPhiMax = cms.double(0.006), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.004), dPhiMax = cms.double(0.005), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.003), dPhiMax = cms.double(0.004), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(60.0), chi2Norm_2D_ = cms.double(20), chi2_str = cms.double(30.0), dPhiIntMax = cms.double(0.002), dPhiMax = cms.double(0.003), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(180.0), chi2Norm_2D_ = cms.double(60), chi2_str = cms.double(80.0), dPhiIntMax = cms.double(0.005), dPhiMax = cms.double(0.007), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.004), dPhiMax = cms.double(0.006), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) ), 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( 1, 2, 3, 4, 5, 6, 5, 6, 5, 6 ) ) process.CSCSegAlgoSK = cms.PSet( algo_name = cms.string('CSCSegAlgoSK'), algo_psets = cms.VPSet( cms.PSet( chi2Max = cms.double(99999.0), dPhiFineMax = cms.double(0.025), dPhiMax = cms.double(0.003), dRPhiFineMax = cms.double(8.0), dRPhiMax = cms.double(8.0), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(99999.0), dPhiFineMax = cms.double(0.025), dPhiMax = cms.double(0.025), dRPhiFineMax = cms.double(3.0), dRPhiMax = cms.double(8.0), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True), wideSeg = cms.double(3.0) ) ), 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 ) ) process.CSCSegAlgoST = 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), 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), 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 ) ) process.CSCSegAlgoTC = cms.PSet( algo_name = cms.string('CSCSegAlgoTC'), algo_psets = cms.VPSet( cms.PSet( SegmentSorting = cms.int32(1), chi2Max = cms.double(6000.0), chi2ndfProbMin = cms.double(0.0001), dPhiFineMax = cms.double(0.02), dPhiMax = cms.double(0.003), dRPhiFineMax = cms.double(6.0), dRPhiMax = cms.double(1.2), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True) ), cms.PSet( SegmentSorting = cms.int32(1), chi2Max = cms.double(6000.0), chi2ndfProbMin = cms.double(0.0001), dPhiFineMax = cms.double(0.013), dPhiMax = cms.double(0.00198), dRPhiFineMax = cms.double(3.0), dRPhiMax = cms.double(0.6), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True) ) ), 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 ) ) process.CSCTimingExtractorBlock = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ) ) process.ChargeSignificanceTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('ChargeSignificanceTrajectoryFilter'), chargeSignificance = cms.double(-1.0) ) process.CkfBaseTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.CkfElectronTrajectoryBuilder = cms.PSet( ComponentType = cms.string('CkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), estimator = cms.string('electronChi2'), intermediateCleaning = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(5), propagatorAlong = cms.string('fwdElectronPropagator'), propagatorOpposite = cms.string('bwdElectronPropagator'), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), updator = cms.string('KFUpdator') ) process.CkfTrajectoryBuilder = cms.PSet( ComponentType = cms.string('CkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), estimator = cms.string('Chi2'), intermediateCleaning = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(5), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), updator = cms.string('KFUpdator') ) process.CkfTrajectoryBuilderBeamHalo = cms.PSet( ComponentType = cms.string('CkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), estimator = cms.string('Chi2'), intermediateCleaning = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(5), propagatorAlong = cms.string('BeamHaloPropagatorAlong'), propagatorOpposite = cms.string('BeamHaloPropagatorOpposite'), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('ckfTrajectoryFilterBeamHaloMuon') ), updator = cms.string('KFUpdator') ) process.ClusterShapeTrajectoryFilter = cms.PSet( ComponentType = cms.string('ClusterShapeTrajectoryFilter'), cacheSrc = cms.InputTag("siPixelClusterShapeCache") ) process.CommonClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ) process.CommonEventContent = cms.PSet( outputCommands = cms.untracked.vstring('keep *_logErrorHarvester_*_*') ) process.CompositeTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet() ) process.CondDB = cms.PSet( DBParameters = cms.PSet( authenticationPath = cms.untracked.string(''), authenticationSystem = cms.untracked.int32(0), messageLevel = cms.untracked.int32(0), security = cms.untracked.string('') ), connect = cms.string('') ) process.CondDBTauConnection = cms.PSet( DBParameters = cms.PSet( authenticationPath = cms.untracked.string(''), authenticationSystem = cms.untracked.int32(0), messageLevel = cms.untracked.int32(0), security = cms.untracked.string('') ), connect = cms.string('frontier://FrontierProd/CMS_CONDITIONS') ) process.CosmicSeedCreator = cms.PSet( ComponentName = cms.string('CosmicSeedCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), maxseeds = cms.int32(10000), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) process.DA2D_vectParameters = cms.PSet( TkDAClusParameters = cms.PSet( Tmin = cms.double(4.0), Tpurge = cms.double(4.0), Tstop = cms.double(2.0), coolingFactor = cms.double(0.6), d0CutOff = cms.double(3.0), dtCutOff = cms.double(4.0), dzCutOff = cms.double(3.0), tmerge = cms.double(0.1), uniquetrkweight = cms.double(0.8), verbose = cms.untracked.bool(False), vertexSize = cms.double(0.006), vertexSizeTime = cms.double(0.008), zmerge = cms.double(0.01) ), algorithm = cms.string('DA2D_vect') ) process.DATAMIXEREventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep CSCDetIdCSCALCTDigiMuonDigiCollection_muonCSCDigis_MuonCSCALCTDigi_*', 'keep CSCDetIdCSCCLCTDigiMuonDigiCollection_muonCSCDigis_MuonCSCCLCTDigi_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_muonCSCDigis_MuonCSCComparatorDigi_*', 'keep CSCDetIdCSCCorrelatedLCTDigiMuonDigiCollection_csctfDigis_*_*', 'keep CSCDetIdCSCCorrelatedLCTDigiMuonDigiCollection_muonCSCDigis_MuonCSCCorrelatedLCTDigi_*', 'keep CSCDetIdCSCRPCDigiMuonDigiCollection_muonCSCDigis_MuonCSCRPCDigi_*', 'keep CSCDetIdCSCStripDigiMuonDigiCollection_muonCSCDigis_MuonCSCStripDigi_*', 'keep CSCDetIdCSCWireDigiMuonDigiCollection_muonCSCDigis_MuonCSCWireDigi_*', 'keep DTLayerIdDTDigiMuonDigiCollection_muonDTDigis_*_*', 'keep PixelDigiedmDetSetVector_siPixelDigis_*_*', 'keep SiStripDigiedmDetSetVector_siStripDigis_*_*', 'keep RPCDetIdRPCDigiMuonDigiCollection_muonRPCDigis_*_*', 'keep HBHEDataFramesSorted_hcalDigis_*_*', 'keep HFDataFramesSorted_hcalDigis_*_*', 'keep HODataFramesSorted_hcalDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_*_*', 'keep QIE11DataFrameHcalDataFrameContainer_hcalDigis_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep CastorDataFramesSorted_castorDigis_*_*', 'keep EBDigiCollection_ecalDigis_*_*', 'keep EEDigiCollection_ecalDigis_*_*', 'keep ESDigiCollection_ecalPreshowerDigis_*_*' ), splitLevel = cms.untracked.int32(0) ) process.DA_vectParameters = cms.PSet( TkDAClusParameters = cms.PSet( Tmin = cms.double(2.0), Tpurge = cms.double(2.0), Tstop = cms.double(0.5), coolingFactor = cms.double(0.6), d0CutOff = cms.double(3.0), dzCutOff = cms.double(3.0), uniquetrkweight = cms.double(0.8), vertexSize = cms.double(0.006), zmerge = cms.double(0.01) ), algorithm = cms.string('DA_vect') ) process.DF_ME1234_1 = cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(8.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(8.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(10), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.5), tanThetaMax = cms.double(1.2) ) process.DF_ME1234_2 = cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(12.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(12.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(10), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.8), tanThetaMax = cms.double(2.0) ) process.DF_ME1A = cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(8.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(8.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(30), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.5), tanThetaMax = cms.double(1.2) ) process.DQMEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep *_MEtoEDMConverter_*_*' ), splitLevel = cms.untracked.int32(0) ) process.DTLinearDriftAlgo_CosmicData = cms.PSet( recAlgo = cms.string('DTLinearDriftAlgo'), recAlgoConfig = cms.PSet( debug = cms.untracked.bool(False), driftVelocity = cms.double(0.00543), hitResolution = cms.double(0.02), maxTime = cms.double(420.0), minTime = cms.double(-3.0), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ) ) ) process.DTLinearDriftFromDBAlgo = cms.PSet( 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), 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), tTrigLabel = cms.string(''), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(True) ) ) process.DTLinearDriftFromDBAlgo_CosmicData = cms.PSet( recAlgo = cms.string('DTLinearDriftFromDBAlgo'), recAlgoConfig = cms.PSet( debug = cms.untracked.bool(False), doVdriftCorr = cms.bool(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ) ) process.DTMeantimerPatternReco2DAlgo_LinearDriftFromDB = cms.PSet( 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), 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), 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') ) process.DTMeantimerPatternReco2DAlgo_LinearDriftFromDB_CosmicData = cms.PSet( Reco2DAlgoConfig = cms.PSet( AlphaMaxPhi = cms.double(100.0), AlphaMaxTheta = cms.double(100.0), MaxAllowedHits = cms.uint32(50), MaxChi2 = cms.double(4.0), debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), intime_cut = cms.double(-1.0), 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(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ), segmCleanerMode = cms.int32(2) ), Reco2DAlgoName = cms.string('DTMeantimerPatternReco') ) process.DTMeantimerPatternReco4DAlgo_LinearDriftFromDB = cms.PSet( 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), 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), 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), 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), 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), tTrigLabel = cms.string(''), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(True) ) ), Reco4DAlgoName = cms.string('DTMeantimerPatternReco4D') ) process.DTMeantimerPatternReco4DAlgo_LinearDriftFromDB_CosmicData = cms.PSet( Reco4DAlgoConfig = cms.PSet( AllDTRecHits = cms.bool(True), Reco2DAlgoConfig = cms.PSet( AlphaMaxPhi = cms.double(100.0), AlphaMaxTheta = cms.double(100.0), MaxAllowedHits = cms.uint32(50), MaxChi2 = cms.double(4.0), debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), intime_cut = cms.double(-1.0), 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(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ), segmCleanerMode = cms.int32(2) ), Reco2DAlgoName = cms.string('DTMeantimerPatternReco'), debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), intime_cut = cms.double(-1.0), 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(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ) ), Reco4DAlgoName = cms.string('DTMeantimerPatternReco4D') ) process.DTTimingExtractorBlock = cms.PSet( DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ) ) process.DefaultAlgorithms = cms.PSet( APVInspectMode = cms.string('BaselineFollower'), APVRestoreMode = cms.string('BaselineFollower'), ApplyBaselineCleaner = cms.bool(True), ApplyBaselineRejection = cms.bool(True), CleaningSequence = cms.uint32(1), CommonModeNoiseSubtractionMode = cms.string('IteratedMedian'), CutToAvoidSignal = cms.double(2.0), DeltaCMThreshold = cms.uint32(20), Deviation = cms.uint32(25), ForceNoRestore = cms.bool(False), Fraction = cms.double(0.2), Iterations = cms.int32(3), MeanCM = cms.int32(0), PedestalSubtractionFedMode = cms.bool(False), SiStripFedZeroSuppressionMode = cms.uint32(4), TruncateInSuppressor = cms.bool(True), Use10bitsTruncation = cms.bool(False), consecThreshold = cms.uint32(5), discontinuityThreshold = cms.int32(12), distortionThreshold = cms.uint32(20), doAPVRestore = cms.bool(True), filteredBaselineDerivativeSumSquare = cms.double(30), filteredBaselineMax = cms.double(6), hitStripThreshold = cms.uint32(40), lastGradient = cms.int32(10), minStripsToFit = cms.uint32(4), nSaturatedStrip = cms.uint32(2), nSigmaNoiseDerTh = cms.uint32(4), nSmooth = cms.uint32(9), restoreThreshold = cms.double(0.5), sizeWindow = cms.int32(1), slopeX = cms.int32(3), slopeY = cms.int32(4), useCMMeanMap = cms.bool(False), useRealMeanCM = cms.bool(False), widthCluster = cms.int32(64) ) process.DefaultClusterizer = cms.PSet( Algorithm = cms.string('ThreeThresholdAlgorithm'), ChannelThreshold = cms.double(2.0), ClusterThreshold = cms.double(5.0), MaxAdjacentBad = cms.uint32(0), MaxSequentialBad = cms.uint32(1), MaxSequentialHoles = cms.uint32(0), QualityLabel = cms.string(''), RemoveApvShots = cms.bool(True), SeedThreshold = cms.double(3.0), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ) ) process.DigiToRawFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*' ) ) process.EITopPAGEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*' ) ) process.EvtScalersAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*' ) ) process.EvtScalersRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*' ) ) process.FASTPUEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep *_fastSimProducer_*_*', 'keep *_MuonSimHits_*_*', 'drop *_fastSimProducer_VertexTypes_*', 'keep *_generalTracksBeforeMixing_*_*', 'drop *_generalTracksBeforeMixing_MVAValues_*', 'drop *_generalTracksBeforeMixing_QualityMasks_*', 'keep edmHepMCProduct_generatorSmeared_*_*' ) ) process.FEVTDEBUGEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_simCscTriggerPrimitiveDigis_*_*', 'keep *_simDtTriggerPrimitiveDigis_*_*', 'keep *_simRpcTriggerDigis_*_*', 'keep *_simRctDigis_*_*', 'keep *_simCsctfDigis_*_*', 'keep *_simCsctfTrackDigis_*_*', 'keep *_simDttfDigis_*_*', 'keep *_simGctDigis_*_*', 'keep *_simCaloStage1Digis_*_*', 'keep *_simCaloStage1FinalDigis_*_*', 'keep *_simCaloStage2Layer1Digis_*_*', 'keep *_simCaloStage2Digis_*_*', 'keep *_simGmtDigis_*_*', 'keep *_simBmtfDigis_*_*', 'keep *_simOmtfDigis_*_*', 'keep *_simEmtfDigis_*_*', 'keep *_simGmtStage2Digis_*_*', 'keep *_simGtDigis_*_*', 'keep *_simGtStage2Digis_*_*', 'keep *_cscTriggerPrimitiveDigis_*_*', 'keep *_dtTriggerPrimitiveDigis_*_*', 'keep *_rpcTriggerDigis_*_*', 'keep *_rctDigis_*_*', 'keep *_csctfDigis_*_*', 'keep *_csctfTrackDigis_*_*', 'keep *_dttfDigis_*_*', 'keep *_gctDigis_*_*', 'keep *_gmtDigis_*_*', 'keep *_gtDigis_*_*', 'keep *_gtEvmDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep *_simSiPixelDigis_*_*', 'keep *_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*', 'keep *_trackingParticleRecoTrackAsssociation_*_*', 'keep *_assoc2secStepTk_*_*', 'keep *_assoc2thStepTk_*_*', 'keep *_assoc2GsfTracks_*_*', 'keep *_assocOutInConversionTracks_*_*', 'keep *_assocInOutConversionTracks_*_*', 'keep *_TTClusterAssociatorFromPixelDigis_*_*', 'keep *_TTStubAssociatorFromPixelDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonDTDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep *_simMuonGEMDigis_*_*', 'keep *_simMuonGEMPadDigis_*_*', 'keep *_simMuonGEMPadDigiClusters_*_*', 'keep *_simEcalDigis_*_*', 'keep *_simEcalPreshowerDigis_*_*', 'keep *_simEcalTriggerPrimitiveDigis_*_*', 'keep *_simEcalEBTriggerPrimitiveDigis_*_*', 'keep *_simHcalDigis_*_*', 'keep ZDCDataFramesSorted_simHcalUnsuppressedDigis_*_*', 'drop ZDCDataFramesSorted_mix_simHcalUnsuppressedDigis*_*', 'keep *_simHcalTriggerPrimitiveDigis_*_*', 'keep *_mix_HcalSamples_*', 'keep *_mixData_HcalSamples_*', 'keep *_mix_HcalHits_*', 'keep *_mixData_HcalHits_*', 'keep *_DMHcalTriggerPrimitiveDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep *_muonGEMDigis_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.FEVTDEBUGHLTEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_simCscTriggerPrimitiveDigis_*_*', 'keep *_simDtTriggerPrimitiveDigis_*_*', 'keep *_simRpcTriggerDigis_*_*', 'keep *_simRctDigis_*_*', 'keep *_simCsctfDigis_*_*', 'keep *_simCsctfTrackDigis_*_*', 'keep *_simDttfDigis_*_*', 'keep *_simGctDigis_*_*', 'keep *_simCaloStage1Digis_*_*', 'keep *_simCaloStage1FinalDigis_*_*', 'keep *_simCaloStage2Layer1Digis_*_*', 'keep *_simCaloStage2Digis_*_*', 'keep *_simGmtDigis_*_*', 'keep *_simBmtfDigis_*_*', 'keep *_simOmtfDigis_*_*', 'keep *_simEmtfDigis_*_*', 'keep *_simGmtStage2Digis_*_*', 'keep *_simGtDigis_*_*', 'keep *_simGtStage2Digis_*_*', 'keep *_cscTriggerPrimitiveDigis_*_*', 'keep *_dtTriggerPrimitiveDigis_*_*', 'keep *_rpcTriggerDigis_*_*', 'keep *_rctDigis_*_*', 'keep *_csctfDigis_*_*', 'keep *_csctfTrackDigis_*_*', 'keep *_dttfDigis_*_*', 'keep *_gctDigis_*_*', 'keep *_gmtDigis_*_*', 'keep *_gtDigis_*_*', 'keep *_gtEvmDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep *_simSiPixelDigis_*_*', 'keep *_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*', 'keep *_trackingParticleRecoTrackAsssociation_*_*', 'keep *_assoc2secStepTk_*_*', 'keep *_assoc2thStepTk_*_*', 'keep *_assoc2GsfTracks_*_*', 'keep *_assocOutInConversionTracks_*_*', 'keep *_assocInOutConversionTracks_*_*', 'keep *_TTClusterAssociatorFromPixelDigis_*_*', 'keep *_TTStubAssociatorFromPixelDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonDTDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep *_simMuonGEMDigis_*_*', 'keep *_simMuonGEMPadDigis_*_*', 'keep *_simMuonGEMPadDigiClusters_*_*', 'keep *_simEcalDigis_*_*', 'keep *_simEcalPreshowerDigis_*_*', 'keep *_simEcalTriggerPrimitiveDigis_*_*', 'keep *_simEcalEBTriggerPrimitiveDigis_*_*', 'keep *_simHcalDigis_*_*', 'keep ZDCDataFramesSorted_simHcalUnsuppressedDigis_*_*', 'drop ZDCDataFramesSorted_mix_simHcalUnsuppressedDigis*_*', 'keep *_simHcalTriggerPrimitiveDigis_*_*', 'keep *_mix_HcalSamples_*', 'keep *_mixData_HcalSamples_*', 'keep *_mix_HcalHits_*', 'keep *_mixData_HcalHits_*', 'keep *_DMHcalTriggerPrimitiveDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_*_MergedTrackTruth_*', 'keep *_*_StripDigiSimLink_*', 'keep *_*_PixelDigiSimLink_*', 'keep *_muonGEMDigis_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.FEVTEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep *_muonGEMDigis_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.FEVTHLTALLEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep *_*_*_HLT' ) ), splitLevel = cms.untracked.int32(0) ) process.FEVTSIMEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.GENRAWEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep recoGenMETs_*_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_logErrorHarvester_*_*' ), splitLevel = cms.untracked.int32(0) ) process.GeneratorInterfaceAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*' ) ) process.GeneratorInterfaceLHE = cms.PSet( outputCommands = cms.untracked.vstring( 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep *_externalLHEProducer_LHEScriptOutput_*' ) ) process.GeneratorInterfaceRAW = cms.PSet( outputCommands = cms.untracked.vstring( 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*' ) ) process.GeneratorInterfaceRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*' ) ) process.GlobalMuonRefitter = cms.PSet( CSCRecSegmentLabel = cms.InputTag("csc2DRecHits"), Chi2CutCSC = cms.double(1.0), Chi2CutDT = cms.double(30.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt1DRecHits"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(10, 10), DYTupdator = cms.bool(True), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), TrackerSkipSection = cms.int32(-1), TrackerSkipSystem = cms.int32(-1) ) process.GlobalMuonTrackMatcher = cms.PSet( 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(2.5), 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(20.0), MinP = cms.double(2.5), MinPt = cms.double(1.0), Propagator = cms.string('SteppingHelixPropagatorAny'), 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) ) ) process.GlobalTrajectoryBuilderCommon = cms.PSet( GlbRefitterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), Chi2CutCSC = cms.double(150.0), Chi2CutDT = cms.double(10.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(20, 30), DYTupdator = cms.bool(False), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('GlbMuKFFitter'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), 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(2.5), 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(20.0), MinP = cms.double(2.5), MinPt = cms.double(1.0), Propagator = cms.string('SteppingHelixPropagatorAny'), 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('MuonRecHitBuilder'), MuonTrackingRegionBuilder = 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(""), 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("offlineBeamSpot"), input = cms.InputTag(""), maxRegions = cms.int32(1), precise = cms.bool(True), vertexCollection = cms.InputTag("") ), 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('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), TrackerPropagator = cms.string('SteppingHelixPropagatorAny'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ) process.GroupedCkfTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('Chi2'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), 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'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.GroupedCkfTrajectoryBuilderP5 = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('Chi2MeasurementEstimatorForP5'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), intermediateCleaning = cms.bool(True), keepOriginalIfRebuildFails = cms.bool(False), lockHits = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(1), minNrOfHitsForRebuild = cms.int32(5), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('ckfBaseTrajectoryFilterP5') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.HFRecalParameterBlock = cms.PSet( HFdepthOneParameterA = cms.vdouble( 0.004123, 0.00602, 0.008201, 0.010489, 0.013379, 0.016997, 0.021464, 0.027371, 0.034195, 0.044807, 0.058939, 0.125497 ), HFdepthOneParameterB = cms.vdouble( -4e-06, -2e-06, 0.0, 4e-06, 1.5e-05, 2.6e-05, 6.3e-05, 8.4e-05, 0.00016, 0.000107, 0.000425, 0.000209 ), HFdepthTwoParameterA = cms.vdouble( 0.002861, 0.004168, 0.0064, 0.008388, 0.011601, 0.014425, 0.018633, 0.023232, 0.028274, 0.035447, 0.051579, 0.086593 ), HFdepthTwoParameterB = cms.vdouble( -2e-06, -0.0, -7e-06, -6e-06, -2e-06, 1e-06, 1.9e-05, 3.1e-05, 6.7e-05, 1.2e-05, 0.000157, -3e-06 ) ) process.HGCAL_chargeCollectionEfficiencies = cms.PSet( values = cms.vdouble(1.0, 1.0, 1.0) ) process.HGCAL_noise_MIP = cms.PSet( value = cms.double(0.142857142857) ) process.HGCAL_noise_fC = cms.PSet( values = cms.vdouble(0.336430626, 0.336430626, 0.256328096) ) process.HGCAL_noises = cms.PSet( values = cms.vdouble(2100.0, 2100.0, 1600.0) ) process.HLTDEBUGEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'keep *_logErrorHarvester_*_*', 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.HLTDebugFEVT = cms.PSet( outputCommands = cms.vstring( ( 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ) ) process.HLTDebugRAW = cms.PSet( outputCommands = cms.vstring( ( 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ) ) process.HLTScouting = cms.PSet( outputCommands = cms.vstring( 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ) process.HLTriggerAOD = cms.PSet( outputCommands = cms.vstring( 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ) process.HLTriggerRAW = cms.PSet( outputCommands = cms.vstring( 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ) process.HLTriggerRECO = cms.PSet( outputCommands = cms.vstring( 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ) process.HiLowPtTrackingRegionWithVertexBlock = cms.PSet( VertexCollection = cms.InputTag("hiSelectedPixelVertex"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), nSigmaZ = cms.double(3.0), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.25), sigmaZVertex = cms.double(3.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) process.HiTrackingRegionFactoryFromJetsBlock = cms.PSet( ComponentName = cms.string('TauRegionalPixelSeedGenerator'), RegionPSet = cms.PSet( JetSrc = cms.InputTag("iterativeConePu5CaloJets"), deltaEtaRegion = cms.double(0.1), deltaPhiRegion = cms.double(0.1), howToUseMeasurementTracker = cms.string('ForSiStrips'), measurementTrackerName = cms.InputTag("MeasurementTrackerEvent"), originHalfLength = cms.double(0.2), originRadius = cms.double(0.2), originZPos = cms.double(0.0), precise = cms.bool(True), ptMin = cms.double(5.0), vertexSrc = cms.InputTag("hiSelectedPixelVertex") ) ) process.HiTrackingRegionForPrimaryVertexBlock = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), directionXCoord = cms.double(1.0), directionYCoord = cms.double(1.0), directionZCoord = cms.double(0.0), doVariablePtMin = cms.bool(True), nSigmaZ = cms.double(3.0), originRadius = cms.double(0.1), precise = cms.bool(True), ptMin = cms.double(0.7), siPixelRecHits = cms.InputTag("siPixelRecHits"), useFakeVertices = cms.bool(False), useMultipleScattering = cms.bool(False) ) process.IOMCRAW = cms.PSet( outputCommands = cms.untracked.vstring('keep *_randomEngineStateProducer_*_*') ) process.JPTZSPCorrectorAntiKt4 = cms.PSet( DzVertexCut = cms.double(0.2), EfficiencyMap = cms.string('CondFormats/JetMETObjects/data/CMSSW_538_TrackNonEff.txt'), ElectronIds = cms.InputTag("JPTeidTight"), Electrons = cms.InputTag("gedGsfElectrons"), JetSplitMerge = cms.int32(0), JetTracksAssociationAtCaloFace = cms.InputTag("ak4JetTracksAssociatorAtCaloFace"), JetTracksAssociationAtVertex = cms.InputTag("ak4JetTracksAssociatorAtVertexJPT"), LeakageMap = cms.string('CondFormats/JetMETObjects/data/CMSSW_538_TrackLeakage.txt'), MaxJetEta = cms.double(3.0), Muons = cms.InputTag("muons"), PtErrorQuality = cms.double(0.05), ResponseMap = cms.string('CondFormats/JetMETObjects/data/CMSSW_538_response.txt'), TrackQuality = cms.string('highPurity'), UseEfficiency = cms.bool(True), UseElectrons = cms.bool(True), UseInConeTracks = cms.bool(True), UseMuons = cms.bool(True), UseOutOfConeTracks = cms.bool(True), UseOutOfVertexTracks = cms.bool(True), UsePions = cms.bool(True), UseResponseInVecCorr = cms.bool(False), UseTrackQuality = cms.bool(True), VectorialCorrection = cms.bool(True), Verbose = cms.bool(True) ) process.JetIDParams = cms.PSet( ebRecHitsColl = cms.InputTag("ecalRecHit","EcalRecHitsEB"), eeRecHitsColl = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hbheRecHitsColl = cms.InputTag("hbhereco"), hfRecHitsColl = cms.InputTag("hfreco"), hoRecHitsColl = cms.InputTag("horeco"), rpcRecHits = cms.InputTag("rpcRecHits"), useRecHits = cms.bool(True) ) process.L1TriggerAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*' ) ) process.L1TriggerFEVTDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_simCscTriggerPrimitiveDigis_*_*', 'keep *_simDtTriggerPrimitiveDigis_*_*', 'keep *_simRpcTriggerDigis_*_*', 'keep *_simRctDigis_*_*', 'keep *_simCsctfDigis_*_*', 'keep *_simCsctfTrackDigis_*_*', 'keep *_simDttfDigis_*_*', 'keep *_simGctDigis_*_*', 'keep *_simCaloStage1Digis_*_*', 'keep *_simCaloStage1FinalDigis_*_*', 'keep *_simCaloStage2Layer1Digis_*_*', 'keep *_simCaloStage2Digis_*_*', 'keep *_simGmtDigis_*_*', 'keep *_simBmtfDigis_*_*', 'keep *_simOmtfDigis_*_*', 'keep *_simEmtfDigis_*_*', 'keep *_simGmtStage2Digis_*_*', 'keep *_simGtDigis_*_*', 'keep *_simGtStage2Digis_*_*', 'keep *_cscTriggerPrimitiveDigis_*_*', 'keep *_dtTriggerPrimitiveDigis_*_*', 'keep *_rpcTriggerDigis_*_*', 'keep *_rctDigis_*_*', 'keep *_csctfDigis_*_*', 'keep *_csctfTrackDigis_*_*', 'keep *_dttfDigis_*_*', 'keep *_gctDigis_*_*', 'keep *_gmtDigis_*_*', 'keep *_gtDigis_*_*', 'keep *_gtEvmDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*' ) ) process.L1TriggerRAW = cms.PSet( outputCommands = cms.untracked.vstring( 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*' ) ) process.L1TriggerRAWDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*' ) ) process.L1TriggerRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*' ) ) process.LHEEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep *_externalLHEProducer_LHEScriptOutput_*' ), splitLevel = cms.untracked.int32(0) ) process.ME0SegAlgoRU = cms.PSet( algo_name = cms.string('ME0SegAlgoRU'), algo_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), maxPhiAdditional = cms.double(0.001096605744), maxPhiSeeds = cms.double(0.001096605744), maxTOFDiff = cms.double(25), minNumberOfHits = cms.uint32(4), requireCentralBX = cms.bool(True) ) ) process.ME0SegmentAlgorithm = cms.PSet( algo_name = cms.string('ME0SegmentAlgorithm'), algo_pset = cms.PSet( ME0Debug = cms.untracked.bool(True), dEtaChainBoxMax = cms.double(0.05), dPhiChainBoxMax = cms.double(0.02), dTimeChainBoxMax = cms.double(15.0), dXclusBoxMax = cms.double(1.0), dYclusBoxMax = cms.double(5.0), maxRecHitsInCluster = cms.int32(6), minHitsPerSegment = cms.uint32(3), preClustering = cms.bool(True), preClusteringUseChaining = cms.bool(True) ) ) process.MEtoEDMConverterAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.MEtoEDMConverterFEVT = cms.PSet( outputCommands = cms.untracked.vstring('keep *_MEtoEDMConverter_*_*') ) process.MEtoEDMConverterRECO = cms.PSet( outputCommands = cms.untracked.vstring() ) process.MINIAODEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(-900), outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'keep *_slimmedPhotons_*_*', 'keep *_slimmedOOTPhotons_*_*', 'keep *_slimmedElectrons_*_*', 'keep *_slimmedMuons_*_*', 'keep *_slimmedTaus_*_*', 'keep *_slimmedTausBoosted_*_*', 'keep *_slimmedCaloJets_*_*', 'keep *_slimmedJets_*_*', 'drop recoBaseTagInfosOwned_slimmedJets_*_*', 'keep *_slimmedJetsAK8_*_*', 'drop recoBaseTagInfosOwned_slimmedJetsAK8_*_*', 'keep *_slimmedJetsPuppi_*_*', 'keep *_slimmedMETs_*_*', 'keep *_slimmedMETsNoHF_*_*', 'keep *_slimmedMETsPuppi_*_*', 'keep *_slimmedSecondaryVertices_*_*', 'keep *_slimmedLambdaVertices_*_*', 'keep *_slimmedKshortVertices_*_*', 'keep *_slimmedJetsAK8PFPuppiSoftDropPacked_SubJets_*', 'keep recoPhotonCores_reducedEgamma_*_*', 'keep recoGsfElectronCores_reducedEgamma_*_*', 'keep recoConversions_reducedEgamma_*_*', 'keep recoSuperClusters_reducedEgamma_*_*', 'keep recoCaloClusters_reducedEgamma_*_*', 'keep EcalRecHitsSorted_reducedEgamma_*_*', 'keep recoGsfTracks_reducedEgamma_*_*', 'keep HBHERecHitsSorted_reducedEgamma_*_*', 'drop *_*_caloTowers_*', 'drop *_*_pfCandidates_*', 'drop *_*_genJets_*', 'keep *_offlineBeamSpot_*_*', 'keep *_offlineSlimmedPrimaryVertices_*_*', 'keep patPackedCandidates_packedPFCandidates_*_*', 'keep *_isolatedTracks_*_*', 'keep *_oniaPhotonCandidates_*_*', 'keep *_bunchSpacingProducer_*_*', 'keep double_fixedGridRhoAll__*', 'keep double_fixedGridRhoFastjetAll__*', 'keep double_fixedGridRhoFastjetAllCalo__*', 'keep double_fixedGridRhoFastjetCentral_*_*', 'keep double_fixedGridRhoFastjetCentralCalo__*', 'keep double_fixedGridRhoFastjetCentralChargedPileUp__*', 'keep double_fixedGridRhoFastjetCentralNeutral__*', 'keep *_slimmedPatTrigger_*_*', 'keep patPackedTriggerPrescales_patTrigger__*', 'keep patPackedTriggerPrescales_patTrigger_l1max_*', 'keep patPackedTriggerPrescales_patTrigger_l1min_*', 'keep *_l1extraParticles_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_gtStage2Digis__*', 'keep *_gmtStage2Digis_Muon_*', 'keep *_caloStage2Digis_Jet_*', 'keep *_caloStage2Digis_Tau_*', 'keep *_caloStage2Digis_EGamma_*', 'keep *_caloStage2Digis_EtSum_*', 'keep *_TriggerResults_*_HLT', 'keep *_TriggerResults_*_*', 'keep patPackedCandidates_lostTracks_*_*', 'keep HcalNoiseSummary_hcalnoise__*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep recoTracks_displacedStandAloneMuons__*' ) ) process.MINIAODSIMEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(-900), outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'keep *_slimmedPhotons_*_*', 'keep *_slimmedOOTPhotons_*_*', 'keep *_slimmedElectrons_*_*', 'keep *_slimmedMuons_*_*', 'keep *_slimmedTaus_*_*', 'keep *_slimmedTausBoosted_*_*', 'keep *_slimmedCaloJets_*_*', 'keep *_slimmedJets_*_*', 'drop recoBaseTagInfosOwned_slimmedJets_*_*', 'keep *_slimmedJetsAK8_*_*', 'drop recoBaseTagInfosOwned_slimmedJetsAK8_*_*', 'keep *_slimmedJetsPuppi_*_*', 'keep *_slimmedMETs_*_*', 'keep *_slimmedMETsNoHF_*_*', 'keep *_slimmedMETsPuppi_*_*', 'keep *_slimmedSecondaryVertices_*_*', 'keep *_slimmedLambdaVertices_*_*', 'keep *_slimmedKshortVertices_*_*', 'keep *_slimmedJetsAK8PFPuppiSoftDropPacked_SubJets_*', 'keep recoPhotonCores_reducedEgamma_*_*', 'keep recoGsfElectronCores_reducedEgamma_*_*', 'keep recoConversions_reducedEgamma_*_*', 'keep recoSuperClusters_reducedEgamma_*_*', 'keep recoCaloClusters_reducedEgamma_*_*', 'keep EcalRecHitsSorted_reducedEgamma_*_*', 'keep recoGsfTracks_reducedEgamma_*_*', 'keep HBHERecHitsSorted_reducedEgamma_*_*', 'drop *_*_caloTowers_*', 'drop *_*_pfCandidates_*', 'drop *_*_genJets_*', 'keep *_offlineBeamSpot_*_*', 'keep *_offlineSlimmedPrimaryVertices_*_*', 'keep patPackedCandidates_packedPFCandidates_*_*', 'keep *_isolatedTracks_*_*', 'keep *_oniaPhotonCandidates_*_*', 'keep *_bunchSpacingProducer_*_*', 'keep double_fixedGridRhoAll__*', 'keep double_fixedGridRhoFastjetAll__*', 'keep double_fixedGridRhoFastjetAllCalo__*', 'keep double_fixedGridRhoFastjetCentral_*_*', 'keep double_fixedGridRhoFastjetCentralCalo__*', 'keep double_fixedGridRhoFastjetCentralChargedPileUp__*', 'keep double_fixedGridRhoFastjetCentralNeutral__*', 'keep *_slimmedPatTrigger_*_*', 'keep patPackedTriggerPrescales_patTrigger__*', 'keep patPackedTriggerPrescales_patTrigger_l1max_*', 'keep patPackedTriggerPrescales_patTrigger_l1min_*', 'keep *_l1extraParticles_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_gtStage2Digis__*', 'keep *_gmtStage2Digis_Muon_*', 'keep *_caloStage2Digis_Jet_*', 'keep *_caloStage2Digis_Tau_*', 'keep *_caloStage2Digis_EGamma_*', 'keep *_caloStage2Digis_EtSum_*', 'keep *_TriggerResults_*_HLT', 'keep *_TriggerResults_*_*', 'keep patPackedCandidates_lostTracks_*_*', 'keep HcalNoiseSummary_hcalnoise__*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep patPackedGenParticles_packedGenParticles_*_*', 'keep recoGenParticles_prunedGenParticles_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenFilterInfo_*_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_*_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep recoGenParticles_genPUProtons_*_*', 'keep *_slimmedGenJetsFlavourInfos_*_*', 'keep *_slimmedGenJets__*', 'keep *_slimmedGenJetsAK8__*', 'keep *_slimmedGenJetsAK8SoftDropSubJets__*', 'keep *_genMetTrue_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep GenRunInfoProduct_*_*_*', 'keep *_genParticles_xyz0_*', 'keep *_genParticles_t0_*', 'keep PileupSummaryInfos_slimmedAddPileupInfo_*_*', 'keep L1GtTriggerMenuLite_l1GtTriggerMenuLite__*' ) ) process.MINIGENEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(15728640), outputCommands = cms.untracked.vstring( 'drop *', 'keep patPackedGenParticles_packedGenParticles_*_*', 'keep recoGenParticles_prunedGenParticles_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenFilterInfo_*_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_*_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep recoGenParticles_genPUProtons_*_*', 'keep *_slimmedGenJetsFlavourInfos_*_*', 'keep *_slimmedGenJets__*', 'keep *_slimmedGenJetsAK8__*', 'keep *_slimmedGenJetsAK8SoftDropSubJets__*', 'keep *_genMetTrue_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep GenRunInfoProduct_*_*_*', 'keep *_genParticles_xyz0_*', 'keep *_genParticles_t0_*' ) ) process.MIXINGMODULEEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep *_cfWriter_*_*' ), splitLevel = cms.untracked.int32(0) ) process.MIdIsoExtractorPSetBlock = cms.PSet( CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ), ecalDepositName = cms.string('ecal'), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), jetDepositName = cms.string('jets'), trackDepositName = cms.string('tracker') ) process.MIsoCaloExtractorByAssociatorHitsBlock = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold_E = cms.double(0.025), Threshold_H = cms.double(0.1), Threshold_HO = cms.double(0.1), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(False), useEcal = cms.bool(True), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ), UseRecHitsFlag = cms.bool(True) ) process.MIsoCaloExtractorByAssociatorTowersBlock = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ), UseRecHitsFlag = cms.bool(False) ) process.MIsoCaloExtractorEcalBlock = cms.PSet( CaloTowerCollectionLabel = cms.InputTag("towerMaker"), 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(0.0) ) process.MIsoCaloExtractorHLTBlock = cms.PSet( CaloTowerCollectionLabel = cms.InputTag("towerMaker"), 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(1.5), Weight_H = cms.double(1.0) ) process.MIsoCaloExtractorHcalBlock = cms.PSet( CaloTowerCollectionLabel = cms.InputTag("towerMaker"), 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(0.0), Weight_H = cms.double(1.0) ) process.MIsoDepositGlobalIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('TrackCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("globalMuons") ) process.MIsoDepositGlobalMultiIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('TrackCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("globalMuons") ) process.MIsoDepositParamGlobalIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) process.MIsoDepositParamGlobalMultiIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) process.MIsoDepositParamGlobalViewIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) process.MIsoDepositParamGlobalViewMultiIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) process.MIsoDepositViewIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("muons1stStep") ) process.MIsoDepositViewMultiIOBlock = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("muons1stStep") ) process.MIsoJetExtractorBlock = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ) process.MIsoTrackAssociatorDefault = cms.PSet( TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ) process.MIsoTrackAssociatorHits = cms.PSet( TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(False), useEcal = cms.bool(True), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ) process.MIsoTrackAssociatorJets = cms.PSet( TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ) process.MIsoTrackAssociatorTowers = cms.PSet( TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ) process.MIsoTrackExtractorBlock = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ) process.MIsoTrackExtractorCtfBlock = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ) process.MIsoTrackExtractorGsBlock = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("ctfGSWithMaterialTracks") ) process.MaxCCCLostHitsTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('MaxCCCLostHitsTrajectoryFilter'), maxCCCLostHits = cms.int32(3), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutLoose') ) ) process.MaxConsecLostHitsTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('MaxConsecLostHitsTrajectoryFilter'), maxConsecLostHits = cms.int32(1) ) process.MaxHitsTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('MaxHitsTrajectoryFilter'), maxNumberOfHits = cms.int32(100) ) process.MaxLostHitsTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('MaxLostHitsTrajectoryFilter'), maxLostHits = cms.int32(2) ) process.MicroEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep *_slimmedPhotons_*_*', 'keep *_slimmedOOTPhotons_*_*', 'keep *_slimmedElectrons_*_*', 'keep *_slimmedMuons_*_*', 'keep *_slimmedTaus_*_*', 'keep *_slimmedTausBoosted_*_*', 'keep *_slimmedCaloJets_*_*', 'keep *_slimmedJets_*_*', 'drop recoBaseTagInfosOwned_slimmedJets_*_*', 'keep *_slimmedJetsAK8_*_*', 'drop recoBaseTagInfosOwned_slimmedJetsAK8_*_*', 'keep *_slimmedJetsPuppi_*_*', 'keep *_slimmedMETs_*_*', 'keep *_slimmedMETsNoHF_*_*', 'keep *_slimmedMETsPuppi_*_*', 'keep *_slimmedSecondaryVertices_*_*', 'keep *_slimmedLambdaVertices_*_*', 'keep *_slimmedKshortVertices_*_*', 'keep *_slimmedJetsAK8PFPuppiSoftDropPacked_SubJets_*', 'keep recoPhotonCores_reducedEgamma_*_*', 'keep recoGsfElectronCores_reducedEgamma_*_*', 'keep recoConversions_reducedEgamma_*_*', 'keep recoSuperClusters_reducedEgamma_*_*', 'keep recoCaloClusters_reducedEgamma_*_*', 'keep EcalRecHitsSorted_reducedEgamma_*_*', 'keep recoGsfTracks_reducedEgamma_*_*', 'keep HBHERecHitsSorted_reducedEgamma_*_*', 'drop *_*_caloTowers_*', 'drop *_*_pfCandidates_*', 'drop *_*_genJets_*', 'keep *_offlineBeamSpot_*_*', 'keep *_offlineSlimmedPrimaryVertices_*_*', 'keep patPackedCandidates_packedPFCandidates_*_*', 'keep *_isolatedTracks_*_*', 'keep *_oniaPhotonCandidates_*_*', 'keep *_bunchSpacingProducer_*_*', 'keep double_fixedGridRhoAll__*', 'keep double_fixedGridRhoFastjetAll__*', 'keep double_fixedGridRhoFastjetAllCalo__*', 'keep double_fixedGridRhoFastjetCentral_*_*', 'keep double_fixedGridRhoFastjetCentralCalo__*', 'keep double_fixedGridRhoFastjetCentralChargedPileUp__*', 'keep double_fixedGridRhoFastjetCentralNeutral__*', 'keep *_slimmedPatTrigger_*_*', 'keep patPackedTriggerPrescales_patTrigger__*', 'keep patPackedTriggerPrescales_patTrigger_l1max_*', 'keep patPackedTriggerPrescales_patTrigger_l1min_*', 'keep *_l1extraParticles_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_gtStage2Digis__*', 'keep *_gmtStage2Digis_Muon_*', 'keep *_caloStage2Digis_Jet_*', 'keep *_caloStage2Digis_Tau_*', 'keep *_caloStage2Digis_EGamma_*', 'keep *_caloStage2Digis_EtSum_*', 'keep *_TriggerResults_*_HLT', 'keep *_TriggerResults_*_*', 'keep patPackedCandidates_lostTracks_*_*', 'keep HcalNoiseSummary_hcalnoise__*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep recoTracks_displacedStandAloneMuons__*' ) ) process.MicroEventContentGEN = cms.PSet( outputCommands = cms.untracked.vstring( 'keep patPackedGenParticles_packedGenParticles_*_*', 'keep recoGenParticles_prunedGenParticles_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenFilterInfo_*_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_*_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep recoGenParticles_genPUProtons_*_*', 'keep *_slimmedGenJetsFlavourInfos_*_*', 'keep *_slimmedGenJets__*', 'keep *_slimmedGenJetsAK8__*', 'keep *_slimmedGenJetsAK8SoftDropSubJets__*', 'keep *_genMetTrue_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep GenRunInfoProduct_*_*_*', 'keep *_genParticles_xyz0_*', 'keep *_genParticles_t0_*' ) ) process.MicroEventContentMC = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep *_slimmedPhotons_*_*', 'keep *_slimmedOOTPhotons_*_*', 'keep *_slimmedElectrons_*_*', 'keep *_slimmedMuons_*_*', 'keep *_slimmedTaus_*_*', 'keep *_slimmedTausBoosted_*_*', 'keep *_slimmedCaloJets_*_*', 'keep *_slimmedJets_*_*', 'drop recoBaseTagInfosOwned_slimmedJets_*_*', 'keep *_slimmedJetsAK8_*_*', 'drop recoBaseTagInfosOwned_slimmedJetsAK8_*_*', 'keep *_slimmedJetsPuppi_*_*', 'keep *_slimmedMETs_*_*', 'keep *_slimmedMETsNoHF_*_*', 'keep *_slimmedMETsPuppi_*_*', 'keep *_slimmedSecondaryVertices_*_*', 'keep *_slimmedLambdaVertices_*_*', 'keep *_slimmedKshortVertices_*_*', 'keep *_slimmedJetsAK8PFPuppiSoftDropPacked_SubJets_*', 'keep recoPhotonCores_reducedEgamma_*_*', 'keep recoGsfElectronCores_reducedEgamma_*_*', 'keep recoConversions_reducedEgamma_*_*', 'keep recoSuperClusters_reducedEgamma_*_*', 'keep recoCaloClusters_reducedEgamma_*_*', 'keep EcalRecHitsSorted_reducedEgamma_*_*', 'keep recoGsfTracks_reducedEgamma_*_*', 'keep HBHERecHitsSorted_reducedEgamma_*_*', 'drop *_*_caloTowers_*', 'drop *_*_pfCandidates_*', 'drop *_*_genJets_*', 'keep *_offlineBeamSpot_*_*', 'keep *_offlineSlimmedPrimaryVertices_*_*', 'keep patPackedCandidates_packedPFCandidates_*_*', 'keep *_isolatedTracks_*_*', 'keep *_oniaPhotonCandidates_*_*', 'keep *_bunchSpacingProducer_*_*', 'keep double_fixedGridRhoAll__*', 'keep double_fixedGridRhoFastjetAll__*', 'keep double_fixedGridRhoFastjetAllCalo__*', 'keep double_fixedGridRhoFastjetCentral_*_*', 'keep double_fixedGridRhoFastjetCentralCalo__*', 'keep double_fixedGridRhoFastjetCentralChargedPileUp__*', 'keep double_fixedGridRhoFastjetCentralNeutral__*', 'keep *_slimmedPatTrigger_*_*', 'keep patPackedTriggerPrescales_patTrigger__*', 'keep patPackedTriggerPrescales_patTrigger_l1max_*', 'keep patPackedTriggerPrescales_patTrigger_l1min_*', 'keep *_l1extraParticles_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_gtStage2Digis__*', 'keep *_gmtStage2Digis_Muon_*', 'keep *_caloStage2Digis_Jet_*', 'keep *_caloStage2Digis_Tau_*', 'keep *_caloStage2Digis_EGamma_*', 'keep *_caloStage2Digis_EtSum_*', 'keep *_TriggerResults_*_HLT', 'keep *_TriggerResults_*_*', 'keep patPackedCandidates_lostTracks_*_*', 'keep HcalNoiseSummary_hcalnoise__*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep patPackedGenParticles_packedGenParticles_*_*', 'keep recoGenParticles_prunedGenParticles_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenFilterInfo_*_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_*_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep recoGenParticles_genPUProtons_*_*', 'keep *_slimmedGenJetsFlavourInfos_*_*', 'keep *_slimmedGenJets__*', 'keep *_slimmedGenJetsAK8__*', 'keep *_slimmedGenJetsAK8SoftDropSubJets__*', 'keep *_genMetTrue_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep GenRunInfoProduct_*_*_*', 'keep *_genParticles_xyz0_*', 'keep *_genParticles_t0_*', 'keep PileupSummaryInfos_slimmedAddPileupInfo_*_*', 'keep L1GtTriggerMenuLite_l1GtTriggerMenuLite__*' ) ) process.MinHitsTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('MinHitsTrajectoryFilter'), minimumNumberOfHits = cms.int32(5) ) process.MinPtTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('MinPtTrajectoryFilter'), minHitsMinPt = cms.int32(3), minPt = cms.double(1.0), nSigmaMinPt = cms.double(5.0) ) process.MuonCaloCompatibilityBlock = cms.PSet( 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) ) ) process.MuonCosmicCompatibilityParameters = cms.PSet( CosmicCompFillerParameters = cms.PSet( InputCosmicMuonCollection = cms.InputTag("muonsFromCosmics1Leg"), InputMuonCollections = cms.VInputTag(cms.InputTag("globalMuons"), cms.InputTag("muons1stStep")), InputTrackCollections = cms.VInputTag(cms.InputTag("generalTracks"), cms.InputTag("cosmicsVetoTracks")), InputVertexCollection = cms.InputTag("offlinePrimaryVertices"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), angleCut = cms.double(0.1), corrTimeNeg = cms.double(-10), corrTimePos = cms.double(5), deltaPt = cms.double(0.1), hIpTrdxy = cms.double(0.02), hIpTrvProb = cms.double(0.5), ipCut = cms.double(0.02), largedxy = cms.double(2.0), largedxyMult = cms.double(3.0), maxdxyLoose = cms.double(0.01), maxdxyLooseMult = cms.double(0.01), maxdxyTight = cms.double(1.0), maxdxyTightMult = cms.double(1.0), maxdzLoose = cms.double(0.1), maxdzLooseMult = cms.double(0.1), maxdzTight = cms.double(10.0), maxdzTightMult = cms.double(10.0), maxvertRho = cms.double(5), maxvertZ = cms.double(20), minvProb = cms.double(0.001), nChamberMatches = cms.int32(1), nTrackThreshold = cms.int32(3), offTimeNegLoose = cms.double(-15.0), offTimeNegLooseMult = cms.double(-15.0), offTimeNegTight = cms.double(-20.0), offTimeNegTightMult = cms.double(-20.0), offTimePosLoose = cms.double(15.0), offTimePosLooseMult = cms.double(15.0), offTimePosTight = cms.double(25.0), offTimePosTightMult = cms.double(25.0), segmentComp = cms.double(0.4), sharedFrac = cms.double(0.75), sharedHits = cms.int32(5) ) ) process.MuonSegmentMatcher = cms.PSet( MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ) ) process.MuonServiceProxy = cms.PSet( ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ) ) process.MuonShowerParameters = cms.PSet( MuonShowerInformationFillerParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("csc2DRecHits"), CSCSegmentLabel = cms.InputTag("cscSegments"), DT4DRecSegmentLabel = cms.InputTag("dt4DSegments"), DTRecSegmentLabel = cms.InputTag("dt1DRecHits"), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackerRecHitBuilder = cms.string('WithTrackAngle') ) ) process.MuonTrackLoaderForCosmic = cms.PSet( TrackLoaderParameters = cms.PSet( AllowNoVertex = cms.untracked.bool(True), DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorAny') ), PutTrajectoryIntoEvent = cms.untracked.bool(False), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.MuonTrackLoaderForGLB = cms.PSet( TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(True), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.MuonTrackLoaderForL2 = cms.PSet( TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(True), beamSpot = cms.InputTag("hltOfflineBeamSpot") ) ) process.MuonTrackLoaderForL3 = cms.PSet( 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('SteppingHelixPropagatorOpposite') ), PutTkTrackIntoEvent = cms.untracked.bool(True), SmoothTkTrack = cms.untracked.bool(False), Smoother = cms.string('KFSmootherForMuonTrackLoaderL3'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("hltOfflineBeamSpot") ) ) process.MuonTrackLoaderForSTA = cms.PSet( TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(True), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.MuonTrackingRegionCommon = cms.PSet( MuonTrackingRegionBuilder = 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(""), 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("offlineBeamSpot"), input = cms.InputTag(""), maxRegions = cms.int32(1), precise = cms.bool(True), vertexCollection = cms.InputTag("") ) ) process.MuonUpdatorAtVertex = cms.PSet( MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ) ) process.MuonUpdatorAtVertexAnyDirection = cms.PSet( MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorAny') ) ) process.NANOAODEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(9), outputCommands = cms.untracked.vstring( 'drop *', 'keep nanoaodFlatTable_*Table_*_*', 'keep edmTriggerResults_*_*_*', 'keep nanoaodMergeableCounterTable_*Table_*_*', 'keep nanoaodUniqueString_nanoMetadata_*_*' ) ) process.NANOAODSIMEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(9), outputCommands = cms.untracked.vstring( 'drop *', 'keep nanoaodFlatTable_*Table_*_*', 'keep edmTriggerResults_*_*_*', 'keep nanoaodMergeableCounterTable_*Table_*_*', 'keep nanoaodUniqueString_nanoMetadata_*_*' ) ) process.NanoAODEDMEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep nanoaodFlatTable_*Table_*_*', 'keep edmTriggerResults_*_*_*', 'keep nanoaodMergeableCounterTable_*Table_*_*', 'keep nanoaodUniqueString_nanoMetadata_*_*' ) ) process.OnlineMetaDataContent = cms.PSet( outputCommands = cms.untracked.vstring( 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*' ) ) process.PFJetParameters = cms.PSet( Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), minSeed = cms.uint32(14327), src = cms.InputTag("particleFlow"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.PFRecoTauPFJetInputs = cms.PSet( inputJetCollection = cms.InputTag("ak4PFJets"), isolationConeSize = cms.double(0.5), jetConeSize = cms.double(0.5), maxJetAbsEta = cms.double(2.5), minJetPt = cms.double(14.0) ) process.PFTauQualityCuts = 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ) process.PREMIXEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_simSiPixelDigis_*_*', 'keep *_simSiStripDigis_ZeroSuppressed_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'keep *_mix_AffectedAPVList_*', 'keep EBDigiCollection_simEcalDigis_*_*', 'keep EEDigiCollection_simEcalDigis_*_*', 'keep ESDigiCollection_simEcalUnsuppressedDigis_*_*', 'keep *_simHcalDigis_*_*', 'keep *_simMuonDTDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonCscTriggerPrimitiveDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep *_simMuonGEMDigis_*_*', 'keep *_*_GEMDigiSimLink_*', 'keep *_*_GEMStripDigiSimLink_*' ), splitLevel = cms.untracked.int32(0) ) process.PREMIXRAWEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'drop CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_*_MergedTrackTruth_*', 'keep *_*_StripDigiSimLink_*', 'keep *_*_PixelDigiSimLink_*', 'keep *_*_MuonCSCStripDigiSimLinks_*', 'keep *_*_MuonCSCWireDigiSimLinks_*', 'keep *_*_RPCDigiSimLink_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_*_*_*' ), splitLevel = cms.untracked.int32(0) ) process.PixelTripletHLTGenerator = cms.PSet( ComponentName = cms.string('PixelTripletHLTGenerator'), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(100000), phiPreFiltering = cms.double(0.3), useBending = cms.bool(True), useFixedPreFiltering = cms.bool(False), useMultScattering = cms.bool(True) ) process.PixelTripletHLTGeneratorWithFilter = cms.PSet( ComponentName = cms.string('PixelTripletHLTGenerator'), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(100000), phiPreFiltering = cms.double(0.3), useBending = cms.bool(True), useFixedPreFiltering = cms.bool(False), useMultScattering = cms.bool(True) ) process.RAWAODEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(31457280), outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_castorreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_zdcreco_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep recoCaloClusters_hybridSuperClusters_*_*', 'keep recoSuperClusters_hybridSuperClusters_uncleanOnlyHybridSuperClusters_*', 'keep recoCaloClusters_multi5x5SuperClusters_multi5x5EndcapBasicClusters_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoTracks_GsfGlobalElectronTest_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTracks_ctfPixelLess_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_ak4PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'drop doubles_*Jets_rhos_*', 'drop doubles_*Jets_sigmas_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep *_towerMaker_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'drop recoHcalNoiseRBXs_*_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep recoPhotonCores_gedPhotonCore_*_*', 'keep recoPhotons_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'drop *_gedPhotons_valMapPFEgammaCandToPhoton_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'drop *_pfElectronTranslator_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep recoCaloClusters_pfElectronTranslator_*_*', 'keep recoPreshowerClusters_pfElectronTranslator_*_*', 'keep recoSuperClusters_pfElectronTranslator_*_*', 'keep recoCaloClusters_pfPhotonTranslator_*_*', 'keep recoPreshowerClusters_pfPhotonTranslator_*_*', 'keep recoSuperClusters_pfPhotonTranslator_*_*', 'keep recoPhotons_pfPhotonTranslator_*_*', 'keep recoPhotonCores_pfPhotonTranslator_*_*', 'keep recoConversions_pfPhotonTranslator_*_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*' ) ) ) process.RAWAODSIMEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(20971520), outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_castorreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_zdcreco_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep recoCaloClusters_hybridSuperClusters_*_*', 'keep recoSuperClusters_hybridSuperClusters_uncleanOnlyHybridSuperClusters_*', 'keep recoCaloClusters_multi5x5SuperClusters_multi5x5EndcapBasicClusters_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoTracks_GsfGlobalElectronTest_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTracks_ctfPixelLess_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_ak4PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'drop doubles_*Jets_rhos_*', 'drop doubles_*Jets_sigmas_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep *_towerMaker_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'drop recoHcalNoiseRBXs_*_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep recoPhotonCores_gedPhotonCore_*_*', 'keep recoPhotons_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'drop *_gedPhotons_valMapPFEgammaCandToPhoton_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'drop *_pfElectronTranslator_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep recoCaloClusters_pfElectronTranslator_*_*', 'keep recoPreshowerClusters_pfElectronTranslator_*_*', 'keep recoSuperClusters_pfElectronTranslator_*_*', 'keep recoCaloClusters_pfPhotonTranslator_*_*', 'keep recoPreshowerClusters_pfPhotonTranslator_*_*', 'keep recoSuperClusters_pfPhotonTranslator_*_*', 'keep recoPhotons_pfPhotonTranslator_*_*', 'keep recoPhotonCores_pfPhotonTranslator_*_*', 'keep recoConversions_pfPhotonTranslator_*_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep *_allTrackMCMatch_*_*', 'keep *_muonSimClassifier_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep SimVertexs_g4SimHits_*_*' ) ) ) process.RAWDEBUGEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*', 'keep PixelDigiSimLinkedmDetSetVector_simSiPixelDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*', 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*' ), splitLevel = cms.untracked.int32(0) ) process.RAWDEBUGHLTEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*', 'keep PixelDigiSimLinkedmDetSetVector_simSiPixelDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*', 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RAWEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ), splitLevel = cms.untracked.int32(0) ) process.RAWMINIAODEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(20971520), outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'keep *_slimmedPhotons_*_*', 'keep *_slimmedOOTPhotons_*_*', 'keep *_slimmedElectrons_*_*', 'keep *_slimmedMuons_*_*', 'keep *_slimmedTaus_*_*', 'keep *_slimmedTausBoosted_*_*', 'keep *_slimmedCaloJets_*_*', 'keep *_slimmedJets_*_*', 'drop recoBaseTagInfosOwned_slimmedJets_*_*', 'keep *_slimmedJetsAK8_*_*', 'drop recoBaseTagInfosOwned_slimmedJetsAK8_*_*', 'keep *_slimmedJetsPuppi_*_*', 'keep *_slimmedMETs_*_*', 'keep *_slimmedMETsNoHF_*_*', 'keep *_slimmedMETsPuppi_*_*', 'keep *_slimmedSecondaryVertices_*_*', 'keep *_slimmedLambdaVertices_*_*', 'keep *_slimmedKshortVertices_*_*', 'keep *_slimmedJetsAK8PFPuppiSoftDropPacked_SubJets_*', 'keep recoPhotonCores_reducedEgamma_*_*', 'keep recoGsfElectronCores_reducedEgamma_*_*', 'keep recoConversions_reducedEgamma_*_*', 'keep recoSuperClusters_reducedEgamma_*_*', 'keep recoCaloClusters_reducedEgamma_*_*', 'keep EcalRecHitsSorted_reducedEgamma_*_*', 'keep recoGsfTracks_reducedEgamma_*_*', 'keep HBHERecHitsSorted_reducedEgamma_*_*', 'drop *_*_caloTowers_*', 'drop *_*_pfCandidates_*', 'drop *_*_genJets_*', 'keep *_offlineBeamSpot_*_*', 'keep *_offlineSlimmedPrimaryVertices_*_*', 'keep patPackedCandidates_packedPFCandidates_*_*', 'keep *_isolatedTracks_*_*', 'keep *_oniaPhotonCandidates_*_*', 'keep *_bunchSpacingProducer_*_*', 'keep double_fixedGridRhoAll__*', 'keep double_fixedGridRhoFastjetAll__*', 'keep double_fixedGridRhoFastjetAllCalo__*', 'keep double_fixedGridRhoFastjetCentral_*_*', 'keep double_fixedGridRhoFastjetCentralCalo__*', 'keep double_fixedGridRhoFastjetCentralChargedPileUp__*', 'keep double_fixedGridRhoFastjetCentralNeutral__*', 'keep *_slimmedPatTrigger_*_*', 'keep patPackedTriggerPrescales_patTrigger__*', 'keep patPackedTriggerPrescales_patTrigger_l1max_*', 'keep patPackedTriggerPrescales_patTrigger_l1min_*', 'keep *_l1extraParticles_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_gtStage2Digis__*', 'keep *_gmtStage2Digis_Muon_*', 'keep *_caloStage2Digis_Jet_*', 'keep *_caloStage2Digis_Tau_*', 'keep *_caloStage2Digis_EGamma_*', 'keep *_caloStage2Digis_EtSum_*', 'keep *_TriggerResults_*_HLT', 'keep *_TriggerResults_*_*', 'keep patPackedCandidates_lostTracks_*_*', 'keep HcalNoiseSummary_hcalnoise__*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*' ) ) process.RAWMINIAODSIMEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), eventAutoFlushCompressedSize = cms.untracked.int32(20971520), outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'keep *_slimmedPhotons_*_*', 'keep *_slimmedOOTPhotons_*_*', 'keep *_slimmedElectrons_*_*', 'keep *_slimmedMuons_*_*', 'keep *_slimmedTaus_*_*', 'keep *_slimmedTausBoosted_*_*', 'keep *_slimmedCaloJets_*_*', 'keep *_slimmedJets_*_*', 'drop recoBaseTagInfosOwned_slimmedJets_*_*', 'keep *_slimmedJetsAK8_*_*', 'drop recoBaseTagInfosOwned_slimmedJetsAK8_*_*', 'keep *_slimmedJetsPuppi_*_*', 'keep *_slimmedMETs_*_*', 'keep *_slimmedMETsNoHF_*_*', 'keep *_slimmedMETsPuppi_*_*', 'keep *_slimmedSecondaryVertices_*_*', 'keep *_slimmedLambdaVertices_*_*', 'keep *_slimmedKshortVertices_*_*', 'keep *_slimmedJetsAK8PFPuppiSoftDropPacked_SubJets_*', 'keep recoPhotonCores_reducedEgamma_*_*', 'keep recoGsfElectronCores_reducedEgamma_*_*', 'keep recoConversions_reducedEgamma_*_*', 'keep recoSuperClusters_reducedEgamma_*_*', 'keep recoCaloClusters_reducedEgamma_*_*', 'keep EcalRecHitsSorted_reducedEgamma_*_*', 'keep recoGsfTracks_reducedEgamma_*_*', 'keep HBHERecHitsSorted_reducedEgamma_*_*', 'drop *_*_caloTowers_*', 'drop *_*_pfCandidates_*', 'drop *_*_genJets_*', 'keep *_offlineBeamSpot_*_*', 'keep *_offlineSlimmedPrimaryVertices_*_*', 'keep patPackedCandidates_packedPFCandidates_*_*', 'keep *_isolatedTracks_*_*', 'keep *_oniaPhotonCandidates_*_*', 'keep *_bunchSpacingProducer_*_*', 'keep double_fixedGridRhoAll__*', 'keep double_fixedGridRhoFastjetAll__*', 'keep double_fixedGridRhoFastjetAllCalo__*', 'keep double_fixedGridRhoFastjetCentral_*_*', 'keep double_fixedGridRhoFastjetCentralCalo__*', 'keep double_fixedGridRhoFastjetCentralChargedPileUp__*', 'keep double_fixedGridRhoFastjetCentralNeutral__*', 'keep *_slimmedPatTrigger_*_*', 'keep patPackedTriggerPrescales_patTrigger__*', 'keep patPackedTriggerPrescales_patTrigger_l1max_*', 'keep patPackedTriggerPrescales_patTrigger_l1min_*', 'keep *_l1extraParticles_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_gtStage2Digis__*', 'keep *_gmtStage2Digis_Muon_*', 'keep *_caloStage2Digis_Jet_*', 'keep *_caloStage2Digis_Tau_*', 'keep *_caloStage2Digis_EGamma_*', 'keep *_caloStage2Digis_EtSum_*', 'keep *_TriggerResults_*_HLT', 'keep *_TriggerResults_*_*', 'keep patPackedCandidates_lostTracks_*_*', 'keep HcalNoiseSummary_hcalnoise__*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep patPackedGenParticles_packedGenParticles_*_*', 'keep recoGenParticles_prunedGenParticles_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenFilterInfo_*_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_*_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep recoGenParticles_genPUProtons_*_*', 'keep *_slimmedGenJetsFlavourInfos_*_*', 'keep *_slimmedGenJets__*', 'keep *_slimmedGenJetsAK8__*', 'keep *_slimmedGenJetsAK8SoftDropSubJets__*', 'keep *_genMetTrue_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep GenRunInfoProduct_*_*_*', 'keep *_genParticles_xyz0_*', 'keep *_genParticles_t0_*', 'keep PileupSummaryInfos_slimmedAddPileupInfo_*_*', 'keep L1GtTriggerMenuLite_l1GtTriggerMenuLite__*', 'keep SimVertexs_g4SimHits_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*' ) ) process.RAWRECODEBUGHLTEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'drop *', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep PixelDigiSimLinkedmDetSetVector_simSiPixelDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RAWRECOEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RAWRECOSIMHLTEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RAWSIMEventContent = cms.PSet( compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(1), eventAutoFlushCompressedSize = cms.untracked.int32(20971520), outputCommands = cms.untracked.vstring( 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*' ), splitLevel = cms.untracked.int32(0) ) process.RAWSIMHLTEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*', 'drop *_hlt*_*_*', 'keep *_hltAK4CaloJetsCorrectedIDPassed_*_*', 'keep *_hltAK4CaloJetsIDPassed_*_*', 'keep *_hltAK4CaloJets_*_*', 'keep *_hltAK4PFJetsCorrected_*_*', 'keep *_hltAK4PFJetsForTaus_*_*', 'keep *_hltAK4PFJets_*_*', 'keep *_hltAlCaEtaEBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEBRechitsToDigis_*_*', 'keep *_hltAlCaEtaEERechitsToDigisLowPU_*_*', 'keep *_hltAlCaEtaEERechitsToDigis_*_*', 'keep *_hltAlCaEtaRecHitsFilterEBonly_*_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegionalLowPU_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonlyRegional_etaEcalRecHitsES_*', 'keep *_hltAlCaEtaRecHitsFilterEEonly_*_*', 'keep *_hltAlCaEtaRecHitsFilter_*_*', 'keep *_hltAlCaPhiSymStream_*_*', 'keep *_hltAlCaPi0EBRechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EBRechitsToDigis_*_*', 'keep *_hltAlCaPi0EERechitsToDigisLowPU_*_*', 'keep *_hltAlCaPi0EERechitsToDigis_*_*', 'keep *_hltAlCaPi0RecHitsFilterEBonly_*_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegionalLowPU_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonlyRegional_pi0EcalRecHitsES_*', 'keep *_hltAlCaPi0RecHitsFilterEEonly_*_*', 'keep *_hltAlCaPi0RecHitsFilter_*_*', 'keep *_hltBLifetimeL25AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL25TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3AssociatorbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3BJetTagsbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeL3TagInfosbbPhiL1FastJetFastPV_*_*', 'keep *_hltBLifetimeRegionalCtfWithMaterialTracksbbPhiL1FastJetFastPV_*_*', 'keep *_hltBSoftMuonDiJet110Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet110Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet20Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet40Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5L3FilterByDR_*_*', 'keep *_hltBSoftMuonDiJet70Mu5SelL3BJetTagsByDR_*_*', 'keep *_hltBSoftMuonMu5L3_*_*', 'keep *_hltCSVJetTagSingleTopEle27_*_*', 'keep *_hltCSVJetTagSingleTopIsoMu24_*_*', 'keep *_hltCaloJetCorrectedRegional_*_*', 'keep *_hltCaloJetCorrected_*_*', 'keep *_hltCaloJetL1FastJetCorrected_*_*', 'keep *_hltCaloStage2Digis_*_*', 'keep *_hltCleanedCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCleanedHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltConvPFTausTightIsoTrackFindingIsolation_*_*', 'keep *_hltConvPFTausTightIsoTrackFinding_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5Isolation_*_*', 'keep *_hltConvPFTausTightIsoTrackPt5_*_*', 'keep *_hltConvPFTausTightIso_*_*', 'keep *_hltConvPFTausTrackFindingLooseIsolation_*_*', 'keep *_hltConvPFTausTrackFinding_*_*', 'keep *_hltConvPFTaus_*_*', 'keep *_hltCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltCsc2DRecHits_*_*', 'keep *_hltCscSegments_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfosCalo_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsInfos_*_*', 'keep *_hltDeepCombinedSecondaryVertexBJetTagsPF_*_*', 'keep *_hltDisplacedhltIter4PFlowTrackSelectionHighPurity_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4L1HLTMatched_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltDoublePFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltDoublePFTau25TrackPt5_*_*', 'keep *_hltDoublePFTau25_*_*', 'keep *_hltDoublePFTauTightIso45Track5_*_*', 'keep *_hltDoublePFTauTightIso45Track_*_*', 'keep *_hltDt4DSegments_*_*', 'keep *_hltEcalPhiSymFilter_*_*', 'keep *_hltEcalRecHitAll_*_*', 'keep *_hltEcalRecHit_*_*', 'keep *_hltEgammaCandidates_*_*', 'keep *_hltEgammaGsfElectrons_*_*', 'keep *_hltEgammaGsfTracks_*_*', 'keep *_hltEle20CaloIdVTCaloIsoTTrkIdTTrkIsoTTrackIsoFilterL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltEle20CaloIdVTTrkIdTDphiFilter_*_*', 'keep *_hltEle27WP85PixelMatchElectronsL1Seeded_*_*', 'keep *_hltElectronsVertex_*_*', 'keep *_hltFEDSelectorLumiPixels_*_*', 'keep *_hltFastPVPixelTracksMerger_*_*', 'keep *_hltFastPVPixelTracksRecover_*_*', 'keep *_hltFastPVPixelTracks_*_*', 'keep *_hltFastPVPixelVertices3D_*_*', 'keep *_hltFastPVPixelVertices_*_*', 'keep *_hltFastPixelBLifetimeL3TagInfos_*_*', 'keep *_hltFastPrimaryVertex_*_*', 'keep *_hltFilterDoubleIsoPFTau45Trk5LeadTrack5IsolationL1HLTMatched_*_*', 'keep *_hltFilterL2EtCutDoublePFIsoTau45Trk5_*_*', 'keep *_hltFilterL2EtCutSingleIsoPFTau35Trk20MET70_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20LeadTrackPt20_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET60LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFilterSingleIsoPFTau35Trk20MET70LeadTrack20IsolationL1HLTMatched_*_*', 'keep *_hltFullIterativeTrackingMergedForRefPP_*_*', 'keep *_hltGmtStage2Digis_*_*', 'keep *_hltGoodOnlinePVs_*_*', 'keep *_hltGtStage2Digis_*_*', 'keep *_hltHICaloJetCorrected_*_*', 'keep *_hltHICaloJetIDPassed_*_*', 'keep *_hltHIGoodLooseTracks_*_*', 'keep *_hltHIPixel3PrimTracks_*_*', 'keep *_hltHISelectedVertex_*_*', 'keep *_hltHISiPixelClusters_*_*', 'keep *_hltHITIPTCorrectorHB_*_*', 'keep *_hltHITIPTCorrectorHE_*_*', 'keep *_hltHbhereco_*_*', 'keep *_hltHfreco_*_*', 'keep *_hltHiCorrectedIslandBarrelSuperClustersHI_*_*', 'keep *_hltHiCorrectedIslandEndcapSuperClustersHI_*_*', 'keep *_hltHiIslandSuperClustersHI_*_*', 'keep *_hltHoreco_*_*', 'keep *_hltIsolPixelTrackProdHB_*_*', 'keep *_hltIsolPixelTrackProdHE_*_*', 'keep *_hltIter0ElectronsTrackSelectionHighPurity_*_*', 'keep *_hltIter0HighPtTkMuPixelTracks_*_*', 'keep *_hltIter0HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter0PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter1Merged_*_*', 'keep *_hltIter1PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter2HighPtTkMuMerged_*_*', 'keep *_hltIter2HighPtTkMuTrackSelectionHighPurity_*_*', 'keep *_hltIter2IterL3FromL1MuonMerged_*_*', 'keep *_hltIter2IterL3MuonMerged_*_*', 'keep *_hltIter2MergedForBTag_*_*', 'keep *_hltIter2MergedForElectrons_*_*', 'keep *_hltIter2Merged_*_*', 'keep *_hltIter2PFlowTrackSelectionHighPurity_*_*', 'keep *_hltIter3Merged_*_*', 'keep *_hltIter4Merged_*_*', 'keep *_hltIterL3GlbMuon_*_*', 'keep *_hltIterL3MuonMerged_*_*', 'keep *_hltIterL3MuonsNoID_*_*', 'keep *_hltIterL3Muons_*_*', 'keep *_hltIterL3OIMuonTrackSelectionHighPurity_*_*', 'keep *_hltIterativeCone5PileupSubtractionCaloJets_*_*', 'keep *_hltL1HLTSingleIsoPFTau35Trk20Met60JetsMatch_*_*', 'keep *_hltL1IsoElectronTrackIsol_*_*', 'keep *_hltL1NonIsoElectronTrackIsol_*_*', 'keep *_hltL1SeededRecoEcalCandidate_*_*', 'keep *_hltL1sDoubleTauJet44Eta2p17orDoubleJet64Central_*_*', 'keep *_hltL1sDoubleTauJet44erorDoubleJetC64_*_*', 'keep *_hltL1sL1EG18er_*_*', 'keep *_hltL1sL1ETM36ORETM40_*_*', 'keep *_hltL1sL1Jet52ETM30_*_*', 'keep *_hltL1sL1SingleEG12_*_*', 'keep *_hltL1sL1SingleEG15_*_*', 'keep *_hltL1sL1SingleEG18orL1SingleEG20_*_*', 'keep *_hltL1sL1SingleMu10_*_*', 'keep *_hltL1sL1SingleMu14Eta2p1_*_*', 'keep *_hltL1sMu16Eta2p1_*_*', 'keep *_hltL2MuonCandidatesNoVtx_*_*', 'keep *_hltL2MuonCandidates_*_*', 'keep *_hltL2MuonSeeds_*_*', 'keep *_hltL2Muons_*_*', 'keep *_hltL2TauJets_*_*', 'keep *_hltL3MuonCandidates_*_*', 'keep *_hltL3MuonsIOHit_*_*', 'keep *_hltL3MuonsLinksCombination_*_*', 'keep *_hltL3MuonsOIHit_*_*', 'keep *_hltL3MuonsOIState_*_*', 'keep *_hltL3Muons_*_*', 'keep *_hltL3NoFiltersNoVtxMuonCandidates_*_*', 'keep *_hltL3NoFiltersNoVtxMuons_*_*', 'keep *_hltL3SecondaryVertexTagInfos_*_*', 'keep *_hltL3TkFromL2OICombination_*_*', 'keep *_hltL3TkTracksFromL2IOHit_*_*', 'keep *_hltL3TkTracksFromL2OIHit_*_*', 'keep *_hltL3TkTracksFromL2OIState_*_*', 'keep *_hltL3TkTracksFromL2_*_*', 'keep *_hltL3TrackCandidateFromL2IOHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIHit_*_*', 'keep *_hltL3TrackCandidateFromL2OIState_*_*', 'keep *_hltL3TrajSeedIOHit_*_*', 'keep *_hltL3TrajSeedOIHit_*_*', 'keep *_hltL3TrajSeedOIState_*_*', 'keep *_hltL3TrajectorySeed_*_*', 'keep *_hltL3crIsoL1sMu16Eta2p1L1f0L2f16QL3f18QL3crIsoRhoFiltered0p15_*_*', 'keep *_hltLeadingCentralJets30SingleTopEle27_*_*', 'keep *_hltLeadingCentralJets30SingleTopIsoMu24_*_*', 'keep *_hltMergedTracks_*_*', 'keep *_hltMet_*_*', 'keep *_hltMu8Ele17CaloIdTCaloIsoVLPixelMatchFilter_*_*', 'keep *_hltMuTrackJpsiCtfTrackCands_*_*', 'keep *_hltMuTrackJpsiPixelTrackCands_*_*', 'keep *_hltMuonCSCDigis_*_*', 'keep *_hltMuonCSCDigis_MuonCSCStripDigi_*', 'keep *_hltMuonCSCDigis_MuonCSCWireDigi_*', 'keep *_hltMuonDTDigis_*_*', 'keep *_hltMuonRPCDigis_*_*', 'keep *_hltOnlineBeamSpot_*_*', 'keep *_hltOnlinePrimaryVertices_*_*', 'keep *_hltOverlapFilterEle20LooseIsoPFTau20OldVersion_*_*', 'keep *_hltOverlapFilterIsoEle20MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15IsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15MediumIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu15TightIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18LooseIsoPFTau20_*_*', 'keep *_hltOverlapFilterIsoMu18PFTau25TrackPt5Prong4_*_*', 'keep *_hltPFJetForBtag_*_*', 'keep *_hltPFMuonMerging_*_*', 'keep *_hltPFTau15TrackLooseIso_*_*', 'keep *_hltPFTau15Track_*_*', 'keep *_hltPFTau15_*_*', 'keep *_hltPFTau20IsoMuVertex_*_*', 'keep *_hltPFTau20TrackLooseIso_*_*', 'keep *_hltPFTau20Track_*_*', 'keep *_hltPFTau20_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4IsoMuVertex_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolationProng4_*_*', 'keep *_hltPFTau25TrackPt5MediumIsolation_*_*', 'keep *_hltPFTau25TrackPt5_*_*', 'keep *_hltPFTau25_*_*', 'keep *_hltPFTau35TrackPt20LooseIsoProng2_*_*', 'keep *_hltPFTau35TrackPt20LooseIso_*_*', 'keep *_hltPFTau35TrackPt20_*_*', 'keep *_hltPFTau35Track_*_*', 'keep *_hltPFTau35_*_*', 'keep *_hltPFTauEleVertex20_*_*', 'keep *_hltPFTauJetTracksAssociator_*_*', 'keep *_hltPFTauMediumIso20TrackMediumIso_*_*', 'keep *_hltPFTauMediumIso20Track_*_*', 'keep *_hltPFTauMediumIso20_*_*', 'keep *_hltPFTauMediumIso35Track_*_*', 'keep *_hltPFTauMediumIso35_*_*', 'keep *_hltPFTauTagInfo_*_*', 'keep *_hltPFTauTightIso20TrackTightIso_*_*', 'keep *_hltPFTauTightIso20Track_*_*', 'keep *_hltPFTauTightIso20_*_*', 'keep *_hltPFlowTrackSelectionHighPurity_*_*', 'keep *_hltParticleFlowForTaus_*_*', 'keep *_hltParticleFlow_*_*', 'keep *_hltPixelMatch3HitElectronsActivity_*_*', 'keep *_hltPixelMatch3HitElectronsL1Seeded_*_*', 'keep *_hltPixelMatchCleanElectronsL1Seeded_*_*', 'keep *_hltPixelMatchElectronsActivity_*_*', 'keep *_hltPixelMatchElectronsL1Iso_*_*', 'keep *_hltPixelMatchElectronsL1NonIso_*_*', 'keep *_hltPixelMatchElectronsL1Seeded_*_*', 'keep *_hltPixelTracksElectrons_*_*', 'keep *_hltPixelTracksMerged_*_*', 'keep *_hltPixelTracks_*_*', 'keep *_hltPixelVertices3DbbPhi_*_*', 'keep *_hltPixelVertices_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC4_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidateSC5_*_*', 'keep *_hltRecoEcalSuperClusterActivityCandidate_*_*', 'keep *_hltRpcRecHits_*_*', 'keep *_hltSelector4CentralJetsL1FastJet_*_*', 'keep *_hltSelector8CentralJetsL1FastJet_*_*', 'keep *_hltSelectorJets20L1FastJet_*_*', 'keep *_hltSiPixelCluster_*_*', 'keep *_hltSiPixelClustersCache_*_*', 'keep *_hltSiPixelClusters_*_*', 'keep *_hltSiStripClusters_*_*', 'keep *_hltSiStripRawToClustersFacility_*_*', 'keep *_hltSingleMu15L3Filtered15_*_*', 'keep *_hltSingleMuIsoL1s14L3IsoFiltered15eta2p1_*_*', 'keep *_hltSingleMuIsoL3IsoFiltered15_*_*', 'keep *_hltTowerMakerForAll_*_*', 'keep *_hltTowerMakerForMuons_*_*', 'keep *_hltTriggerSummaryAOD_*_*', 'keep *_hltTriggerSummaryRAW_*_*', 'keep *_hltTrimmedPixelVertices_*_*', 'keep *_hltVerticesL3_*_*', 'keep *_hltVerticesPFFilter_*_*', 'keep *_hltVerticesPFSelector_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep L2MuonTrajectorySeeds_hltL2MuonSeeds_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajSeedOIHit_*_*', 'keep L3MuonTrajectorySeeds_hltHIL3TrajectorySeed_*_*', 'keep L3MuonTrajectorySeeds_hltL3TrajSeedOIState_*_*', 'keep LumiScalerss_hltScalersRawToDigi_*_*', 'keep SiPixelClusteredmNewDetSetVector_hltSiPixelClusters_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIHit_*_*', 'keep TrackCandidates_hltHIL3TrackCandidateFromL2OIState_*_*', 'keep TrackingRecHitsOwned_hltL3Muons_*_*', 'keep edmTriggerResults_*_*_*', 'keep recoCaloJets_*_*_*', 'keep recoCaloMETs_*_*_*', 'keep recoCaloMETs_hltMet_*_*', 'keep recoCompositeCandidates_*_*_*', 'keep recoElectrons_*_*_*', 'keep recoIsolatedPixelTrackCandidates_*_*_*', 'keep recoMETs_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoPFTaus_*_*_*', 'keep recoRecoChargedCandidates_*_*_*', 'keep recoRecoChargedCandidates_hltHIL3MuonCandidates_*_*', 'keep recoRecoChargedCandidates_hltL2MuonCandidates_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1IsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsoHLTClusterShape_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonEcalIsol_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalForHE_*_*', 'keep recoRecoEcalCandidatesToValuefloatAssociation_hltL1NonIsolatedPhotonHcalIsol_*_*', 'keep recoRecoEcalCandidates_*_*_*', 'keep recoRecoEcalCandidates_hltL1IsoRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hltL1NonIsoRecoEcalCandidate_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIHit_*_*', 'keep recoTrackExtras_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3MuonsOIHit_*_*', 'keep recoTracks_hltHIL3MuonsOIState_*_*', 'keep recoTracks_hltHIL3Muons_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIHit_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2OIState_*_*', 'keep recoTracks_hltHIL3TkTracksFromL2_*_*', 'keep triggerTriggerEventWithRefs_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep triggerTriggerFilterObjectWithRefs_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RECODEBUGEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'drop *', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep PixelDigiSimLinkedmDetSetVector_simSiPixelDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RECOEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.RECOSIMEventContent = cms.PSet( outputCommands = cms.untracked.vstring( ( 'drop *', 'drop *', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep DcsStatuss_hltScalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenMETs_*_*_*', 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*', 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*' ) ), splitLevel = cms.untracked.int32(0) ) process.REDIGIEventContent = cms.PSet( inputCommands = cms.untracked.vstring( 'drop *', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'drop *_randomEngineStateProducer_*_*' ) ) process.REGENEventContent = cms.PSet( inputCommands = cms.untracked.vstring( 'keep *', 'drop *_genParticles_*_*', 'drop *_genParticlesForJets_*_*', 'drop *_kt4GenJets_*_*', 'drop *_kt6GenJets_*_*', 'drop *_iterativeCone5GenJets_*_*', 'drop *_ak4GenJets_*_*', 'drop *_ak7GenJets_*_*', 'drop *_ak8GenJets_*_*', 'drop *_ak4GenJetsNoNu_*_*', 'drop *_ak8GenJetsNoNu_*_*', 'drop *_genCandidatesForMET_*_*', 'drop *_genParticlesForMETAllVisible_*_*', 'drop *_genMetCalo_*_*', 'drop *_genMetCaloAndNonPrompt_*_*', 'drop *_genMetTrue_*_*', 'drop *_genMetIC5GenJs_*_*' ) ) process.REPACKRAWEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'drop FEDRawDataCollection_*_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'drop FEDRawDataCollection_source_*_*', 'drop FEDRawDataCollection_rawDataCollector_*_*' ), splitLevel = cms.untracked.int32(0) ) process.REPACKRAWSIMEventContent = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *', 'drop FEDRawDataCollection_*_*_*', 'keep FEDRawDataCollection_rawDataRepacker_*_*', 'keep FEDRawDataCollection_virginRawDataRepacker_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*', 'keep *_allTrackMCMatch_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*', 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*', 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*', 'keep recoGenMETs_*_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep *_MEtoEDMConverter_*_*', 'keep *_randomEngineStateProducer_*_*', 'keep *_logErrorHarvester_*_*', 'drop FEDRawDataCollection_source_*_*', 'drop FEDRawDataCollection_rawDataCollector_*_*' ), splitLevel = cms.untracked.int32(0) ) process.RESIMEventContent = cms.PSet( inputCommands = cms.untracked.vstring( 'drop *', 'keep *_randomEngineStateProducer_*_*', 'keep LHERunInfoProduct_*_*_*', 'keep LHEEventProduct_*_*_*', 'keep GenRunInfoProduct_generator_*_*', 'keep GenLumiInfoHeader_generator_*_*', 'keep GenLumiInfoProduct_generator_*_*', 'keep GenEventInfoProduct_generator_*_*', 'keep edmHepMCProduct_generatorSmeared_*_*', 'keep GenFilterInfo_*_*_*', 'keep *_genParticles_*_*' ) ) process.RU_ME0 = 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), maxPhiAdditional = cms.double(0.001096605744), maxPhiSeeds = cms.double(0.001096605744), maxTOFDiff = cms.double(25), minNumberOfHits = cms.uint32(4), requireCentralBX = cms.bool(True) ) process.RU_ME12 = cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.003), dPhiMax = cms.double(0.004), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) process.RU_ME13 = cms.PSet( chi2Max = cms.double(60.0), chi2Norm_2D_ = cms.double(20), chi2_str = cms.double(30.0), dPhiIntMax = cms.double(0.002), dPhiMax = cms.double(0.003), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) process.RU_ME1A = cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.005), dPhiMax = cms.double(0.006), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) process.RU_ME1B = cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.004), dPhiMax = cms.double(0.005), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) process.RU_MEX1 = cms.PSet( chi2Max = cms.double(180.0), chi2Norm_2D_ = cms.double(60), chi2_str = cms.double(80.0), dPhiIntMax = cms.double(0.005), dPhiMax = cms.double(0.007), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) process.RU_MEX2 = cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.004), dPhiMax = cms.double(0.006), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) process.RecoBTagAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*' ) ) process.RecoBTagFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*' ) ) process.RecoBTagRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_softPFMuonsTagInfos_*_*', 'keep *_softPFElectronsTagInfos_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfImpactParameterTagInfos_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSecondaryVertexTagInfos_*_*', 'keep *_pfInclusiveSecondaryVertexFinderTagInfos_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackVertexTagInfos_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfInclusiveSecondaryVertexFinderCvsLTagInfos_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*' ) ) process.RecoBTauAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.RecoBTauFEVT = cms.PSet( outputCommands = cms.untracked.vstring() ) process.RecoBTauRECO = cms.PSet( outputCommands = cms.untracked.vstring() ) process.RecoCTPPSAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*' ) ) process.RecoCTPPSFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*' ) ) process.RecoCTPPSRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*' ) ) process.RecoEcalAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep recoCaloClusters_hybridSuperClusters_*_*', 'keep recoSuperClusters_hybridSuperClusters_uncleanOnlyHybridSuperClusters_*', 'keep recoCaloClusters_multi5x5SuperClusters_multi5x5EndcapBasicClusters_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*' ) ) process.RecoEcalFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_selectDigi_*_*', 'keep *_reducedEcalRecHitsEB_*_*', 'keep *_reducedEcalRecHitsEE_*_*', 'keep *_reducedEcalRecHitsES_*_*', 'keep *_interestingEcalDetId*_*_*', 'keep *_ecalWeightUncalibRecHit_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_hybridSuperClusters_*_*', 'keep *_correctedHybridSuperClusters_*_*', 'keep *_multi5x5*_*_*', 'keep *_correctedMulti5x5*_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*' ) ) process.RecoEcalRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep *_particleFlowSuperClusterECAL_*_*', 'keep *_particleFlowSuperClusterOOTECAL_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoCaloClusters_islandBasicClusters_*_*' ) ) process.RecoEgammaAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep recoPhotonCores_gedPhotonCore_*_*', 'keep recoPhotons_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'drop *_gedPhotons_valMapPFEgammaCandToPhoton_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*' ) ) process.RecoEgammaFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_gsfElectronCores_*_*', 'keep *_gsfElectrons_*_*', 'keep *_uncleanedOnlyGsfElectronCores_*_*', 'keep *_uncleanedOnlyGsfElectrons_*_*', 'keep *_eidRobustLoose_*_*', 'keep *_eidRobustTight_*_*', 'keep *_eidRobustHighEnergy_*_*', 'keep *_eidLoose_*_*', 'keep *_eidTight_*_*', 'keep *_egmGedGsfElectronPF*Isolation_*_*', 'keep *_egmGsfElectronIDs_*_*', 'keep *_egmPhotonIDs_*_*', 'keep *_conversions_*_*', 'keep *_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotonsTmp_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep *_photonCore_*_*', 'keep *_photons_*_*', 'keep *_mustachePhotonCore_*_*', 'keep *_mustachePhotons_*_*', 'keep *_ootPhotonCore_*_*', 'keep *_ootPhotons_*_*', 'keep *_allConversions_*_*', 'keep *_allConversionsOldEG_*_*', 'keep *_ckfOutInTracksFrom*Conversions_*_*', 'keep *_ckfInOutTracksFrom*Conversions_*_*', 'keep *_uncleanedOnlyAllConversions_*_*', 'keep *_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep *_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*' ) ) process.RecoEgammaRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep *_gedPhotonCore_*_*', 'keep *_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'keep recoPhotons_mustachePhotons_*_*', 'keep recoPhotonCores_mustachePhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'drop *_gedPhotonsTmp_valMapPFEgammaCandToPhoton_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*' ) ) process.RecoGenJetsAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*' ) ) process.RecoGenJetsFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoGenJets_*_*_*', 'keep *_genParticle_*_*' ) ) process.RecoGenJetsRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ak4GenJets_*_*', 'keep *_ak8GenJets_*_*', 'keep *_ak4GenJetsNoNu_*_*', 'keep *_ak8GenJetsNoNu_*_*', 'keep *_genParticle_*_*' ) ) process.RecoGenMETAOD = cms.PSet( outputCommands = cms.untracked.vstring('keep recoGenMETs_*_*_*') ) process.RecoGenMETFEVT = cms.PSet( outputCommands = cms.untracked.vstring('keep recoGenMETs_*_*_*') ) process.RecoGenMETRECO = cms.PSet( outputCommands = cms.untracked.vstring('keep recoGenMETs_*_*_*') ) process.RecoHcalNoiseAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'drop recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*' ) ) process.RecoHcalNoiseFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*' ) ) process.RecoHcalNoiseRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*' ) ) process.RecoJetsAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_ak4PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'drop doubles_*Jets_rhos_*', 'drop doubles_*Jets_sigmas_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep *_towerMaker_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*' ) ) process.RecoJetsFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoCaloJets_*_*_*', 'keep recoPFJets_*_*_*', 'keep recoTrackJets_*_*_*', 'keep recoJPTJets_*_*_*', 'keep recoBasicJets_*_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_kt4JetTracksAssociatorAtVertex_*_*', 'keep *_kt4JetTracksAssociatorAtCaloFace_*_*', 'keep *_kt4JetExtender_*_*', 'keep *_ak4JetTracksAssociatorAtVertex*_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace*_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak7JetTracksAssociatorAtVertex*_*_*', 'keep *_ak7JetTracksAssociatorAtCaloFace*_*_*', 'keep *_ak7JetExtender_*_*', 'keep *_*JetID_*_*', 'keep *_kt4CaloJets_*_*', 'keep *_kt6CaloJets_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak5CaloJets_*_*', 'keep *_ak7CaloJets_*_*', 'keep *_kt4PFJets_*_*', 'keep *_kt6PFJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak5PFJets_*_*', 'keep *_ak7PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep *_kt4TrackJets_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRho*_*_*', 'keep *_ca*Mass_*_*', 'keep *_ak*Mass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*' ) ) process.RecoJetsRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*' ) ) process.RecoLocalCaloAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_castorreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_zdcreco_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*' ) ) process.RecoLocalCaloFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HBHERecHitsSorted_hbheprerecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_*Digis_*_*', 'keep ZDCRecHitsSorted_*_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_*_*_*', 'keep *_ecalMultiFitUncalibRecHit_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*' ) ) process.RecoLocalCaloRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_hbhereco_*_*', 'keep *_hbheprereco_*_*', 'keep *_hfprereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep ZDCRecHitsSorted_zdcreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*' ) ) process.RecoLocalFastTimeAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.RecoLocalFastTimeFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ftlUncalibratedRecHits_*_*', 'keep *_ftlRecHits_*_*' ) ) process.RecoLocalFastTimeRECO = cms.PSet( outputCommands = cms.untracked.vstring('keep *_ftlRecHits_*_*') ) process.RecoLocalMuonAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_dt4DSegments_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*' ) ) process.RecoLocalMuonFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*' ) ) process.RecoLocalMuonRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*' ) ) process.RecoLocalTrackerAOD = cms.PSet( outputCommands = cms.untracked.vstring('keep ClusterSummary_clusterSummaryProducer_*_*') ) process.RecoLocalTrackerFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep *_clusterSummaryProducer_*_*' ) ) process.RecoLocalTrackerRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep PixelFEDChanneledmNewDetSetVector_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep ClusterSummary_clusterSummaryProducer_*_*' ) ) process.RecoMETAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'drop recoHcalNoiseRBXs_*_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*' ) ) process.RecoMETFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep *HaloData_*_*_*', 'keep *BeamHaloSummary_BeamHaloSummary_*_*' ) ) process.RecoMETRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoEcalHaloData_EcalHaloData_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoHcalHaloData_HcalHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*' ) ) process.RecoMuonAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*' ) ) process.RecoMuonFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*' ) ) process.RecoMuonIsolationAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.RecoMuonIsolationFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*' ) ) process.RecoMuonIsolationParamGlobal = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_muParamGlobalIsoDepositGsTk_*_*', 'keep *_muParamGlobalIsoDepositCalEcal_*_*', 'keep *_muParamGlobalIsoDepositCalHcal_*_*', 'keep *_muParamGlobalIsoDepositCtfTk_*_*', 'keep *_muParamGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muParamGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muParamGlobalIsoDepositJets_*_*' ) ) process.RecoMuonIsolationRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*' ) ) process.RecoMuonRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_displacedMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*' ) ) process.RecoParticleFlowAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'drop CaloTowersSorted_towerMakerPF_*_*', 'drop *_pfElectronTranslator_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep recoCaloClusters_pfElectronTranslator_*_*', 'keep recoPreshowerClusters_pfElectronTranslator_*_*', 'keep recoSuperClusters_pfElectronTranslator_*_*', 'keep recoCaloClusters_pfPhotonTranslator_*_*', 'keep recoPreshowerClusters_pfPhotonTranslator_*_*', 'keep recoSuperClusters_pfPhotonTranslator_*_*', 'keep recoPhotons_pfPhotonTranslator_*_*', 'keep recoPhotonCores_pfPhotonTranslator_*_*', 'keep recoConversions_pfPhotonTranslator_*_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*' ) ) process.RecoParticleFlowFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*' ) ) process.RecoParticleFlowRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterHF_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*' ) ) process.RecoPixelVertexingFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*' ) ) process.RecoPixelVertexingRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*' ) ) process.RecoTauTagAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*' ) ) process.RecoTauTagFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ak4PFJetsRecoTauPiZeros_*_*', 'keep *_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscrimination*_*_*', 'keep *_hpsPFTau*PtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*' ) ) process.RecoTauTagRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*' ) ) process.RecoTrackerAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTracks_ctfPixelLess_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep recoTracks_hiConformalPixelTracks_*_*' ) ) process.RecoTrackerFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*' ) ) process.RecoTrackerRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep TrackingRecHitsOwned_extraFromSeeds_*_*', 'keep uints_extraFromSeeds_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep recoTracks_cosmicDCTracks_*_*', 'keep recoTrackExtras_cosmicDCTracks_*_*', 'keep TrackingRecHitsOwned_cosmicDCTracks_*_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep recoTrackExtras_hiConformalPixelTracks_*_*', 'keep TrackingRecHitsOwned_hiConformalPixelTracks_*_*' ) ) process.RecoVertexAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*' ) ) process.RecoVertexFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*' ) ) process.RecoVertexRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*' ) ) process.RegionPSetBlock = cms.PSet( RegionPSet = cms.PSet( originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), originXPos = cms.double(0.0), originYPos = cms.double(0.0), originZPos = cms.double(0.0), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ) process.SK_ME1234 = cms.PSet( chi2Max = cms.double(99999.0), dPhiFineMax = cms.double(0.025), dPhiMax = cms.double(0.003), dRPhiFineMax = cms.double(8.0), dRPhiMax = cms.double(8.0), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True), wideSeg = cms.double(3.0) ) process.SK_ME1A = cms.PSet( chi2Max = cms.double(99999.0), dPhiFineMax = cms.double(0.025), dPhiMax = cms.double(0.025), dRPhiFineMax = cms.double(3.0), dRPhiMax = cms.double(8.0), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True), wideSeg = cms.double(3.0) ) process.ST_ME1234 = 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), 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) ) process.ST_ME1A = 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), 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) ) process.SiPixelGainCalibrationServiceParameters = cms.PSet( ) process.SiStripClusterChargeCutLoose = cms.PSet( value = cms.double(1620.0) ) process.SiStripClusterChargeCutNone = cms.PSet( value = cms.double(-1.0) ) process.SiStripClusterChargeCutTight = cms.PSet( value = cms.double(1945.0) ) process.SiStripClusterChargeCutTiny = cms.PSet( value = cms.double(800.0) ) process.SimCalorimetryAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.SimCalorimetryFEVTDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_simEcalDigis_*_*', 'keep *_simEcalPreshowerDigis_*_*', 'keep *_simEcalTriggerPrimitiveDigis_*_*', 'keep *_simEcalEBTriggerPrimitiveDigis_*_*', 'keep *_simHcalDigis_*_*', 'keep ZDCDataFramesSorted_simHcalUnsuppressedDigis_*_*', 'drop ZDCDataFramesSorted_mix_simHcalUnsuppressedDigis*_*', 'keep *_simHcalTriggerPrimitiveDigis_*_*', 'keep *_mix_HcalSamples_*', 'keep *_mixData_HcalSamples_*', 'keep *_mix_HcalHits_*', 'keep *_mixData_HcalHits_*', 'keep *_DMHcalTriggerPrimitiveDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*' ) ) process.SimCalorimetryPREMIX = cms.PSet( outputCommands = cms.untracked.vstring( 'keep EBDigiCollection_simEcalDigis_*_*', 'keep EEDigiCollection_simEcalDigis_*_*', 'keep ESDigiCollection_simEcalUnsuppressedDigis_*_*', 'keep *_simHcalDigis_*_*' ) ) process.SimCalorimetryRAW = cms.PSet( outputCommands = cms.untracked.vstring( 'keep EBSrFlagsSorted_simEcalDigis_*_*', 'keep EESrFlagsSorted_simEcalDigis_*_*', 'keep *_simHcalUnsuppressedDigis_*_*' ) ) process.SimCalorimetryRECO = cms.PSet( outputCommands = cms.untracked.vstring() ) process.SimG4CoreAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.SimG4CoreHLTAODSIM = cms.PSet( outputCommands = cms.untracked.vstring('keep SimVertexs_g4SimHits_*_*') ) process.SimG4CoreRAW = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_g4SimHits_*_*', 'keep edmHepMCProduct_source_*_*' ) ) process.SimG4CoreRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep edmHepMCProduct_source_*_*', 'keep SimTracks_g4SimHits_*_*', 'keep SimVertexs_g4SimHits_*_*' ) ) process.SimGeneralAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*' ) ) process.SimGeneralFEVTDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'drop *_trackingtruthprod_*_*', 'drop *_electrontruth_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*' ) ) process.SimGeneralPREMIX = cms.PSet( outputCommands = cms.untracked.vstring() ) process.SimGeneralRAW = cms.PSet( outputCommands = cms.untracked.vstring( 'keep CrossingFramePlaybackInfoNew_*_*_*', 'keep PileupSummaryInfos_*_*_*', 'keep int6stdbitsetstdpairs_*_AffectedAPVList_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep *_mix_MergedTrackTruth_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*' ) ) process.SimGeneralRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep PileupSummaryInfos_*_*_*', 'keep int_*_bunchSpacing_*', 'keep *_genPUProtons_*_*', 'keep CrossingFramePlaybackInfoNew_mix_*_*', 'keep *_heavyIon_*_*' ) ) process.SimMuonAOD = cms.PSet( outputCommands = cms.untracked.vstring('keep *_muonSimClassifier_*_*') ) process.SimMuonFEVTDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonDTDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep *_simMuonGEMDigis_*_*', 'keep *_simMuonGEMPadDigis_*_*', 'keep *_simMuonGEMPadDigiClusters_*_*' ) ) process.SimMuonPREMIX = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_simMuonDTDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonCscTriggerPrimitiveDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep *_simMuonGEMDigis_*_*', 'keep *_*_GEMDigiSimLink_*', 'keep *_*_GEMStripDigiSimLink_*' ) ) process.SimMuonRAW = cms.PSet( outputCommands = cms.untracked.vstring( 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep CSCDetIdCSCComparatorDigiMuonDigiCollection_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_simMuonCSCDigis_*_*', 'keep *_simMuonRPCDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*' ) ) process.SimMuonRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep StripDigiSimLinkedmDetSetVector_simMuonCSCDigis_*_*', 'keep DTLayerIdDTDigiSimLinkMuonDigiCollection_simMuonDTDigis_*_*', 'keep RPCDigiSimLinkedmDetSetVector_simMuonRPCDigis_*_*', 'keep *_muonSimClassifier_*_*', 'keep StripDigiSimLinkedmDetSetVector_simMuonGEMDigis_*_*' ) ) process.SimTrackerAOD = cms.PSet( outputCommands = cms.untracked.vstring('keep *_allTrackMCMatch_*_*') ) process.SimTrackerDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'keep PixelDigiSimLinkedmDetSetVector_simSiPixelDigis_*_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*' ) ) process.SimTrackerFEVTDEBUG = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_simSiPixelDigis_*_*', 'keep *_simSiStripDigis_*_*', 'drop *_mix_simSiPixelDigis*_*', 'drop *_mix_simSiStripDigis*_*', 'keep *_allTrackMCMatch_*_*', 'keep *_trackingParticleRecoTrackAsssociation_*_*', 'keep *_assoc2secStepTk_*_*', 'keep *_assoc2thStepTk_*_*', 'keep *_assoc2GsfTracks_*_*', 'keep *_assocOutInConversionTracks_*_*', 'keep *_assocInOutConversionTracks_*_*', 'keep *_TTClusterAssociatorFromPixelDigis_*_*', 'keep *_TTStubAssociatorFromPixelDigis_*_*' ) ) process.SimTrackerPREMIX = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_simSiPixelDigis_*_*', 'keep *_simSiStripDigis_ZeroSuppressed_*', 'keep StripDigiSimLinkedmDetSetVector_simSiStripDigis_*_*', 'keep *_mix_AffectedAPVList_*' ) ) process.SimTrackerRAW = cms.PSet( outputCommands = cms.untracked.vstring('keep *_allTrackMCMatch_*_*') ) process.SimTrackerRECO = cms.PSet( outputCommands = cms.untracked.vstring('keep *_allTrackMCMatch_*_*') ) process.SubJetParameters = cms.PSet( nFilt = cms.int32(2), rcut_factor = cms.double(0.5), zcut = cms.double(0.1) ) process.TC_ME1234 = cms.PSet( SegmentSorting = cms.int32(1), chi2Max = cms.double(6000.0), chi2ndfProbMin = cms.double(0.0001), dPhiFineMax = cms.double(0.02), dPhiMax = cms.double(0.003), dRPhiFineMax = cms.double(6.0), dRPhiMax = cms.double(1.2), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True) ) process.TC_ME1A = cms.PSet( SegmentSorting = cms.int32(1), chi2Max = cms.double(6000.0), chi2ndfProbMin = cms.double(0.0001), dPhiFineMax = cms.double(0.013), dPhiMax = cms.double(0.00198), dRPhiFineMax = cms.double(3.0), dRPhiMax = cms.double(0.6), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True) ) process.TcdsEventContent = cms.PSet( outputCommands = cms.untracked.vstring('keep *_tcdsDigis_*_*') ) process.ThresholdPtTrajectoryFilter_block = cms.PSet( ComponentType = cms.string('ThresholdPtTrajectoryFilter'), minHitsThresholdPt = cms.int32(3), nSigmaThresholdPt = cms.double(5.0), thresholdPt = cms.double(10.0) ) process.TimingFillerBlock = cms.PSet( TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ) ) process.TrackAssociatorParameterBlock = cms.PSet( TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ) ) process.TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ) process.TrackerKinkFinderParametersBlock = cms.PSet( TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ) ) process.TrackingToolsAOD = cms.PSet( outputCommands = cms.untracked.vstring( 'keep recoTracks_GsfGlobalElectronTest_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*' ) ) process.TrackingToolsFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep *_electronGsfTracks_*_*' ) ) process.TrackingToolsRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*' ) ) process.TrajectoryBuilderForConversions = cms.PSet( ComponentType = cms.string('CkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), estimator = cms.string('eleLooseChi2'), intermediateCleaning = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(5), propagatorAlong = cms.string('alongMomElePropagator'), propagatorOpposite = cms.string('oppositeToMomElePropagator'), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('TrajectoryFilterForConversions') ), updator = cms.string('KFUpdator') ) process.TrajectoryBuilderForElectrons = cms.PSet( ComponentType = cms.string('CkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), estimator = cms.string('ElectronChi2'), intermediateCleaning = cms.bool(False), lostHitPenalty = cms.double(90.0), maxCand = cms.int32(5), propagatorAlong = cms.string('fwdGsfElectronPropagator'), propagatorOpposite = cms.string('bwdGsfElectronPropagator'), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('TrajectoryFilterForElectrons') ), updator = cms.string('KFUpdator') ) process.TrajectoryFilterForConversions = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), maxCCCLostHits = cms.int32(9999), maxConsecLostHits = cms.int32(1), maxLostHits = cms.int32(1), maxLostHitsFraction = cms.double(0.1), maxNumberOfHits = cms.int32(-1), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), minHitsMinPt = cms.int32(-1), 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.TrajectoryFilterForElectrons = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), maxCCCLostHits = cms.int32(9999), maxConsecLostHits = cms.int32(1), maxLostHits = cms.int32(1), maxLostHitsFraction = cms.double(0.1), maxNumberOfHits = cms.int32(-1), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), 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.ckfBaseInOutTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.ckfBaseTrajectoryFilterP5 = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), maxCCCLostHits = cms.int32(9999), maxConsecLostHits = cms.int32(3), maxLostHits = cms.int32(4), maxLostHitsFraction = cms.double(0.1), maxNumberOfHits = cms.int32(100), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), 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.ckfTrajectoryFilterBeamHaloMuon = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), maxCCCLostHits = cms.int32(9999), maxConsecLostHits = cms.int32(2), maxLostHits = cms.int32(3), maxLostHitsFraction = cms.double(0.1), maxNumberOfHits = cms.int32(100), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), 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.cleaningAlgoConfig = cms.PSet( cThreshold_barrel = cms.double(4), cThreshold_double = cms.double(10), cThreshold_endcap = cms.double(15), e4e1Threshold_barrel = cms.double(0.08), e4e1Threshold_endcap = cms.double(0.3), e4e1_a_barrel = cms.double(0.02), e4e1_a_endcap = cms.double(0.02), e4e1_b_barrel = cms.double(0.02), e4e1_b_endcap = cms.double(-0.0125), e6e2thresh = cms.double(0.04), ignoreOutOfTimeThresh = cms.double(1000000000.0), tightenCrack_e1_double = cms.double(2), tightenCrack_e1_single = cms.double(1), tightenCrack_e4e1_single = cms.double(2.5), tightenCrack_e6e2_double = cms.double(3) ) process.combinedSecondaryVertexCommon = 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), 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'), useTrackWeights = cms.bool(True), vertexFlip = cms.bool(False) ) process.configurationMetadata = cms.untracked.PSet( annotation = cms.untracked.string('myMasterRecoFile nevts:1'), name = cms.untracked.string('Applications'), version = cms.untracked.string('$Revision: 1.19 $') ) process.conv2CkfTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), clustersToSkip = cms.InputTag("conv2Clusters"), estimator = cms.string('Chi2'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), intermediateCleaning = cms.bool(True), keepOriginalIfRebuildFails = cms.bool(False), lockHits = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(2), minNrOfHitsForRebuild = cms.int32(3), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('conv2CkfTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.conv2CkfTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), maxCCCLostHits = cms.int32(9999), maxConsecLostHits = cms.int32(1), maxLostHits = cms.int32(1), maxLostHitsFraction = cms.double(0.1), maxNumberOfHits = cms.int32(100), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), 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.convCkfTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('convStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), intermediateCleaning = cms.bool(True), keepOriginalIfRebuildFails = cms.bool(False), lockHits = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(1), minNrOfHitsForRebuild = cms.int32(3), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('convCkfTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.convCkfTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), maxCCCLostHits = cms.int32(9999), maxConsecLostHits = cms.int32(1), maxLostHits = cms.int32(1), maxLostHitsFraction = cms.double(0.1), maxNumberOfHits = cms.int32(100), minGoodStripCharge = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), 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.cscRecHitDParameters = cms.PSet( ConstSyst_ME12 = cms.double(0.02), ConstSyst_ME13 = cms.double(0.03), ConstSyst_ME1a = cms.double(0.01), ConstSyst_ME1b = cms.double(0.02), ConstSyst_ME21 = cms.double(0.03), ConstSyst_ME22 = cms.double(0.03), ConstSyst_ME31 = cms.double(0.03), ConstSyst_ME32 = cms.double(0.03), ConstSyst_ME41 = cms.double(0.03), NoiseLevel_ME12 = cms.double(7.0), NoiseLevel_ME13 = cms.double(4.0), NoiseLevel_ME1a = cms.double(9.0), NoiseLevel_ME1b = cms.double(6.0), NoiseLevel_ME21 = cms.double(5.0), NoiseLevel_ME22 = cms.double(7.0), NoiseLevel_ME31 = cms.double(5.0), NoiseLevel_ME32 = cms.double(7.0), NoiseLevel_ME41 = cms.double(5.0), XTasymmetry_ME12 = cms.double(0.015), XTasymmetry_ME13 = cms.double(0.02), XTasymmetry_ME1a = cms.double(0.023), XTasymmetry_ME1b = cms.double(0.01), XTasymmetry_ME21 = cms.double(0.023), XTasymmetry_ME22 = cms.double(0.023), XTasymmetry_ME31 = cms.double(0.023), XTasymmetry_ME32 = cms.double(0.023), XTasymmetry_ME41 = cms.double(0.023) ) process.decayMode_1Prong0Pi0 = 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) ) process.decayMode_1Prong1Pi0 = 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(1.3, min(1.3*sqrt(pt/100.), 4.2))'), minMass = cms.double(0.3), nCharged = cms.uint32(1), nChargedPFCandsMin = cms.uint32(1), nPiZeros = cms.uint32(1), nTracksMin = cms.uint32(1) ) process.decayMode_1Prong2Pi0 = 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(1.2, min(1.2*sqrt(pt/100.), 4.0))'), maxPi0Mass = cms.double(0.2), minMass = cms.double(0.4), minPi0Mass = cms.double(0.05), nCharged = cms.uint32(1), nChargedPFCandsMin = cms.uint32(1), nPiZeros = cms.uint32(2), nTracksMin = cms.uint32(1) ) process.decayMode_2Prong0Pi0 = cms.PSet( applyBendCorrection = cms.PSet( eta = cms.bool(False), mass = cms.bool(False), phi = cms.bool(False) ), 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) ) process.decayMode_2Prong1Pi0 = cms.PSet( applyBendCorrection = cms.PSet( eta = cms.bool(False), mass = cms.bool(False), phi = cms.bool(False) ), maxMass = cms.string('max(1.2, min(1.2*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) ) process.decayMode_3Prong0Pi0 = cms.PSet( applyBendCorrection = cms.PSet( eta = cms.bool(False), mass = cms.bool(False), phi = cms.bool(False) ), maxMass = cms.string('1.5'), minMass = cms.double(0.8), nCharged = cms.uint32(3), nChargedPFCandsMin = cms.uint32(1), nPiZeros = cms.uint32(0), nTracksMin = cms.uint32(2) ) process.decayMode_3Prong1Pi0 = 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) ) process.detachedQuadStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('detachedQuadStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('detachedQuadStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.detachedQuadStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('detachedQuadStepTrajectoryFilterBase') )) ) process.detachedQuadStepTrajectoryFilterBase = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.detachedTripletStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('detachedTripletStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('detachedTripletStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.detachedTripletStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('detachedTripletStepTrajectoryFilterBase') )) ) process.detachedTripletStepTrajectoryFilterBase = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.detachedTripletStepTrajectoryFilterShape = 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.disc = cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('ccvsLight'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc")) ) process.dphiScale = cms.PSet( CSC_01_1_scale = cms.vdouble(-1.915329, 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_2_scale = cms.vdouble(-6.077936, 0.0), CSC_13_3_scale = cms.vdouble(-1.701268, 0.0), CSC_14_3_scale = cms.vdouble(-1.969563, 0.0), CSC_23_1_scale = cms.vdouble(-19.084285, 0.0), CSC_23_2_scale = cms.vdouble(-6.079917, 0.0), CSC_24_1_scale = cms.vdouble(-6.055701, 0.0), CSC_34_1_scale = cms.vdouble(-11.520507, 0.0), DT_12_1_scale = cms.vdouble(-3.692398, 0.0), DT_12_2_scale = cms.vdouble(-3.518165, 0.0), DT_13_1_scale = cms.vdouble(-4.520923, 0.0), DT_13_2_scale = cms.vdouble(-4.257687, 0.0), DT_14_1_scale = cms.vdouble(-5.644816, 0.0), DT_14_2_scale = cms.vdouble(-4.808546, 0.0), DT_23_1_scale = cms.vdouble(-5.320346, 0.0), DT_23_2_scale = cms.vdouble(-5.117625, 0.0), DT_24_1_scale = cms.vdouble(-7.490909, 0.0), DT_24_2_scale = cms.vdouble(-6.63094, 0.0), DT_34_1_scale = cms.vdouble(-13.783765, 0.0), DT_34_2_scale = cms.vdouble(-11.901897, 0.0), OL_1213_0_scale = cms.vdouble(-4.488158, 0.0), OL_1222_0_scale = cms.vdouble(-5.810449, 0.0), OL_1232_0_scale = cms.vdouble(-5.964634, 0.0), OL_2213_0_scale = cms.vdouble(-7.239789, 0.0), OL_2222_0_scale = cms.vdouble(-7.667231, 0.0), SMB_10_0_scale = cms.vdouble(2.448566, 0.0), SMB_11_0_scale = cms.vdouble(2.56363, 0.0), SMB_12_0_scale = cms.vdouble(2.283221, 0.0), SMB_20_0_scale = cms.vdouble(1.486168, 0.0), SMB_21_0_scale = cms.vdouble(1.58384, 0.0), SMB_22_0_scale = cms.vdouble(1.346681, 0.0), SMB_30_0_scale = cms.vdouble(-3.629838, 0.0), SMB_31_0_scale = cms.vdouble(-3.323768, 0.0), SMB_32_0_scale = cms.vdouble(-3.054156, 0.0), SME_11_0_scale = cms.vdouble(1.325085, 0.0), SME_12_0_scale = cms.vdouble(2.279181, 0.0), SME_13_0_scale = cms.vdouble(0.104905, 0.0), SME_21_0_scale = cms.vdouble(-0.040862, 0.0), SME_22_0_scale = cms.vdouble(-3.457901, 0.0) ) process.ecalDrivenElectronSeedsParameters = cms.PSet( DeltaPhi1High = cms.double(0.08), DeltaPhi1Low = cms.double(0.23), DeltaPhi2B = cms.double(0.008), DeltaPhi2F = cms.double(0.012), HGCalConfig = cms.PSet( HGCBHInput = cms.InputTag("HGCalRecHit","HGCHEBRecHits"), HGCEEInput = cms.InputTag("HGCalRecHit","HGCEERecHits"), HGCFHInput = cms.InputTag("HGCalRecHit","HGCHEFRecHits") ), HighPtThreshold = cms.double(35.0), LowPtThreshold = cms.double(5.0), PhiMax2B = cms.double(0.002), PhiMax2F = cms.double(0.003), PhiMin2B = cms.double(-0.002), PhiMin2F = cms.double(-0.003), SCEtCut = cms.double(15.0), SizeWindowENeg = cms.double(0.675), allowHGCal = cms.bool(False), applyHOverECut = cms.bool(True), applySigmaIEtaIEtaCut = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), deltaZ1WithVertex = cms.double(25.0), dynamicPhiRoad = cms.bool(True), ePhiMax1 = cms.double(0.075), ePhiMin1 = cms.double(-0.125), fromTrackerSeeds = cms.bool(True), hOverEConeSize = cms.double(0.15), hOverEHBMinE = cms.double(0.7), hOverEHFMinE = cms.double(0.8), hOverEPtMin = cms.double(0.0), hcalRecHits = cms.InputTag("hbhereco"), hcalTowers = cms.InputTag("towerMaker"), initialSeeds = cms.InputTag("newCombinedSeeds"), maxHBarrel = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEEndcaps = cms.double(0.15), maxSigmaIEtaIEtaBarrel = cms.double(0.5), maxSigmaIEtaIEtaEndcaps = cms.double(0.5), measurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), measurementTrackerName = cms.string(''), nSigmasDeltaZ1 = cms.double(5.0), pPhiMax1 = cms.double(0.125), pPhiMin1 = cms.double(-0.075), preFilteredSeeds = cms.bool(False), r2MaxF = cms.double(0.15), r2MinF = cms.double(-0.15), rMaxI = cms.double(0.2), rMinI = cms.double(-0.2), searchInTIDTEC = cms.bool(True), useRecoVertex = cms.bool(False), vertices = cms.InputTag("offlinePrimaryVerticesWithBS"), z2MaxB = cms.double(0.09), z2MinB = cms.double(-0.09) ) process.ecalLocalRecoAOD = cms.PSet( outputCommands = cms.untracked.vstring() ) process.ecalLocalRecoFEVT = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ecalMultiFitUncalibRecHit_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*' ) ) process.ecalLocalRecoRECO = cms.PSet( outputCommands = cms.untracked.vstring( 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep EBSrFlagsSorted_ecalDigis__*', 'keep EESrFlagsSorted_ecalDigis__*' ) ) process.ecal_digi_parameters = 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 ), 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 ), EEdigiCollection = cms.string(''), ESdigiCollection = cms.string(''), EcalPreMixStage1 = cms.bool(False), EcalPreMixStage2 = cms.bool(False), UseLCcorrection = cms.untracked.bool(True) ) process.ecal_pulse_shape_covariances = cms.PSet( 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 ), 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 ) ) process.ecal_pulse_shape_parameters = 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) ) process.ecal_pulse_shape_templates = cms.PSet( 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 ), 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 ) ) process.ecal_time_digi_parameters = cms.PSet( EBtimeDigiCollection = cms.string('EBTimeDigi'), EEtimeDigiCollection = cms.string('EETimeDigi'), hitsProducerEB = cms.InputTag("g4SimHits","EcalHitsEB"), hitsProducerEE = cms.InputTag("g4SimHits","EcalHitsEE"), timeLayerBarrel = cms.int32(7), timeLayerEndcap = cms.int32(3) ) process.ghostTrackCommon = cms.PSet( charmCut = cms.double(1.5), minimumTrackWeight = cms.double(0.5), trackPairV0Filter = cms.PSet( k0sMassWindow = cms.double(0.03) ), 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') ) process.ghostTrackVertexRecoBlock = cms.PSet( vertexReco = cms.PSet( finder = cms.string('gtvr'), fitType = cms.string('RefitGhostTrackWithVertices'), maxFitChi2 = cms.double(10.0), mergeThreshold = cms.double(3.0), primcut = cms.double(2.0), seccut = cms.double(4.0) ) ) process.hfnoseDigitizer = cms.PSet( accumulatorType = cms.string('HGCDigiProducer'), bxTime = cms.double(25), digiCfg = cms.PSet( chargeCollectionEfficiencies = cms.PSet( refToPSet_ = cms.string('HGCAL_chargeCollectionEfficiencies') ), doTimeSamples = cms.bool(False), feCfg = cms.PSet( adcNbits = cms.uint32(10), adcPulse = cms.vdouble( 0.0, 0.017, 0.817, 0.163, 0.003, 0.0 ), adcSaturation_fC = cms.double(100), adcThreshold_fC = cms.double(0.672), fwVersion = cms.uint32(2), jitterConstant_ns = cms.vdouble(0.0004, 0.0004, 0.0004), jitterNoise_ns = cms.vdouble(25.0, 25.0, 25.0), pulseAvgT = cms.vdouble( 0.0, 23.42298, 13.16733, 6.41062, 5.03946, 4.532 ), tdcChargeDrainParameterisation = cms.vdouble( -919.13, 365.36, -14.1, 0.2, -21.85, 49.39, 22.21, 0.8, -0.28, 27.14, 43.95, 3.89048 ), tdcForToAOnset_fC = cms.vdouble(12.0, 12.0, 12.0), tdcNbits = cms.uint32(12), tdcOnset_fC = cms.double(60), tdcResolutionInPs = cms.double(0.001), tdcSaturation_fC = cms.double(10000), thresholdFollowsMIP = cms.bool(False), toaLSB_ns = cms.double(0.0244), toaMode = cms.uint32(1) ), keV2fC = cms.double(0.044259), noise_fC = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_fC') ) ), digiCollection = cms.string('HFNoseDigis'), digitizationType = cms.uint32(0), eVPerEleHolePair = cms.double(3.62), geometryType = cms.uint32(0), hitCollection = cms.string('HFNoseHits'), makeDigiSimLinks = cms.bool(False), maxSimHitsAccTime = cms.uint32(100), premixStage1 = cms.bool(False), premixStage1MaxCharge = cms.double(1000000.0), premixStage1MinCharge = cms.double(0), tofDelay = cms.double(5), useAllChannels = cms.bool(True), verbosity = cms.untracked.uint32(0) ) process.hgceeDigitizer = cms.PSet( accumulatorType = cms.string('HGCDigiProducer'), bxTime = cms.double(25), digiCfg = cms.PSet( chargeCollectionEfficiencies = cms.PSet( refToPSet_ = cms.string('HGCAL_chargeCollectionEfficiencies') ), doTimeSamples = cms.bool(False), feCfg = cms.PSet( adcNbits = cms.uint32(10), adcPulse = cms.vdouble( 0.0, 0.017, 0.817, 0.163, 0.003, 0.0 ), adcSaturation_fC = cms.double(100), adcThreshold_fC = cms.double(0.672), fwVersion = cms.uint32(2), jitterConstant_ns = cms.vdouble(0.0004, 0.0004, 0.0004), jitterNoise_ns = cms.vdouble(25.0, 25.0, 25.0), pulseAvgT = cms.vdouble( 0.0, 23.42298, 13.16733, 6.41062, 5.03946, 4.532 ), tdcChargeDrainParameterisation = cms.vdouble( -919.13, 365.36, -14.1, 0.2, -21.85, 49.39, 22.21, 0.8, -0.28, 27.14, 43.95, 3.89048 ), tdcForToAOnset_fC = cms.vdouble(12.0, 12.0, 12.0), tdcNbits = cms.uint32(12), tdcOnset_fC = cms.double(60), tdcResolutionInPs = cms.double(0.001), tdcSaturation_fC = cms.double(10000), thresholdFollowsMIP = cms.bool(False), toaLSB_ns = cms.double(0.0244), toaMode = cms.uint32(1) ), keV2fC = cms.double(0.044259), noise_fC = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_fC') ) ), digiCollection = cms.string('HGCDigisEE'), digitizationType = cms.uint32(0), eVPerEleHolePair = cms.double(3.62), geometryType = cms.uint32(0), hitCollection = cms.string('HGCHitsEE'), makeDigiSimLinks = cms.bool(False), maxSimHitsAccTime = cms.uint32(100), premixStage1 = cms.bool(False), premixStage1MaxCharge = cms.double(1000000.0), premixStage1MinCharge = cms.double(0), tofDelay = cms.double(5), useAllChannels = cms.bool(True), verbosity = cms.untracked.uint32(0) ) process.hgchebackDigitizer = cms.PSet( accumulatorType = cms.string('HGCDigiProducer'), bxTime = cms.double(25), digiCfg = cms.PSet( doTimeSamples = cms.bool(False), feCfg = cms.PSet( adcNbits = cms.uint32(12), adcSaturation_fC = cms.double(1024.0), adcThreshold_fC = cms.double(0.5), fwVersion = cms.uint32(0), thresholdFollowsMIP = cms.bool(False) ), keV2MIP = cms.double(0.00162337662338), nPEperMIP = cms.double(11.0), nTotalPE = cms.double(1156), noise_MIP = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_MIP') ), sdPixels = cms.double(1e-06), xTalk = cms.double(0.25) ), digiCollection = cms.string('HGCDigisHEback'), digitizationType = cms.uint32(1), geometryType = cms.uint32(0), hitCollection = cms.string('HcalHits'), makeDigiSimLinks = cms.bool(False), maxSimHitsAccTime = cms.uint32(100), premixStage1 = cms.bool(False), premixStage1MaxCharge = cms.double(1000000.0), premixStage1MinCharge = cms.double(0), tofDelay = cms.double(1), useAllChannels = cms.bool(True), verbosity = cms.untracked.uint32(0) ) process.hgchefrontDigitizer = cms.PSet( accumulatorType = cms.string('HGCDigiProducer'), bxTime = cms.double(25), digiCfg = cms.PSet( chargeCollectionEfficiencies = cms.PSet( refToPSet_ = cms.string('HGCAL_chargeCollectionEfficiencies') ), doTimeSamples = cms.bool(False), feCfg = cms.PSet( adcNbits = cms.uint32(10), adcPulse = cms.vdouble( 0.0, 0.017, 0.817, 0.163, 0.003, 0.0 ), adcSaturation_fC = cms.double(100), adcThreshold_fC = cms.double(0.672), fwVersion = cms.uint32(2), jitterConstant_ns = cms.vdouble(0.0004, 0.0004, 0.0004), jitterNoise_ns = cms.vdouble(25.0, 25.0, 25.0), pulseAvgT = cms.vdouble( 0.0, 23.42298, 13.16733, 6.41062, 5.03946, 4.532 ), tdcChargeDrainParameterisation = cms.vdouble( -919.13, 365.36, -14.1, 0.2, -21.85, 49.39, 22.21, 0.8, -0.28, 27.14, 43.95, 3.89048 ), tdcForToAOnset_fC = cms.vdouble(12.0, 12.0, 12.0), tdcNbits = cms.uint32(12), tdcOnset_fC = cms.double(60), tdcResolutionInPs = cms.double(0.001), tdcSaturation_fC = cms.double(10000), thresholdFollowsMIP = cms.bool(False), toaLSB_ns = cms.double(0.0244), toaMode = cms.uint32(1) ), keV2fC = cms.double(0.044259), noise_fC = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_fC') ) ), digiCollection = cms.string('HGCDigisHEfront'), digitizationType = cms.uint32(0), geometryType = cms.uint32(0), hitCollection = cms.string('HGCHitsHEfront'), makeDigiSimLinks = cms.bool(False), maxSimHitsAccTime = cms.uint32(100), premixStage1 = cms.bool(False), premixStage1MaxCharge = cms.double(1000000.0), premixStage1MinCharge = cms.double(0), tofDelay = cms.double(5), useAllChannels = cms.bool(True), verbosity = cms.untracked.uint32(0) ) process.highPtTripletStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('highPtTripletStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('highPtTripletStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.highPtTripletStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('highPtTripletStepTrajectoryFilterBase') )) ) process.highPtTripletStepTrajectoryFilterBase = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.highPtTripletStepTrajectoryFilterInOut = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), minHitsMinPt = cms.int32(3), minNumberOfHitsForLoopers = cms.int32(13), minNumberOfHitsPerLoop = cms.int32(4), minPt = cms.double(0.4), 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.iPSet = cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedGsfElectronsTmp"), vertexIndex = cms.int32(0) ) process.initialStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('initialStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.initialStepTrajectoryBuilderPreSplitting = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('initialStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_block') ), intermediateCleaning = cms.bool(True), keepOriginalIfRebuildFails = cms.bool(False), lockHits = cms.bool(True), lostHitPenalty = cms.double(30.0), maxCand = cms.int32(3), minNrOfHitsForRebuild = cms.int32(5), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryFilterPreSplitting') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.initialStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryFilterBase') )) ) process.initialStepTrajectoryFilterBase = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.initialStepTrajectoryFilterBasePreSplitting = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.initialStepTrajectoryFilterInOut = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), minHitsMinPt = cms.int32(3), minNumberOfHitsForLoopers = cms.int32(13), minNumberOfHitsPerLoop = cms.int32(4), minPt = cms.double(0.6), minimumNumberOfHits = cms.int32(4), nSigmaMinPt = cms.double(5.0), pixelSeedExtension = cms.bool(True), seedExtension = cms.int32(1), seedPairPenalty = cms.int32(0), strictSeedExtension = cms.bool(True) ) process.initialStepTrajectoryFilterPreSplitting = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet( cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryFilterBasePreSplitting') ), cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryFilterShapePreSplitting') ) ) ) process.initialStepTrajectoryFilterShape = 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.initialStepTrajectoryFilterShapePreSplitting = 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.interestingEgammaIsoHCALSel = cms.PSet( maxDIEta = cms.int32(5), maxDIPhi = cms.int32(5), minEnergyHB = cms.double(0.8), minEnergyHEDefault = cms.double(0.2), minEnergyHEDepth1 = cms.double(0.1) ) process.isolationSumsCalculator = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ) process.j2tParametersCALO = cms.PSet( coneSize = cms.double(0.4), extrapolations = cms.InputTag("trackExtrapolator"), trackQuality = cms.string('goodIterative'), tracks = cms.InputTag("generalTracks") ) process.j2tParametersVX = cms.PSet( coneSize = cms.double(0.4), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.jetCoreRegionalStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('jetCoreRegionalStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('jetCoreRegionalStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.jetCoreRegionalStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.layerInfo = cms.PSet( TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), maxRing = cms.int32(7), minRing = cms.int32(6), useRingSlector = cms.bool(False) ), TOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ) ) ) process.leadTrackFinding = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) process.lowPtQuadStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('lowPtQuadStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('lowPtQuadStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.lowPtQuadStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('lowPtQuadStepTrajectoryFilterBase') )) ) process.lowPtQuadStepTrajectoryFilterBase = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.lowPtTripletStepStandardTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.lowPtTripletStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('lowPtTripletStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('lowPtTripletStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.lowPtTripletStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('lowPtTripletStepStandardTrajectoryFilter') )) ) process.lowPtTripletStepTrajectoryFilterInOut = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), minHitsMinPt = cms.int32(3), minNumberOfHitsForLoopers = cms.int32(13), minNumberOfHitsPerLoop = cms.int32(4), minPt = cms.double(0.49), 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.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(options.maxEvents) ) process.mipVariable = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ) process.mixedTripletStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('mixedTripletStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('mixedTripletStepPropagator'), propagatorOpposite = cms.string('mixedTripletStepPropagatorOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('mixedTripletStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.mixedTripletStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(1.4), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.muonSeededTrajectoryBuilderForInOut = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('muonSeededMeasurementEstimatorForInOut'), foundHitBonus = cms.double(1000.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryFilterForInOut') ), 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), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryFilterForInOut') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.muonSeededTrajectoryBuilderForOutIn = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('muonSeededMeasurementEstimatorForOutIn'), foundHitBonus = cms.double(1000.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryFilterForOutIn') ), intermediateCleaning = cms.bool(True), keepOriginalIfRebuildFails = cms.bool(False), lockHits = cms.bool(True), lostHitPenalty = cms.double(1.0), maxCand = cms.int32(3), minNrOfHitsForRebuild = cms.int32(5), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryFilterForOutIn') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.muonSeededTrajectoryBuilderForOutInDisplaced = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('muonSeededMeasurementEstimatorForOutInDisplaced'), foundHitBonus = cms.double(1000.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryFilterForOutInDisplaced') ), intermediateCleaning = cms.bool(True), keepOriginalIfRebuildFails = cms.bool(False), lockHits = cms.bool(True), lostHitPenalty = cms.double(1.0), maxCand = cms.int32(3), minNrOfHitsForRebuild = cms.int32(5), propagatorAlong = cms.string('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryFilterForOutInDisplaced') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.muonSeededTrajectoryFilterForInOut = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(10), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.muonSeededTrajectoryFilterForOutIn = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(10), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.muonSeededTrajectoryFilterForOutInDisplaced = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(10), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.noPrediscriminants = cms.PSet( BooleanOperator = cms.string('and') ) process.options = cms.untracked.PSet( canDeleteEarly = cms.untracked.vstring( 'recoIsoDepositedmValueMap_elPFIsoDepositNeutral__RECO', 'IntermediateHitDoublets_lowPtTripletStepHitDoublets__RECO', 'IntermediateHitDoublets_hiConformalPixelTracksHitDoublets__RECO', 'recoIsoDepositedmValueMap_phPFIsoDepositChargedAll__RECO', 'IntermediateHitDoublets_mixedTripletStepHitDoubletsA__RECO', 'IntermediateHitDoublets_initialStepHitDoublets__RECO', 'RegionsSeedingHitSets_initialStepHitQuadruplets__RECO', 'RegionsSeedingHitSets_tobTecStepHitDoubletsPair__RECO', 'IntermediateHitDoublets_pixelTracksHitDoublets__RECO', 'IntermediateHitDoublets_tripletElectronHitDoublets__RECO', 'IntermediateHitDoublets_lowPtQuadStepHitDoublets__RECO', 'recoIsoDepositedmValueMap_gedElPFIsoDepositCharged__RECO', 'recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO', 'recoIsoDepositedmValueMap_elPFIsoDepositPU__RECO', 'IntermediateHitDoublets_highPtTripletStepHitDoublets__RECO', 'BaseTrackerRecHitsOwned_tobTecStepHitTripletsTripl__RECO', 'recoIsoDepositedmValueMap_elPFIsoDepositChargedAll__RECO', 'recoIsoDepositedmValueMap_elEDIsoDepositChargedAll__RECO', 'recoIsoDepositedmValueMap_elEDIsoDepositNeutral__RECO', 'recoIsoDepositedmValueMap_elEDIsoDepositPU__RECO', 'recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO', 'recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO', 'RegionsSeedingHitSets_pixelPairStepHitDoubletsB__RECO', 'IntermediateHitDoublets_pixelLessStepHitDoublets__RECO', 'RegionsSeedingHitSets_hiConformalPixelTracksHitTriplets__RECO', 'RegionsSeedingHitSets_pixelTracksHitQuadruplets__RECO', 'recoIsoDepositedmValueMap_gedElPFIsoDepositGamma__RECO', 'IntermediateHitDoublets_initialStepHitDoubletsPreSplitting__RECO', 'recoIsoDepositedmValueMap_elEDIsoDepositCharged__RECO', 'RegionsSeedingHitSets_initialStepHitTriplets__RECO', 'recoIsoDepositedmValueMap_phPFIsoDepositCharged__RECO', 'recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO', 'recoIsoDepositedmValueMap_gedElPFIsoDepositPU__RECO', 'RegionsSeedingHitSets_tripletElectronHitTriplets__RECO', 'IntermediateHitDoublets_detachedQuadStepHitDoublets__RECO', 'recoIsoDepositedmValueMap_phPFIsoDepositPU__RECO', 'recoIsoDepositedmValueMap_elPFIsoDepositGamma__RECO', 'RegionsSeedingHitSets_pixelTracksHitTriplets__RECO', 'recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO', 'RegionsSeedingHitSets_tobTecStepHitTripletsTripl__RECO', 'recoIsoDepositedmValueMap_elPFIsoDepositCharged__RECO', 'RegionsSeedingHitSets_mixedTripletStepHitTripletsA__RECO', 'RegionsSeedingHitSets_hiConformalPixelTracksPhase1HitQuadrupletsCA__RECO', 'IntermediateHitDoublets_tobTecStepHitDoubletsTripl__RECO', 'RegionsSeedingHitSets_detachedTripletStepHitTriplets__RECO', 'BaseTrackerRecHitsOwned_pixelLessStepHitTriplets__RECO', 'recoIsoDepositedmValueMap_gedElPFIsoDepositNeutral__RECO', 'RegionsSeedingHitSets_lowPtTripletStepHitTriplets__RECO', 'IntermediateHitDoublets_mixedTripletStepHitDoubletsB__RECO', 'RegionsSeedingHitSets_mixedTripletStepHitTripletsB__RECO', 'RegionsSeedingHitSets_initialStepHitTripletsPreSplitting__RECO', 'RegionsSeedingHitSets_stripPairElectronHitDoublets__RECO', 'recoIsoDepositedmValueMap_phPFIsoDepositNeutral__RECO', 'RegionsSeedingHitSets_pixelPairElectronHitDoublets__RECO', 'recoIsoDepositedmValueMap_elEDIsoDepositGamma__RECO', 'RegionsSeedingHitSets_pixelLessStepHitTriplets__RECO', 'RegionsSeedingHitSets_initialStepHitQuadrupletsPreSplitting__RECO', 'RegionsSeedingHitSets_jetCoreRegionalStepHitDoublets__RECO', 'recoIsoDepositedmValueMap_gedElPFIsoDepositChargedAll__RECO', 'recoIsoDepositedmValueMap_phPFIsoDepositGamma__RECO', 'IntermediateHitDoublets_hiConformalPixelTracksPhase1HitDoubletsCA__RECO', 'RegionsSeedingHitSets_pixelPairStepHitDoublets__RECO', 'RegionsSeedingHitSets_detachedQuadStepHitQuadruplets__RECO', 'RegionsSeedingHitSets_lowPtQuadStepHitQuadruplets__RECO', 'RegionsSeedingHitSets_highPtTripletStepHitTriplets__RECO', 'IntermediateHitDoublets_detachedTripletStepHitDoublets__RECO' ), numberOfStreams = cms.untracked.uint32(0), numberOfThreads = cms.untracked.uint32(8) ) process.pfBlockBasedIsolation = cms.PSet( ComponentName = cms.string('pfBlockBasedIsolation'), coneSize = cms.double(9999999999) ) process.pfDeepBoostedJetPreprocessParams = cms.PSet( input_names = cms.vstring( 'pfcand', 'sv' ), pfcand = cms.PSet( input_shape = cms.vuint32(1, 42, 100, 1), var_infos = cms.PSet( pfcand_VTX_ass = cms.PSet( median = cms.double(7.0), upper = cms.double(7.0) ), pfcand_abseta = cms.PSet( median = cms.double(0.599505603313), upper = cms.double(1.21494185925) ), pfcand_btagEtaRel = cms.PSet( median = cms.double(0.0), upper = cms.double(3.23048327446) ), pfcand_btagJetDistVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_btagPParRatio = cms.PSet( median = cms.double(0.0), upper = cms.double(0.997295975685) ), pfcand_btagPtRatio = cms.PSet( median = cms.double(0.0), upper = cms.double(0.174372568727) ), pfcand_btagSip2dSig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.565274050236) ), pfcand_btagSip2dVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00165283482056) ), pfcand_btagSip3dSig = cms.PSet( median = cms.double(0.0), upper = cms.double(1.03450630188) ), pfcand_btagSip3dVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00417172765359) ), pfcand_charge = cms.PSet( median = cms.double(0.0), upper = cms.double(1.0) ), pfcand_deltaR = cms.PSet( median = cms.double(0.22575956583), upper = cms.double(0.488191870451) ), pfcand_detadeta = cms.PSet( median = cms.double(0.0), upper = cms.double(5.08303287461e-07) ), pfcand_dlambdadz = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_dphidphi = cms.PSet( median = cms.double(0.0), upper = cms.double(7.63271316373e-07) ), pfcand_dphidxy = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_dptdpt = cms.PSet( median = cms.double(0.0), upper = cms.double(6.11870564171e-06) ), pfcand_drminsv = cms.PSet( median = cms.double(0.177426457405), upper = cms.double(0.555181086063) ), pfcand_drsubjet1 = cms.PSet( median = cms.double(0.231124095619), upper = cms.double(0.549522156715) ), pfcand_drsubjet2 = cms.PSet( median = cms.double(0.263272643089), upper = cms.double(0.605471189022) ), pfcand_dxy = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00254638679326) ), pfcand_dxydxy = cms.PSet( median = cms.double(0.0), upper = cms.double(2.14965821215e-05) ), pfcand_dxydz = cms.PSet( median = cms.double(0.0), upper = cms.double(1.31130221348e-07) ), pfcand_dxysig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.496566288471) ), pfcand_dz = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00448730448261) ), pfcand_dzdz = cms.PSet( median = cms.double(0.0), upper = cms.double(3.40332044289e-05) ), pfcand_dzsig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.596591930389) ), pfcand_erel_log = cms.PSet( median = cms.double(-5.38983869553), upper = cms.double(-3.53490426064) ), pfcand_etarel = cms.PSet( median = cms.double(-0.0054658302106), upper = cms.double(0.174858552814) ), pfcand_hcalFrac = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isChargedHad = cms.PSet( median = cms.double(1.0), upper = cms.double(1.0) ), pfcand_isEl = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isGamma = cms.PSet( median = cms.double(0.0), upper = cms.double(1.0) ), pfcand_isMu = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isNeutralHad = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_lostInnerHits = cms.PSet( median = cms.double(-1.0), upper = cms.double(-1.0) ), pfcand_normchi2 = cms.PSet( median = cms.double(999.0), upper = cms.double(999.0) ), pfcand_phirel = cms.PSet( median = cms.double(-5.10289683007e-05), upper = cms.double(0.215602903366) ), pfcand_pt_log = cms.PSet( median = cms.double(1.09469842911), upper = cms.double(3.02194809914) ), pfcand_ptrel_log = cms.PSet( median = cms.double(-5.38205528259), upper = cms.double(-3.52304198265) ), pfcand_puppiw = cms.PSet( median = cms.double(1.0), upper = cms.double(1.0) ), pfcand_quality = cms.PSet( median = cms.double(0.0), upper = cms.double(5.0) ) ), var_length = cms.uint32(100), var_names = cms.vstring( 'pfcand_pt_log', 'pfcand_ptrel_log', 'pfcand_erel_log', 'pfcand_phirel', 'pfcand_etarel', 'pfcand_deltaR', 'pfcand_abseta', 'pfcand_puppiw', 'pfcand_drminsv', 'pfcand_drsubjet1', 'pfcand_drsubjet2', 'pfcand_charge', 'pfcand_isMu', 'pfcand_isEl', 'pfcand_isChargedHad', 'pfcand_isGamma', 'pfcand_isNeutralHad', 'pfcand_hcalFrac', 'pfcand_VTX_ass', 'pfcand_lostInnerHits', 'pfcand_normchi2', 'pfcand_quality', 'pfcand_dz', 'pfcand_dzsig', 'pfcand_dxy', 'pfcand_dxysig', 'pfcand_dptdpt', 'pfcand_detadeta', 'pfcand_dphidphi', 'pfcand_dxydxy', 'pfcand_dzdz', 'pfcand_dxydz', 'pfcand_dphidxy', 'pfcand_dlambdadz', 'pfcand_btagEtaRel', 'pfcand_btagPtRatio', 'pfcand_btagPParRatio', 'pfcand_btagSip2dVal', 'pfcand_btagSip2dSig', 'pfcand_btagSip3dVal', 'pfcand_btagSip3dSig', 'pfcand_btagJetDistVal' ) ), sv = cms.PSet( input_shape = cms.vuint32(1, 15, 7, 1), var_infos = cms.PSet( sv_abseta = cms.PSet( median = cms.double(0.579698801041), upper = cms.double(1.2257443285) ), sv_costhetasvpv = cms.PSet( median = cms.double(0.999744534492), upper = cms.double(0.999992311001) ), sv_d3d = cms.PSet( median = cms.double(0.496477723122), upper = cms.double(4.83165483475) ), sv_d3dsig = cms.PSet( median = cms.double(6.50515079498), upper = cms.double(36.9069334412) ), sv_deltaR = cms.PSet( median = cms.double(0.105607174337), upper = cms.double(0.323846782446) ), sv_dxy = cms.PSet( median = cms.double(0.369336694479), upper = cms.double(3.97735537529) ), sv_dxysig = cms.PSet( median = cms.double(6.49603271484), upper = cms.double(36.8943783569) ), sv_erel_log = cms.PSet( median = cms.double(-2.77275466919), upper = cms.double(-1.7486346817) ), sv_etarel = cms.PSet( median = cms.double(-0.00318800867535), upper = cms.double(0.0951088288426) ), sv_mass = cms.PSet( median = cms.double(1.36728298664), upper = cms.double(4.75960615158) ), sv_normchi2 = cms.PSet( median = cms.double(0.796081960201), upper = cms.double(2.15187430382) ), sv_ntracks = cms.PSet( median = cms.double(3.0), upper = cms.double(5.0) ), sv_phirel = cms.PSet( median = cms.double(0.000510219600983), upper = cms.double(0.110185634494) ), sv_pt_log = cms.PSet( median = cms.double(3.77797603607), upper = cms.double(4.90166530609) ), sv_ptrel_log = cms.PSet( median = cms.double(-2.7622461319), upper = cms.double(-1.73727185726) ) ), var_length = cms.uint32(7), var_names = cms.vstring( 'sv_pt_log', 'sv_ptrel_log', 'sv_erel_log', 'sv_phirel', 'sv_etarel', 'sv_deltaR', 'sv_abseta', 'sv_mass', 'sv_ntracks', 'sv_normchi2', 'sv_dxy', 'sv_dxysig', 'sv_d3d', 'sv_d3dsig', 'sv_costhetasvpv' ) ) ) process.pfElecMva = cms.PSet( MVACut = cms.double(-1.0) ) process.pfIsolationCalculator = cms.PSet( ComponentName = cms.string('pfIsolationCalculator'), applyDzDxyVeto = cms.bool(True), applyMissHitPhVeto = cms.bool(False), applyPFPUVeto = cms.bool(True), applyVeto = cms.bool(True), checkClosestZVertex = cms.bool(True), coneDR = cms.double(0.3), deltaRVetoBarrel = cms.bool(True), deltaRVetoBarrelCharged = cms.double(0.02), deltaRVetoBarrelNeutrals = cms.double(-1.0), deltaRVetoBarrelPhotons = cms.double(-1.0), deltaRVetoEndcap = cms.bool(True), deltaRVetoEndcapCharged = cms.double(0.02), deltaRVetoEndcapNeutrals = cms.double(-1.0), deltaRVetoEndcapPhotons = cms.double(0.07), numberOfCrystalEndcapPhotons = cms.double(4.0), numberOfRings = cms.int32(1), particleType = cms.int32(1), rectangleDeltaEtaVetoBarrelCharged = cms.double(-1), rectangleDeltaEtaVetoBarrelNeutrals = cms.double(-1), rectangleDeltaEtaVetoBarrelPhotons = cms.double(0.015), rectangleDeltaEtaVetoEndcapCharged = cms.double(-1), rectangleDeltaEtaVetoEndcapNeutrals = cms.double(-1), rectangleDeltaEtaVetoEndcapPhotons = cms.double(-1), rectangleDeltaPhiVetoBarrelCharged = cms.double(-1), rectangleDeltaPhiVetoBarrelNeutrals = cms.double(-1), rectangleDeltaPhiVetoBarrelPhotons = cms.double(1.0), rectangleDeltaPhiVetoEndcapCharged = cms.double(-1), rectangleDeltaPhiVetoEndcapNeutrals = cms.double(-1), rectangleDeltaPhiVetoEndcapPhotons = cms.double(-1), rectangleVetoBarrel = cms.bool(True), rectangleVetoEndcap = cms.bool(False), ringSize = cms.double(0.3), useCrystalSize = cms.bool(True) ) process.pixelLessStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(False), bestHitOnly = cms.bool(True), estimator = cms.string('pixelLessStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('CkfBaseTrajectoryFilter_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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('pixelLessStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(True) ) process.pixelLessStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.pixelPairStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(True), bestHitOnly = cms.bool(True), estimator = cms.string('pixelPairStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('pixelPairStepTrajectoryFilterInOut') ), 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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('pixelPairStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(False) ) process.pixelPairStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CompositeTrajectoryFilter'), filters = cms.VPSet(cms.PSet( refToPSet_ = cms.string('pixelPairStepTrajectoryFilterBase') )) ) process.pixelPairStepTrajectoryFilterBase = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.pixelPairStepTrajectoryFilterInOut = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutLoose') ), 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.pixelPairStepTrajectoryFilterShape = 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.ptSeedParameterization = cms.PSet( CSC_01 = cms.vdouble( 0.155906, -0.000406, 0.0, 0.194022, -0.010181, 0.0 ), CSC_02 = cms.vdouble( 0.600235, -0.205683, 0.001113, 0.655625, -0.682129, 0.253916 ), CSC_03 = cms.vdouble( 0.498992, -0.086235, -0.025772, 2.761006, -2.667607, 0.72802 ), CSC_12 = cms.vdouble( -0.363549, 0.569552, -0.173186, 7.777069, -10.203618, 3.478874 ), CSC_13 = cms.vdouble( 1.22495, -1.792358, 0.711378, 5.271848, -6.280625, 2.0142 ), CSC_14 = cms.vdouble( 0.952517, -0.532733, 0.084601, 1.615881, -1.630744, 0.514139 ), CSC_23 = cms.vdouble( -0.095236, 0.122061, -0.029852, -11.396689, 15.933598, -4.267065 ), CSC_24 = cms.vdouble( -0.049769, 0.063087, -0.011029, -13.765978, 16.296143, -4.241835 ), CSC_34 = cms.vdouble( 0.144321, -0.142283, 0.035636, 190.260708, -180.888643, 43.430395 ), DT_12 = cms.vdouble( 0.176182, 0.058535, -0.090549, 0.202363, -0.203126, 0.222219 ), DT_13 = cms.vdouble( 0.298842, 0.076531, -0.14293, 0.219923, -0.145026, 0.155638 ), DT_14 = cms.vdouble( 0.388423, 0.068698, -0.145925, 0.159515, 0.124299, -0.133269 ), DT_23 = cms.vdouble( 0.120647, 0.034743, -0.070855, 0.302427, -0.21417, 0.261012 ), DT_24 = cms.vdouble( 0.189527, 0.037328, -0.088523, 0.251936, 0.032411, 0.010984 ), DT_34 = cms.vdouble( 0.049146, -0.003494, -0.010099, 0.672095, 0.36459, -0.304346 ), OL_1213 = cms.vdouble( 0.960544, -0.75644, 0.0, 0.1636, 0.114178, 0.0 ), OL_1222 = cms.vdouble( 0.215915, 0.002556, 0.0, 0.313596, -0.021465, 0.0 ), OL_1232 = cms.vdouble( 0.162626, 0.000843, 0.0, 0.396271, 0.002791, 0.0 ), OL_2213 = cms.vdouble( 0.563218, -0.493991, 0.0, 0.943776, -0.591751, 0.0 ), OL_2222 = cms.vdouble( 0.087587, 0.005729, 0.0, 0.535169, -0.087675, 0.0 ), SMB_10 = cms.vdouble( 1.160532, 0.148991, 0.0, 0.182785, -0.093776, 0.0 ), SMB_11 = cms.vdouble( 1.289468, -0.139653, 0.0, 0.137191, 0.01217, 0.0 ), SMB_12 = cms.vdouble( 1.923091, -0.913204, 0.0, 0.161556, 0.020215, 0.0 ), SMB_20 = cms.vdouble( 0.861314, -0.16233, 0.0, 0.248879, -0.113879, 0.0 ), SMB_21 = cms.vdouble( 0.918425, -0.141199, 0.0, 0.254515, -0.111848, 0.0 ), SMB_22 = cms.vdouble( 1.308565, -0.701634, 0.0, -0.302861, 0.675785, 0.0 ), SMB_30 = cms.vdouble( 0.399628, 0.014922, 0.0, 0.665622, 0.358439, 0.0 ), SMB_31 = cms.vdouble( 0.398661, -0.024853, 0.0, 0.863324, -0.413048, 0.0 ), SMB_32 = cms.vdouble( 0.421649, -0.111654, 0.0, -0.044613, 1.134858, 0.0 ), SME_11 = cms.vdouble( 2.39479, -0.888663, 0.0, -4.604546, 3.623464, 0.0 ), SME_12 = cms.vdouble( -0.277294, 0.7616, 0.0, -0.243326, 1.446792, 0.0 ), SME_13 = cms.vdouble( 0.398851, 0.028176, 0.0, 0.567015, 2.623232, 0.0 ), SME_21 = cms.vdouble( 0.64895, -0.148762, 0.0, -5.07676, 6.284227, 0.0 ), SME_22 = cms.vdouble( -0.624708, 0.641043, 0.0, 32.581295, -19.604264, 0.0 ), SME_31 = cms.vdouble( -0.588188, 0.316961, 0.0, -95.261732, 45.444051, 0.0 ), SME_32 = cms.vdouble( -0.021912, -0.008995, 0.0, -49.779764, 30.780972, 0.0 ), SME_41 = cms.vdouble( -0.187116, 0.076415, 0.0, -58.552583, 27.933864, 0.0 ), SME_42 = cms.vdouble( -0.021912, -0.008995, 0.0, -49.779764, 30.780972, 0.0 ) ) process.qTest = 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') ) process.regressionModifier = cms.PSet( eOverP_ECALTRKThr = cms.double(0.025), electron_config = cms.PSet( regressionKey_ecalonly = cms.vstring( 'electron_eb_ECALonly_lowpt', 'electron_eb_ECALonly', 'electron_ee_ECALonly_lowpt', 'electron_ee_ECALonly' ), regressionKey_ecaltrk = cms.vstring( 'electron_eb_ECALTRK_lowpt', 'electron_eb_ECALTRK', 'electron_ee_ECALTRK_lowpt', 'electron_ee_ECALTRK' ), uncertaintyKey_ecalonly = cms.vstring( 'electron_eb_ECALonly_lowpt_var', 'electron_eb_ECALonly_var', 'electron_ee_ECALonly_lowpt_var', 'electron_ee_ECALonly_var' ), uncertaintyKey_ecaltrk = cms.vstring( 'electron_eb_ECALTRK_lowpt_var', 'electron_eb_ECALTRK_var', 'electron_ee_ECALTRK_lowpt_var', 'electron_ee_ECALTRK_var' ) ), epDiffSig_ECALTRKThr = cms.double(15.0), epSig_ECALTRKThr = cms.double(10.0), forceHighEnergyEcalTrainingIfSaturated = cms.bool(True), highEnergy_ECALTRKThr = cms.double(200.0), lowEnergy_ECALTRKThr = cms.double(50.0), lowEnergy_ECALonlyThr = cms.double(99999.0), modifierName = cms.string('EGRegressionModifierV2'), photon_config = cms.PSet( regressionKey_ecalonly = cms.vstring( 'photon_eb_ECALonly_lowpt', 'photon_eb_ECALonly', 'photon_ee_ECALonly_lowpt', 'photon_ee_ECALonly' ), uncertaintyKey_ecalonly = cms.vstring( 'photon_eb_ECALonly_lowpt_var', 'photon_eb_ECALonly_var', 'photon_ee_ECALonly_lowpt_var', 'photon_ee_ECALonly_var' ) ), rhoCollection = cms.InputTag("fixedGridRhoFastjetAll") ) process.regressionModifier80X = cms.PSet( applyExtraHighEnergyProtection = cms.bool(True), autoDetectBunchSpacing = cms.bool(True), bunchSpacingTag = cms.InputTag("bunchSpacingProducer"), electron_config = cms.PSet( combinationKey_25ns = cms.string('gedelectron_p4combination_25ns'), combinationKey_50ns = cms.string('gedelectron_p4combination_50ns'), regressionKey_25ns = cms.vstring( 'gedelectron_EBCorrection_25ns', 'gedelectron_EECorrection_25ns' ), regressionKey_50ns = cms.vstring( 'gedelectron_EBCorrection_50ns', 'gedelectron_EECorrection_50ns' ), uncertaintyKey_25ns = cms.vstring( 'gedelectron_EBUncertainty_25ns', 'gedelectron_EEUncertainty_25ns' ), uncertaintyKey_50ns = cms.vstring( 'gedelectron_EBUncertainty_50ns', 'gedelectron_EEUncertainty_50ns' ) ), manualBunchSpacing = cms.int32(50), modifierName = cms.string('EGRegressionModifierV1'), photon_config = cms.PSet( regressionKey_25ns = cms.vstring( 'gedphoton_EBCorrection_25ns', 'gedphoton_EECorrection_25ns' ), regressionKey_50ns = cms.vstring( 'gedphoton_EBCorrection_50ns', 'gedphoton_EECorrection_50ns' ), uncertaintyKey_25ns = cms.vstring( 'gedphoton_EBUncertainty_25ns', 'gedphoton_EEUncertainty_25ns' ), uncertaintyKey_50ns = cms.vstring( 'gedphoton_EBUncertainty_50ns', 'gedphoton_EEUncertainty_50ns' ) ), rhoCollection = cms.InputTag("fixedGridRhoFastjetAll"), vertexCollection = cms.InputTag("offlinePrimaryVertices") ) process.requireDecayMode = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ) process.requireLeadPion = cms.PSet( BooleanOperator = cms.string('and'), leadPion = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ) process.requireLeadTrack = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ) process.requireLeadTrackCalo = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("caloRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ) process.softPFElectronCommon = cms.PSet( gbrForestLabel = cms.string('btag_SoftPFElectron_BDT'), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFElectron_BDT.weights.xml.gz') ) process.softPFMuonCommon = cms.PSet( gbrForestLabel = cms.string('btag_SoftPFMuon_BDT'), useAdaBoost = cms.bool(True), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFMuon_BDT.weights.xml.gz') ) process.tautagInfoModifer = cms.PSet( name = cms.string('TTIworkaround'), pfTauTagInfoSrc = cms.InputTag("pfRecoTauTagInfoProducer"), plugin = cms.string('RecoTauTagInfoWorkaroundModifer') ) process.tobTecStepInOutTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.tobTecStepTrajectoryBuilder = cms.PSet( ComponentType = cms.string('GroupedCkfTrajectoryBuilder'), MeasurementTrackerName = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), alwaysUseInvalidHits = cms.bool(False), bestHitOnly = cms.bool(True), estimator = cms.string('tobTecStepChi2Est'), foundHitBonus = cms.double(10.0), inOutTrajectoryFilter = cms.PSet( refToPSet_ = cms.string('tobTecStepInOutTrajectoryFilter') ), 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('PropagatorWithMaterial'), propagatorOpposite = cms.string('PropagatorWithMaterialOpposite'), requireSeedHitsInRebuild = cms.bool(True), trajectoryFilter = cms.PSet( refToPSet_ = cms.string('tobTecStepTrajectoryFilter') ), updator = cms.string('KFUpdator'), useSameTrajFilter = cms.bool(False) ) process.tobTecStepTrajectoryFilter = cms.PSet( ComponentType = cms.string('CkfBaseTrajectoryFilter'), chargeSignificance = cms.double(-1.0), constantValueForLostHitsFractionFilter = cms.double(2.0), extraNumberOfHitsBeforeTheFirstLoop = cms.int32(4), 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('SiStripClusterChargeCutNone') ), 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.trackPseudoSelectionBlock = cms.PSet( 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) ) ) process.trackSelectionBlock = cms.PSet( 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) ) ) process.trackWithVertexSelectorParams = cms.PSet( 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), nVertices = cms.uint32(0), normalizedChi2 = cms.double(999999.0), numberOfLostHits = cms.uint32(999), numberOfValidHits = cms.uint32(0), numberOfValidPixelHits = cms.uint32(0), ptErrorCut = cms.double(0.2), ptMax = cms.double(500.0), ptMin = cms.double(0.3), quality = cms.string('highPurity'), rhoVtx = cms.double(0.2), src = cms.InputTag("generalTracks"), timeResosTag = cms.InputTag(""), timesTag = cms.InputTag(""), useVtx = cms.bool(True), vertexTag = cms.InputTag("offlinePrimaryVertices"), vtxFallback = cms.bool(True), zetaVtx = cms.double(1.0) ) process.trkIsol03CfgV1 = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ) process.trkIsol04CfgV1 = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ) process.variableJTAPars = 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), 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) ) process.vertexCutsBlock = cms.PSet( 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) ) ) ) process.vertexRecoBlock = cms.PSet( 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) ) ) process.vertexSelectionBlock = cms.PSet( vertexSelection = cms.PSet( sortCriterium = cms.string('dist3dError') ) ) process.vertexTrackSelectionBlock = cms.PSet( 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), 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(1), 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(0), useVariableJTA = cms.bool(False) ) ) process.IsoConeDefinitions = cms.VPSet( cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedPhotons"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h0'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedPhotons"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('gamma'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedPhotons"), vertexIndex = cms.int32(0) ) ) process.IsoConeDefinitionsPhotonsTmp = cms.VPSet( cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedPhotonsTmp"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h0'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedPhotonsTmp"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('gamma'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedPhotonsTmp"), vertexIndex = cms.int32(0) ) ) process.c_vs_b_vars_vpset = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ) process.c_vs_l_vars_vpset = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ) process.BeamHaloSummary = cms.EDProducer("BeamHaloSummaryProducer", CSCHaloDataLabel = cms.InputTag("CSCHaloData"), EcalHaloDataLabel = cms.InputTag("EcalHaloData"), GlobalHaloDataLabel = cms.InputTag("GlobalHaloData"), HcalHaloDataLabel = cms.InputTag("HcalHaloData"), l_EcalPhiWedgeConfidence = cms.double(0.7), l_EcalPhiWedgeConstituents = cms.int32(6), l_EcalPhiWedgeEnergy = cms.double(10.0), l_EcalPhiWedgeToF = cms.double(-200.0), l_EcalShowerShapesAngle = cms.double(0.51), l_EcalShowerShapesRoundness = cms.double(0.41), l_EcalSuperClusterEnergy = cms.double(10.0), l_EcalSuperClusterSize = cms.int32(3), l_HcalPhiWedgeConfidence = cms.double(0.7), l_HcalPhiWedgeConstituents = cms.int32(6), l_HcalPhiWedgeEnergy = cms.double(20.0), l_HcalPhiWedgeToF = cms.double(-100.0), problematicStripMinLength = cms.int32(6), t_EcalPhiWedgeConfidence = cms.double(0.9), t_EcalPhiWedgeConstituents = cms.int32(8), t_EcalPhiWedgeEnergy = cms.double(20.0), t_EcalPhiWedgeToF = cms.double(-200.0), t_EcalShowerShapesAngle = cms.double(0.51), t_EcalShowerShapesRoundness = cms.double(0.23), t_EcalSuperClusterEnergy = cms.double(10.0), t_EcalSuperClusterSize = cms.int32(3), t_HcalPhiWedgeConfidence = cms.double(0.9), t_HcalPhiWedgeConstituents = cms.int32(8), t_HcalPhiWedgeEnergy = cms.double(25.0), t_HcalPhiWedgeToF = cms.double(-100.0) ) process.CSCHaloData = cms.EDProducer("CSCHaloDataProducer", ALCTDigiLabel = cms.InputTag("muonCSCDigis","MuonCSCALCTDigi"), CSCRecHitLabel = cms.InputTag("csc2DRecHits"), CSCSegmentLabel = cms.InputTag("cscSegments"), CosmicMuonLabel = cms.InputTag("muonsFromCosmics"), DetaParam = cms.double(0.1), DphiParam = cms.double(1.0), ECALBrhLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ECALErhLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), ExpectedBX = cms.int32(3), HBHErhLabel = cms.InputTag("hbhereco"), HLTBitLabel = cms.VInputTag(cms.InputTag("HLT_CSCBeamHalo"), cms.InputTag("HLT_CSCBeamHaloOverlapRing1"), cms.InputTag("HLT_CSCBeamHaloOverlapRing2"), cms.InputTag("HLT_CSCBeamHaloRing2or3")), HLTResultLabel = cms.InputTag("TriggerResults","","HLT"), InnerRMaxParam = cms.double(99999.0), InnerRMinParam = cms.double(0.0), L1MuGMTReadoutLabel = cms.InputTag("gtDigis"), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), 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("muons"), 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("standAloneMuons") ) process.CastorTowerReco = cms.EDProducer("CastorTowerProducer", inputprocess = cms.string('castorreco'), maxtime = cms.double(99999.0), mintime = cms.double(-99999.0), towercut = cms.double(0.65) ) process.CkfElectronCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('CkfElectronTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("globalMixedSeeds"), useHitsSplitting = cms.bool(True) ) process.ClassifierMerger = cms.EDProducer("ClassifierMerger", inputClassifiers = cms.vstring() ) process.CosmicMuonSeed = cms.EDProducer("CosmicMuonSeedGenerator", CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DCosmicSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), ForcePointDown = cms.bool(True), MaxCSCChi2 = cms.double(300.0), MaxDTChi2 = cms.double(300.0), MaxSeeds = cms.int32(1000) ) process.DuplicateListMerger = cms.EDProducer("DuplicateListMerger", candidateComponents = cms.InputTag(""), candidateSource = cms.InputTag(""), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), diffHitsCut = cms.int32(5), mergedMVAVals = cms.InputTag(""), mergedSource = cms.InputTag(""), originalMVAVals = cms.InputTag(""), originalSource = cms.InputTag(""), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder') ) process.DuplicateTrackMerger = cms.EDProducer("DuplicateTrackMerger", GBRForestFileName = cms.string(''), chi2EstimatorName = cms.string('DuplicateTrackMergerChi2Est'), forestLabel = cms.string('MVADuplicate'), maxDCA = cms.double(30), maxDLambda = cms.double(0.3), maxDPhi = cms.double(0.3), maxDQoP = cms.double(0.25), maxDdsz = cms.double(10), maxDdxy = cms.double(10), minBDTG = cms.double(-0.1), minDeltaR3d = cms.double(-4), minP = cms.double(0.4), minpT = cms.double(0.2), overlapCheckMaxHits = cms.uint32(4), overlapCheckMaxMissingLayers = cms.uint32(1), overlapCheckMinCosT = cms.double(0.99), propagatorName = cms.string('PropagatorWithMaterial'), source = cms.InputTag(""), ttrhBuilderName = cms.string('WithAngleAndTemplate'), useInnermostState = cms.bool(True) ) process.EcalHaloData = cms.EDProducer("EcalHaloDataProducer", AngleCutParam = cms.double(0.51), EBRecHitEnergyThresholdParam = cms.double(0.3), EBRecHitLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitEnergyThresholdParam = cms.double(0.3), EERecHitLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), ESRecHitEnergyThresholdParam = cms.double(0.3), ESRecHitLabel = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), HBHERecHitLabel = cms.InputTag("hbhereco"), NHitsEcalThresholdParam = cms.int32(4), PhotonLabel = cms.InputTag(""), RoundnessCutParam = cms.double(0.41), SumEcalEnergyThresholdParam = cms.double(10.0), SuperClusterLabel = cms.InputTag("correctedHybridSuperClusters") ) process.GlobalHaloData = cms.EDProducer("GlobalHaloDataProducer", CSCHaloDataLabel = cms.InputTag("CSCHaloData"), CSCRecHitLabel = cms.InputTag("csc2DRecHits"), CSCSegmentLabel = cms.InputTag("cscSegments"), CaloTowerEtThresholdParam = cms.double(0.3), EcalHaloDataLabel = cms.InputTag("EcalHaloData"), EcalMaxMatchingRadiusParam = cms.double(330.0), EcalMinMatchingRadiusParam = cms.double(110.0), HcalHaloDataLabel = cms.InputTag("HcalHaloData"), HcalMaxMatchingRadiusParam = cms.double(490.0), HcalMinMatchingRadiusParam = cms.double(110.0), IsHLT = cms.bool(False), MaxSegmentTheta = cms.double(0.7), MuonLabel = cms.InputTag("muons"), calotowerLabel = cms.InputTag("towerMaker"), 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("caloMet"), 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.GsfGlobalElectronTest = cms.EDProducer("GsfTrackProducer", AlgorithmName = cms.string('gsf'), Fitter = cms.string('GsfElectronFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('fwdElectronPropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string(''), src = cms.InputTag("CkfElectronCandidates"), useHitsSplitting = cms.bool(False) ) process.HGCalRecHit = cms.EDProducer("HGCalRecHitProducer", HGCEE_cce = cms.PSet( refToPSet_ = cms.string('HGCAL_chargeCollectionEfficiencies') ), HGCEE_fCPerMIP = cms.vdouble(1.25, 2.57, 3.88), HGCEE_isSiFE = cms.bool(True), HGCEE_keV2DIGI = cms.double(0.044259), HGCEE_noise_fC = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_fC') ), HGCEErechitCollection = cms.string('HGCEERecHits'), HGCEEuncalibRecHitCollection = cms.InputTag("HGCalUncalibRecHit","HGCEEUncalibRecHits"), HGCHEB_isSiFE = cms.bool(False), HGCHEB_keV2DIGI = cms.double(0.00162337662338), HGCHEB_noise_MIP = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_MIP') ), HGCHEBrechitCollection = cms.string('HGCHEBRecHits'), HGCHEBuncalibRecHitCollection = cms.InputTag("HGCalUncalibRecHit","HGCHEBUncalibRecHits"), HGCHEF_cce = cms.PSet( refToPSet_ = cms.string('HGCAL_chargeCollectionEfficiencies') ), HGCHEF_fCPerMIP = cms.vdouble(1.25, 2.57, 3.88), HGCHEF_isSiFE = cms.bool(True), HGCHEF_keV2DIGI = cms.double(0.044259), HGCHEF_noise_fC = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_fC') ), HGCHEFrechitCollection = cms.string('HGCHEFRecHits'), HGCHEFuncalibRecHitCollection = cms.InputTag("HGCalUncalibRecHit","HGCHEFUncalibRecHits"), algo = cms.string('HGCalRecHitWorkerSimple'), layerWeights = cms.vdouble( 0.0, 8.603, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.9515, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 11.682, 13.654, 13.654, 13.654, 13.654, 13.654, 13.654, 13.654, 38.2005, 55.0265, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 62.005, 83.1675, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 46.098 ), rangeMask = cms.uint32(4294442496), rangeMatch = cms.uint32(1161838592), thicknessCorrection = cms.vdouble(1.132, 1.092, 1.084) ) process.HGCalUncalibRecHit = cms.EDProducer("HGCalUncalibRecHitProducer", HGCEEConfig = cms.PSet( adcNbits = cms.uint32(10), adcSaturation = cms.double(100), fCPerMIP = cms.vdouble(1.25, 2.57, 3.88), isSiFE = cms.bool(True), tdcNbits = cms.uint32(12), tdcOnset = cms.double(60), tdcSaturation = cms.double(10000), toaLSB_ns = cms.double(0.0244) ), HGCEEdigiCollection = cms.InputTag("hgcalDigis","EE"), HGCEEhitCollection = cms.string('HGCEEUncalibRecHits'), HGCHEBConfig = cms.PSet( adcNbits = cms.uint32(12), adcSaturation = cms.double(1024.0), fCPerMIP = cms.vdouble(1.0, 1.0, 1.0), isSiFE = cms.bool(False) ), HGCHEBdigiCollection = cms.InputTag("hgcalDigis","HEback"), HGCHEBhitCollection = cms.string('HGCHEBUncalibRecHits'), HGCHEFConfig = cms.PSet( adcNbits = cms.uint32(10), adcSaturation = cms.double(100), fCPerMIP = cms.vdouble(1.25, 2.57, 3.88), isSiFE = cms.bool(True), tdcNbits = cms.uint32(12), tdcOnset = cms.double(60), tdcSaturation = cms.double(10000), toaLSB_ns = cms.double(0.0244) ), HGCHEFdigiCollection = cms.InputTag("hgcalDigis","HEfront"), HGCHEFhitCollection = cms.string('HGCHEFUncalibRecHits'), algo = cms.string('HGCalUncalibRecHitWorkerWeights') ) process.HcalHaloData = cms.EDProducer("HcalHaloDataProducer", EBRecHitLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), HBHERecHitLabel = cms.InputTag("hbhereco"), HBRecHitEnergyThresholdParam = cms.double(0.5), HERecHitEnergyThresholdParam = cms.double(0.5), HFRecHitLabel = cms.InputTag("hfreco"), HORecHitLabel = cms.InputTag("horeco"), HcalMaxMatchingRadiusParam = cms.double(490.0), HcalMinMatchingRadiusParam = cms.double(110.0), NHitsHcalThresholdParam = cms.int32(4), SumHcalEnergyThresholdParam = cms.double(18), caloTowerCollName = cms.InputTag("towerMaker") ) process.HiTrackingRegionFactoryFromSTAMuonsEDProducer = cms.EDProducer("HIMuonTrackingRegionEDProducer", MuonSrc = cms.InputTag("standAloneMuons","UpdatedAtVtx"), MuonTrackingRegionBuilder = 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(""), 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(5.0), Rescale_eta = cms.double(3.0), Rescale_phi = cms.double(3.0), UseVertex = cms.bool(True), Z_fixed = cms.bool(True), beamSpot = cms.InputTag("offlineBeamSpot"), input = cms.InputTag(""), maxRegions = cms.int32(1), precise = cms.bool(True), vertexCollection = cms.InputTag("hiSelectedPixelVertex") ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ) ) process.JPTeidTight = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('classbased'), electronQuality = cms.string('tight'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.JetPlusTrackZSPCorJetAntiKt4 = cms.EDProducer("JetPlusTrackProducer", DzVertexCut = cms.double(0.2), EfficiencyMap = cms.string('CondFormats/JetMETObjects/data/CMSSW_538_TrackNonEff.txt'), ElectronIds = cms.InputTag("JPTeidTight"), Electrons = cms.InputTag("gedGsfElectrons"), FixedPU = cms.int32(0), JetSplitMerge = cms.int32(2), JetTracksAssociationAtCaloFace = cms.InputTag("ak4JetTracksAssociatorAtCaloFace"), JetTracksAssociationAtVertex = cms.InputTag("ak4JetTracksAssociatorAtVertexJPT"), LeakageMap = cms.string('CondFormats/JetMETObjects/data/CMSSW_538_TrackLeakage.txt'), MaxJetEta = cms.double(3.0), Muons = cms.InputTag("muons"), PU = cms.int32(-1), PtErrorQuality = cms.double(0.05), ResponseMap = cms.string('CondFormats/JetMETObjects/data/CMSSW_538_response.txt'), TrackQuality = cms.string('highPurity'), UseEfficiency = cms.bool(True), UseElectrons = cms.bool(True), UseInConeTracks = cms.bool(True), UseMuons = cms.bool(True), UseOutOfConeTracks = cms.bool(True), UseOutOfVertexTracks = cms.bool(True), UsePions = cms.bool(True), UseResponseInVecCorr = cms.bool(False), UseTrackQuality = cms.bool(True), UseZSP = cms.bool(False), VectorialCorrection = cms.bool(True), Verbose = cms.bool(True), alias = cms.untracked.string('JetPlusTrackZSPCorJetAntiKt4'), ptCUT = cms.double(15.0), src = cms.InputTag("ak4CaloJets"), srcPVs = cms.InputTag("offlinePrimaryVertices"), tagName = cms.vstring('ZSP_CMSSW390_Akt_05_PU0'), tagNameOffset = cms.vstring() ) process.MEtoEDMConverter = cms.EDProducer("MEtoEDMConverter", Frequency = cms.untracked.int32(50), MEPathToSave = cms.untracked.string(''), Name = cms.untracked.string('MEtoEDMConverter'), Verbosity = cms.untracked.int32(0), deleteAfterCopy = cms.untracked.bool(True) ) process.MeasurementTrackerEvent = cms.EDProducer("MeasurementTrackerEventProducer", Phase2TrackerCluster1DProducer = cms.string(''), badPixelFEDChannelCollectionLabels = cms.VInputTag("siPixelDigis"), inactivePixelDetectorLabels = cms.VInputTag("siPixelDigis"), inactiveStripDetectorLabels = cms.VInputTag("siStripDigis"), measurementTracker = cms.string(''), pixelCablingMapLabel = cms.string(''), pixelClusterProducer = cms.string('siPixelClusters'), skipClusters = cms.InputTag(""), stripClusterProducer = cms.string('siStripClusters'), switchOffPixelsIfEmpty = cms.bool(True) ) process.MeasurementTrackerEventPreSplitting = cms.EDProducer("MeasurementTrackerEventProducer", Phase2TrackerCluster1DProducer = cms.string(''), badPixelFEDChannelCollectionLabels = cms.VInputTag("siPixelDigis"), inactivePixelDetectorLabels = cms.VInputTag("siPixelDigis"), inactiveStripDetectorLabels = cms.VInputTag("siStripDigis"), measurementTracker = cms.string(''), pixelCablingMapLabel = cms.string(''), pixelClusterProducer = cms.string('siPixelClustersPreSplitting'), skipClusters = cms.InputTag(""), stripClusterProducer = cms.string('siStripClusters'), switchOffPixelsIfEmpty = cms.bool(True) ) process.MixedLayerPairs = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), MTEC = cms.PSet( ), MTIB = cms.PSet( ), MTID = cms.PSet( ), MTOB = cms.PSet( ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), 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.MixedLayerTriplets = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), MTEC = cms.PSet( ), MTIB = cms.PSet( ), MTID = cms.PSet( ), MTOB = cms.PSet( ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit") ), TIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit") ), TID = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit") ), TOB = cms.PSet( ), layerList = cms.vstring( 'BPix1+BPix2+BPix3', 'BPix1+BPix2+FPix1_pos', 'BPix1+BPix2+FPix1_neg', 'BPix1+FPix1_pos+FPix2_pos', 'BPix1+FPix1_neg+FPix2_neg', 'BPix1+BPix2+TIB1', 'BPix1+BPix3+TIB1', 'BPix2+BPix3+TIB1', 'BPix1+FPix1_pos+TID1_pos', 'BPix1+FPix1_neg+TID1_neg', 'BPix1+FPix1_pos+TID2_pos', 'BPix1+FPix1_neg+TID2_neg', 'FPix1_pos+FPix2_pos+TEC1_pos', 'FPix1_neg+FPix2_neg+TEC1_neg', 'FPix1_pos+FPix2_pos+TEC2_pos', 'FPix1_neg+FPix2_neg+TEC2_neg' ) ) process.MuonSeed = cms.EDProducer("MuonSeedProducer", CSCSegmentLabel = cms.InputTag("cscSegments"), 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), DTSegmentLabel = cms.InputTag("dt4DSegments"), 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), DebugMuonSeed = cms.bool(False), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), 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 ), SeedPtSystematics = cms.double(0.1), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), defaultSeedPt = cms.double(25.0), maxDeltaEtaCSC = cms.double(0.2), maxDeltaEtaDT = cms.double(0.3), maxDeltaEtaOverlap = cms.double(0.08), maxDeltaPhiCSC = cms.double(0.5), maxDeltaPhiDT = cms.double(0.3), maxDeltaPhiOverlap = cms.double(0.25), maxEtaResolutionCSC = cms.double(0.06), maxEtaResolutionDT = cms.double(0.02), maxPhiResolutionCSC = cms.double(0.03), maxPhiResolutionDT = cms.double(0.03), maximumSeedPt = cms.double(3000.0), minCSCHitsPerSegment = cms.int32(4), minDTHitsPerSegment = cms.int32(2), minimumSeedPt = cms.double(5.0) ) process.PFTauPrimaryVertexProducer = cms.EDProducer("PFTauPrimaryVertexProducer", Algorithm = cms.int32(0), ElectronTag = cms.InputTag("MyElectrons"), MuonTag = cms.InputTag("MyMuons"), PFTauTag = cms.InputTag("hpsPFTauProducer"), PVTag = cms.InputTag("offlinePrimaryVertices"), RemoveElectronTracks = cms.bool(False), RemoveMuonTracks = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), cut = cms.string('pt > 18.0 & abs(eta)<2.3'), discriminators = cms.VPSet(cms.PSet( discriminator = cms.InputTag("hpsPFTauDiscriminationByDecayModeFinding"), selectionCut = cms.double(0.5) )), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), useBeamSpot = cms.bool(True), useSelectedTaus = cms.bool(False) ) process.PFTauSecondaryVertexProducer = cms.EDProducer("PFTauSecondaryVertexProducer", PFTauTag = cms.InputTag("hpsPFTauProducer") ) process.PFTauTransverseImpactParameters = cms.EDProducer("PFTauTransverseImpactParameters", PFTauPVATag = cms.InputTag("PFTauPrimaryVertexProducer"), PFTauSVATag = cms.InputTag("PFTauSecondaryVertexProducer"), PFTauTag = cms.InputTag("hpsPFTauProducer"), useFullCalculation = cms.bool(False) ) process.PFTowers = cms.EDProducer("ParticleTowerProducer", src = cms.InputTag("particleFlow"), useHF = cms.bool(False) ) process.PhotonIDProd = cms.EDProducer("PhotonIDProducer", DoEcalIsoRelativeCut = cms.bool(True), DoEcalRecHitIsolationCut = cms.bool(True), DoEtaWidthCut = cms.bool(True), DoHadOverEMCut = cms.bool(True), DoHcalTowerIsolationCut = cms.bool(True), DoHollowConeNTrkCut = cms.bool(False), DoHollowConeTrackIsolationCut = cms.bool(True), DoR9Cut = cms.bool(False), DoSolidConeNTrkCut = cms.bool(False), DoSolidConeTrackIsolationCut = cms.bool(False), LooseEMEcalIsoRelativeCutOffsetEB = cms.double(4.2), LooseEMEcalIsoRelativeCutOffsetEE = cms.double(4.2), LooseEMEcalIsoRelativeCutSlopeEB = cms.double(0.006), LooseEMEcalIsoRelativeCutSlopeEE = cms.double(0.006), LooseEMEtaWidthEB = cms.double(999999999), LooseEMEtaWidthEE = cms.double(999999999), LooseEMHadOverEMEB = cms.double(0.05), LooseEMHadOverEMEE = cms.double(0.05), LooseEMHcalTowerIsoOffsetEB = cms.double(2.2), LooseEMHcalTowerIsoOffsetEE = cms.double(2.2), LooseEMHcalTowerIsoSlopeEB = cms.double(0.0025), LooseEMHcalTowerIsoSlopeEE = cms.double(0.0025), LooseEMHollowNTrkEB = cms.int32(999999999), LooseEMHollowNTrkEE = cms.int32(999999999), LooseEMHollowTrkOffsetEB = cms.double(999999999), LooseEMHollowTrkOffsetEE = cms.double(999999999), LooseEMHollowTrkSlopeEB = cms.double(0.0), LooseEMHollowTrkSlopeEE = cms.double(0.0), LooseEMR9CutEB = cms.double(0.0), LooseEMR9CutEE = cms.double(0.0), LooseEMSolidNTrkEB = cms.int32(999999999), LooseEMSolidNTrkEE = cms.int32(999999999), LooseEMSolidTrkEB = cms.double(999999999), LooseEMSolidTrkEE = cms.double(999999999), LooseEMSolidTrkOffsetEB = cms.double(999999999), LooseEMSolidTrkOffsetEE = cms.double(999999999), LooseEMSolidTrkSlopeEB = cms.double(0.0), LooseEMSolidTrkSlopeEE = cms.double(0.0), LoosePhotonEcalIsoRelativeCutOffsetEB = cms.double(4.2), LoosePhotonEcalIsoRelativeCutOffsetEE = cms.double(4.2), LoosePhotonEcalIsoRelativeCutSlopeEB = cms.double(0.006), LoosePhotonEcalIsoRelativeCutSlopeEE = cms.double(0.006), LoosePhotonEtaWidthEB = cms.double(999999999), LoosePhotonEtaWidthEE = cms.double(999999999), LoosePhotonHadOverEMEB = cms.double(0.05), LoosePhotonHadOverEMEE = cms.double(0.05), LoosePhotonHcalTowerIsoOffsetEB = cms.double(2.2), LoosePhotonHcalTowerIsoOffsetEE = cms.double(2.2), LoosePhotonHcalTowerIsoSlopeEB = cms.double(0.0025), LoosePhotonHcalTowerIsoSlopeEE = cms.double(0.0025), LoosePhotonHollowNTrkEB = cms.int32(999999999), LoosePhotonHollowNTrkEE = cms.int32(999999999), LoosePhotonHollowTrkOffsetEB = cms.double(3.5), LoosePhotonHollowTrkOffsetEE = cms.double(3.5), LoosePhotonHollowTrkSlopeEB = cms.double(0.001), LoosePhotonHollowTrkSlopeEE = cms.double(0.001), LoosePhotonR9CutEB = cms.double(0.0), LoosePhotonR9CutEE = cms.double(0.0), LoosePhotonSolidNTrkEB = cms.int32(999999999), LoosePhotonSolidNTrkEE = cms.int32(999999999), LoosePhotonSolidTrkEB = cms.double(999999999), LoosePhotonSolidTrkEE = cms.double(999999999), LoosePhotonSolidTrkOffsetEB = cms.double(999999999), LoosePhotonSolidTrkOffsetEE = cms.double(999999999), LoosePhotonSolidTrkSlopeEB = cms.double(0.0), LoosePhotonSolidTrkSlopeEE = cms.double(0.0), RequireFiducial = cms.bool(False), TightPhotonEcalIsoRelativeCutOffsetEB = cms.double(4.2), TightPhotonEcalIsoRelativeCutOffsetEE = cms.double(4.2), TightPhotonEcalIsoRelativeCutSlopeEB = cms.double(0.006), TightPhotonEcalIsoRelativeCutSlopeEE = cms.double(0.006), TightPhotonEtaWidthEB = cms.double(0.013), TightPhotonEtaWidthEE = cms.double(0.03), TightPhotonHadOverEMEB = cms.double(0.05), TightPhotonHadOverEMEE = cms.double(0.05), TightPhotonHcalTowerIsoOffsetEB = cms.double(2.2), TightPhotonHcalTowerIsoOffsetEE = cms.double(2.2), TightPhotonHcalTowerIsoSlopeEB = cms.double(0.0025), TightPhotonHcalTowerIsoSlopeEE = cms.double(0.0025), TightPhotonHollowNTrkEB = cms.int32(999999999), TightPhotonHollowNTrkEE = cms.int32(999999999), TightPhotonHollowTrkOffsetEB = cms.double(2.0), TightPhotonHollowTrkOffsetEE = cms.double(2.0), TightPhotonHollowTrkSlopeEB = cms.double(0.001), TightPhotonHollowTrkSlopeEE = cms.double(0.001), TightPhotonR9CutEB = cms.double(0.0), TightPhotonR9CutEE = cms.double(0.0), TightPhotonSolidNTrkEB = cms.int32(999999999), TightPhotonSolidNTrkEE = cms.int32(999999999), TightPhotonSolidTrkEB = cms.double(999999999), TightPhotonSolidTrkEE = cms.double(999999999), TightPhotonSolidTrkOffsetEB = cms.double(999999999), TightPhotonSolidTrkOffsetEE = cms.double(999999999), TightPhotonSolidTrkSlopeEB = cms.double(0.0), TightPhotonSolidTrkSlopeEE = cms.double(0.0), doCutBased = cms.bool(True), photonCutBasedIDLooseEMLabel = cms.string('PhotonCutBasedIDLooseEM'), photonCutBasedIDLooseLabel = cms.string('PhotonCutBasedIDLoose'), photonCutBasedIDTightLabel = cms.string('PhotonCutBasedIDTight'), photonLabel = cms.string(''), photonProducer = cms.string('photons') ) process.PhotonIDProdGED = cms.EDProducer("PhotonIDProducer", DoEcalIsoRelativeCut = cms.bool(True), DoEcalRecHitIsolationCut = cms.bool(True), DoEtaWidthCut = cms.bool(True), DoHadOverEMCut = cms.bool(True), DoHcalTowerIsolationCut = cms.bool(True), DoHollowConeNTrkCut = cms.bool(False), DoHollowConeTrackIsolationCut = cms.bool(True), DoR9Cut = cms.bool(False), DoSolidConeNTrkCut = cms.bool(False), DoSolidConeTrackIsolationCut = cms.bool(False), LooseEMEcalIsoRelativeCutOffsetEB = cms.double(4.2), LooseEMEcalIsoRelativeCutOffsetEE = cms.double(4.2), LooseEMEcalIsoRelativeCutSlopeEB = cms.double(0.006), LooseEMEcalIsoRelativeCutSlopeEE = cms.double(0.006), LooseEMEtaWidthEB = cms.double(999999999), LooseEMEtaWidthEE = cms.double(999999999), LooseEMHadOverEMEB = cms.double(0.05), LooseEMHadOverEMEE = cms.double(0.05), LooseEMHcalTowerIsoOffsetEB = cms.double(2.2), LooseEMHcalTowerIsoOffsetEE = cms.double(2.2), LooseEMHcalTowerIsoSlopeEB = cms.double(0.0025), LooseEMHcalTowerIsoSlopeEE = cms.double(0.0025), LooseEMHollowNTrkEB = cms.int32(999999999), LooseEMHollowNTrkEE = cms.int32(999999999), LooseEMHollowTrkOffsetEB = cms.double(999999999), LooseEMHollowTrkOffsetEE = cms.double(999999999), LooseEMHollowTrkSlopeEB = cms.double(0.0), LooseEMHollowTrkSlopeEE = cms.double(0.0), LooseEMR9CutEB = cms.double(0.0), LooseEMR9CutEE = cms.double(0.0), LooseEMSolidNTrkEB = cms.int32(999999999), LooseEMSolidNTrkEE = cms.int32(999999999), LooseEMSolidTrkEB = cms.double(999999999), LooseEMSolidTrkEE = cms.double(999999999), LooseEMSolidTrkOffsetEB = cms.double(999999999), LooseEMSolidTrkOffsetEE = cms.double(999999999), LooseEMSolidTrkSlopeEB = cms.double(0.0), LooseEMSolidTrkSlopeEE = cms.double(0.0), LoosePhotonEcalIsoRelativeCutOffsetEB = cms.double(4.2), LoosePhotonEcalIsoRelativeCutOffsetEE = cms.double(4.2), LoosePhotonEcalIsoRelativeCutSlopeEB = cms.double(0.006), LoosePhotonEcalIsoRelativeCutSlopeEE = cms.double(0.006), LoosePhotonEtaWidthEB = cms.double(999999999), LoosePhotonEtaWidthEE = cms.double(999999999), LoosePhotonHadOverEMEB = cms.double(0.05), LoosePhotonHadOverEMEE = cms.double(0.05), LoosePhotonHcalTowerIsoOffsetEB = cms.double(2.2), LoosePhotonHcalTowerIsoOffsetEE = cms.double(2.2), LoosePhotonHcalTowerIsoSlopeEB = cms.double(0.0025), LoosePhotonHcalTowerIsoSlopeEE = cms.double(0.0025), LoosePhotonHollowNTrkEB = cms.int32(999999999), LoosePhotonHollowNTrkEE = cms.int32(999999999), LoosePhotonHollowTrkOffsetEB = cms.double(3.5), LoosePhotonHollowTrkOffsetEE = cms.double(3.5), LoosePhotonHollowTrkSlopeEB = cms.double(0.001), LoosePhotonHollowTrkSlopeEE = cms.double(0.001), LoosePhotonR9CutEB = cms.double(0.0), LoosePhotonR9CutEE = cms.double(0.0), LoosePhotonSolidNTrkEB = cms.int32(999999999), LoosePhotonSolidNTrkEE = cms.int32(999999999), LoosePhotonSolidTrkEB = cms.double(999999999), LoosePhotonSolidTrkEE = cms.double(999999999), LoosePhotonSolidTrkOffsetEB = cms.double(999999999), LoosePhotonSolidTrkOffsetEE = cms.double(999999999), LoosePhotonSolidTrkSlopeEB = cms.double(0.0), LoosePhotonSolidTrkSlopeEE = cms.double(0.0), RequireFiducial = cms.bool(False), TightPhotonEcalIsoRelativeCutOffsetEB = cms.double(4.2), TightPhotonEcalIsoRelativeCutOffsetEE = cms.double(4.2), TightPhotonEcalIsoRelativeCutSlopeEB = cms.double(0.006), TightPhotonEcalIsoRelativeCutSlopeEE = cms.double(0.006), TightPhotonEtaWidthEB = cms.double(0.013), TightPhotonEtaWidthEE = cms.double(0.03), TightPhotonHadOverEMEB = cms.double(0.05), TightPhotonHadOverEMEE = cms.double(0.05), TightPhotonHcalTowerIsoOffsetEB = cms.double(2.2), TightPhotonHcalTowerIsoOffsetEE = cms.double(2.2), TightPhotonHcalTowerIsoSlopeEB = cms.double(0.0025), TightPhotonHcalTowerIsoSlopeEE = cms.double(0.0025), TightPhotonHollowNTrkEB = cms.int32(999999999), TightPhotonHollowNTrkEE = cms.int32(999999999), TightPhotonHollowTrkOffsetEB = cms.double(2.0), TightPhotonHollowTrkOffsetEE = cms.double(2.0), TightPhotonHollowTrkSlopeEB = cms.double(0.001), TightPhotonHollowTrkSlopeEE = cms.double(0.001), TightPhotonR9CutEB = cms.double(0.0), TightPhotonR9CutEE = cms.double(0.0), TightPhotonSolidNTrkEB = cms.int32(999999999), TightPhotonSolidNTrkEE = cms.int32(999999999), TightPhotonSolidTrkEB = cms.double(999999999), TightPhotonSolidTrkEE = cms.double(999999999), TightPhotonSolidTrkOffsetEB = cms.double(999999999), TightPhotonSolidTrkOffsetEE = cms.double(999999999), TightPhotonSolidTrkSlopeEB = cms.double(0.0), TightPhotonSolidTrkSlopeEE = cms.double(0.0), doCutBased = cms.bool(True), photonCutBasedIDLooseEMLabel = cms.string('PhotonCutBasedIDLooseEM'), photonCutBasedIDLooseLabel = cms.string('PhotonCutBasedIDLoose'), photonCutBasedIDTightLabel = cms.string('PhotonCutBasedIDTight'), photonLabel = cms.string(''), photonProducer = cms.string('gedPhotons') ) process.PixelLayerPairs = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), 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.PixelLayerTriplets = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), 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.RecoTauCleaner = cms.EDProducer("RecoTauCleaner", cleaners = cms.VPSet( cms.PSet( name = cms.string('Charge'), nprongs = cms.vuint32(1, 3), passForCharge = cms.int32(1), plugin = cms.string('RecoTauChargeCleanerPlugin'), selectionFailValue = cms.double(0) ), cms.PSet( name = cms.string('HPS_Select'), plugin = cms.string('RecoTauDiscriminantCleanerPlugin'), src = cms.InputTag("hpsSelectionDiscriminator") ), 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()') ) ), src = cms.InputTag("combinatoricRecoTaus") ) process.RecoTauJetRegionProducer = cms.EDProducer("RecoTauJetRegionProducer", deltaR = cms.double(0.8), maxJetAbsEta = cms.double(2.5), minJetPt = cms.double(14.0), pfCandAssocMapSrc = cms.InputTag(""), pfCandSrc = cms.InputTag("particleFlow"), src = cms.InputTag("ak4PFJets") ) process.RecoTauPiZeroUnembedder = cms.EDProducer("RecoTauPiZeroUnembedder", src = cms.InputTag("hpsPFTauProducerSansRefs") ) process.SETMuonSeed = cms.EDProducer("SETMuonSeedProducer", SETTrajBuilderParameters = cms.PSet( Apply_prePruning = cms.bool(True), CSC_01 = cms.vdouble( 0.155906, -0.000406, 0.0, 0.194022, -0.010181, 0.0 ), CSC_01_1_scale = cms.vdouble(-1.915329, 0.0), CSC_02 = cms.vdouble( 0.600235, -0.205683, 0.001113, 0.655625, -0.682129, 0.253916 ), CSC_03 = cms.vdouble( 0.498992, -0.086235, -0.025772, 2.761006, -2.667607, 0.72802 ), CSC_12 = cms.vdouble( -0.363549, 0.569552, -0.173186, 7.777069, -10.203618, 3.478874 ), 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( 1.22495, -1.792358, 0.711378, 5.271848, -6.280625, 2.0142 ), CSC_13_2_scale = cms.vdouble(-6.077936, 0.0), CSC_13_3_scale = cms.vdouble(-1.701268, 0.0), CSC_14 = cms.vdouble( 0.952517, -0.532733, 0.084601, 1.615881, -1.630744, 0.514139 ), CSC_14_3_scale = cms.vdouble(-1.969563, 0.0), CSC_23 = cms.vdouble( -0.095236, 0.122061, -0.029852, -11.396689, 15.933598, -4.267065 ), CSC_23_1_scale = cms.vdouble(-19.084285, 0.0), CSC_23_2_scale = cms.vdouble(-6.079917, 0.0), CSC_24 = cms.vdouble( -0.049769, 0.063087, -0.011029, -13.765978, 16.296143, -4.241835 ), CSC_24_1_scale = cms.vdouble(-6.055701, 0.0), CSC_34 = cms.vdouble( 0.144321, -0.142283, 0.035636, 190.260708, -180.888643, 43.430395 ), CSC_34_1_scale = cms.vdouble(-11.520507, 0.0), DT_12 = cms.vdouble( 0.176182, 0.058535, -0.090549, 0.202363, -0.203126, 0.222219 ), DT_12_1_scale = cms.vdouble(-3.692398, 0.0), DT_12_2_scale = cms.vdouble(-3.518165, 0.0), DT_13 = cms.vdouble( 0.298842, 0.076531, -0.14293, 0.219923, -0.145026, 0.155638 ), DT_13_1_scale = cms.vdouble(-4.520923, 0.0), DT_13_2_scale = cms.vdouble(-4.257687, 0.0), DT_14 = cms.vdouble( 0.388423, 0.068698, -0.145925, 0.159515, 0.124299, -0.133269 ), DT_14_1_scale = cms.vdouble(-5.644816, 0.0), DT_14_2_scale = cms.vdouble(-4.808546, 0.0), DT_23 = cms.vdouble( 0.120647, 0.034743, -0.070855, 0.302427, -0.21417, 0.261012 ), DT_23_1_scale = cms.vdouble(-5.320346, 0.0), DT_23_2_scale = cms.vdouble(-5.117625, 0.0), DT_24 = cms.vdouble( 0.189527, 0.037328, -0.088523, 0.251936, 0.032411, 0.010984 ), DT_24_1_scale = cms.vdouble(-7.490909, 0.0), DT_24_2_scale = cms.vdouble(-6.63094, 0.0), DT_34 = cms.vdouble( 0.049146, -0.003494, -0.010099, 0.672095, 0.36459, -0.304346 ), DT_34_1_scale = cms.vdouble(-13.783765, 0.0), DT_34_2_scale = cms.vdouble(-11.901897, 0.0), FilterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableRPCMeasurement = cms.bool(True), MinLocalSegmentAngle = cms.double(0.09), OutsideChamberErrorScale = cms.double(1.0), Propagator = cms.string('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), maxActiveChambers = cms.int32(100) ), OL_1213 = cms.vdouble( 0.960544, -0.75644, 0.0, 0.1636, 0.114178, 0.0 ), OL_1213_0_scale = cms.vdouble(-4.488158, 0.0), OL_1222 = cms.vdouble( 0.215915, 0.002556, 0.0, 0.313596, -0.021465, 0.0 ), OL_1222_0_scale = cms.vdouble(-5.810449, 0.0), OL_1232 = cms.vdouble( 0.162626, 0.000843, 0.0, 0.396271, 0.002791, 0.0 ), OL_1232_0_scale = cms.vdouble(-5.964634, 0.0), OL_2213 = cms.vdouble( 0.563218, -0.493991, 0.0, 0.943776, -0.591751, 0.0 ), OL_2213_0_scale = cms.vdouble(-7.239789, 0.0), OL_2222 = cms.vdouble( 0.087587, 0.005729, 0.0, 0.535169, -0.087675, 0.0 ), OL_2222_0_scale = cms.vdouble(-7.667231, 0.0), SMB_10 = cms.vdouble( 1.160532, 0.148991, 0.0, 0.182785, -0.093776, 0.0 ), SMB_10_0_scale = cms.vdouble(2.448566, 0.0), SMB_11 = cms.vdouble( 1.289468, -0.139653, 0.0, 0.137191, 0.01217, 0.0 ), SMB_11_0_scale = cms.vdouble(2.56363, 0.0), SMB_12 = cms.vdouble( 1.923091, -0.913204, 0.0, 0.161556, 0.020215, 0.0 ), SMB_12_0_scale = cms.vdouble(2.283221, 0.0), SMB_20 = cms.vdouble( 0.861314, -0.16233, 0.0, 0.248879, -0.113879, 0.0 ), SMB_20_0_scale = cms.vdouble(1.486168, 0.0), SMB_21 = cms.vdouble( 0.918425, -0.141199, 0.0, 0.254515, -0.111848, 0.0 ), SMB_21_0_scale = cms.vdouble(1.58384, 0.0), SMB_22 = cms.vdouble( 1.308565, -0.701634, 0.0, -0.302861, 0.675785, 0.0 ), SMB_22_0_scale = cms.vdouble(1.346681, 0.0), SMB_30 = cms.vdouble( 0.399628, 0.014922, 0.0, 0.665622, 0.358439, 0.0 ), SMB_30_0_scale = cms.vdouble(-3.629838, 0.0), SMB_31 = cms.vdouble( 0.398661, -0.024853, 0.0, 0.863324, -0.413048, 0.0 ), SMB_31_0_scale = cms.vdouble(-3.323768, 0.0), SMB_32 = cms.vdouble( 0.421649, -0.111654, 0.0, -0.044613, 1.134858, 0.0 ), SMB_32_0_scale = cms.vdouble(-3.054156, 0.0), SME_11 = cms.vdouble( 2.39479, -0.888663, 0.0, -4.604546, 3.623464, 0.0 ), SME_11_0_scale = cms.vdouble(1.325085, 0.0), SME_12 = cms.vdouble( -0.277294, 0.7616, 0.0, -0.243326, 1.446792, 0.0 ), SME_12_0_scale = cms.vdouble(2.279181, 0.0), SME_13 = cms.vdouble( 0.398851, 0.028176, 0.0, 0.567015, 2.623232, 0.0 ), SME_13_0_scale = cms.vdouble(0.104905, 0.0), SME_21 = cms.vdouble( 0.64895, -0.148762, 0.0, -5.07676, 6.284227, 0.0 ), SME_21_0_scale = cms.vdouble(-0.040862, 0.0), SME_22 = cms.vdouble( -0.624708, 0.641043, 0.0, 32.581295, -19.604264, 0.0 ), SME_22_0_scale = cms.vdouble(-3.457901, 0.0), SME_31 = cms.vdouble( -0.588188, 0.316961, 0.0, -95.261732, 45.444051, 0.0 ), SME_32 = cms.vdouble( -0.021912, -0.008995, 0.0, -49.779764, 30.780972, 0.0 ), SME_41 = cms.vdouble( -0.187116, 0.076415, 0.0, -58.552583, 27.933864, 0.0 ), SME_42 = cms.vdouble( -0.021912, -0.008995, 0.0, -49.779764, 30.780972, 0.0 ), UseSegmentsInTrajectory = cms.bool(False), scaleDT = cms.bool(True) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), beamSpotTag = cms.InputTag("offlineBeamSpot") ) process.TrackCollectionMerger = cms.EDProducer("TrackCollectionMerger", allowFirstHitShare = cms.bool(True), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), enableMerging = cms.bool(True), foundHitBonus = cms.double(10), inputClassifiers = cms.vstring(), lostHitPenalty = cms.double(5), minQuality = cms.string('loose'), minShareHits = cms.uint32(2), shareFrac = cms.double(0.19), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder'), trackProducers = cms.VInputTag() ) process.TrackCutClassifier = cms.EDProducer("TrackCutClassifier", beamspot = cms.InputTag("offlineBeamSpot"), 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), drWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_exp = cms.vint32(2147483647, 2147483647, 2147483647), dr_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), dz_par = cms.PSet( dzWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_exp = cms.vint32(2147483647, 2147483647, 2147483647), dz_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), isHLT = cms.bool(False), maxChi2 = cms.vdouble(9999, 25, 16), maxChi2n = cms.vdouble(9999, 1, 0.4), maxDr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDz = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24, 15), maxLostLayers = cms.vint32(99, 3, 3), maxRelPtErr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), min3DLayers = cms.vint32(1, 2, 3), minHits = cms.vint32(0, 0, 1), minHits4pass = cms.vint32(2147483647, 2147483647, 2147483647), minLayers = cms.vint32(3, 4, 5), minNVtxTrk = cms.int32(2), minNdof = cms.vdouble(-1, -1, -1), minPixelHits = cms.vint32(0, 0, 1) ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag(""), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.TrackMVAClassifierDetached = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('') ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag(""), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.TrackMVAClassifierPrompt = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('') ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag(""), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.TrackProducer = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('KFFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("ckfTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.ak4CaloJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(True), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.3), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10.0), jetType = cms.string('CaloJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nSigmaPU = cms.double(1.0), puPtMin = cms.double(10), rParam = cms.double(0.4), radiusPU = cms.double(0.5), src = cms.InputTag("towerMaker"), srcPVs = cms.InputTag("offlinePrimaryVertices"), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4CaloJetsForTrk = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(True), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.3), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10.0), jetType = cms.string('CaloJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), nSigmaPU = cms.double(1.0), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puPtMin = cms.double(8), puWidth = cms.double(0.8), rParam = cms.double(0.4), radiusPU = cms.double(0.5), src = cms.InputTag("caloTowerForTrk"), srcPVs = cms.InputTag("firstStepPrimaryVerticesUnsorted"), subtractorName = cms.string('MultipleAlgoIterator'), sumRecHits = cms.bool(False), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4CaloJetsForTrkPreSplitting = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(True), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.3), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10.0), jetType = cms.string('CaloJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), nSigmaPU = cms.double(1.0), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puPtMin = cms.double(8), puWidth = cms.double(0.8), rParam = cms.double(0.4), radiusPU = cms.double(0.5), src = cms.InputTag("caloTowerForTrkPreSplitting"), srcPVs = cms.InputTag("firstStepPrimaryVerticesPreSplitting"), subtractorName = cms.string('MultipleAlgoIterator'), sumRecHits = cms.bool(False), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4CaloJetsPUCorr = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(False), doPUOffsetCorr = cms.bool(True), doPVCorrection = cms.bool(True), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.3), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10.0), jetType = cms.string('CaloJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nSigmaPU = cms.double(1.0), puPtMin = cms.double(10), rParam = cms.double(0.4), radiusPU = cms.double(0.5), src = cms.InputTag("towerMaker"), srcPVs = cms.InputTag("offlinePrimaryVertices"), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4JetExtender = cms.EDProducer("JetExtender", coneSize = cms.double(0.4), jet2TracksAtCALO = cms.InputTag("ak4JetTracksAssociatorAtCaloFace"), jet2TracksAtVX = cms.InputTag("ak4JetTracksAssociatorAtVertex"), jets = cms.InputTag("ak4CaloJets") ) process.ak4JetID = cms.EDProducer("JetIDProducer", ebRecHitsColl = cms.InputTag("ecalRecHit","EcalRecHitsEB"), eeRecHitsColl = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hbheRecHitsColl = cms.InputTag("hbhereco"), hfRecHitsColl = cms.InputTag("hfreco"), hoRecHitsColl = cms.InputTag("horeco"), rpcRecHits = cms.InputTag("rpcRecHits"), src = cms.InputTag("ak4CaloJets"), useRecHits = cms.bool(True) ) process.ak4JetTracksAssociatorAtCaloFace = cms.EDProducer("JetTracksAssociatorAtCaloFace", coneSize = cms.double(0.4), extrapolations = cms.InputTag("trackExtrapolator"), jets = cms.InputTag("ak4CaloJets"), trackQuality = cms.string('goodIterative'), tracks = cms.InputTag("generalTracks") ) process.ak4JetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("ak4CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.ak4JetTracksAssociatorAtVertexJPT = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("ak4CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(True) ) process.ak4JetTracksAssociatorAtVertexPF = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("ak4PFJetsCHS"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.ak4JetTracksAssociatorExplicit = cms.EDProducer("JetTracksAssociatorExplicit", coneSize = cms.double(0.4), jets = cms.InputTag("ak4PFJetsCHS"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.ak4PFCHSL1FastL2L3Corrector = cms.EDProducer("ChainedJetCorrectorProducer", correctors = cms.VInputTag("ak4PFCHSL1FastjetCorrector", "ak4PFCHSL2RelativeCorrector", "ak4PFCHSL3AbsoluteCorrector") ) process.ak4PFCHSL1FastL2L3ResidualCorrector = cms.EDProducer("ChainedJetCorrectorProducer", correctors = cms.VInputTag("ak4PFCHSL1FastjetCorrector", "ak4PFCHSL2RelativeCorrector", "ak4PFCHSL3AbsoluteCorrector", "ak4PFCHSResidualCorrector") ) process.ak4PFCHSL1FastjetCorrector = cms.EDProducer("L1FastjetCorrectorProducer", algorithm = cms.string('AK4PFchs'), level = cms.string('L1FastJet'), srcRho = cms.InputTag("fixedGridRhoFastjetAll") ) process.ak4PFCHSL2RelativeCorrector = cms.EDProducer("LXXXCorrectorProducer", algorithm = cms.string('AK4PFchs'), level = cms.string('L2Relative') ) process.ak4PFCHSL3AbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer", algorithm = cms.string('AK4PFchs'), level = cms.string('L3Absolute') ) process.ak4PFCHSResidualCorrector = cms.EDProducer("LXXXCorrectorProducer", algorithm = cms.string('AK4PFchs'), level = cms.string('L2L3Residual') ) process.ak4PFJetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("ak4PFJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.ak4PFJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.4), src = cms.InputTag("pfNoPileUpJMEHI"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4PFJetsCHS = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.4), src = cms.InputTag("pfNoPileUpJMEHI"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4PFJetsCS = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), csRParam = cms.double(0.4), csRho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.4), src = cms.InputTag("particleFlow"), srcPVs = cms.InputTag(""), useConstituentSubtraction = cms.bool(True), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4PFJetsLegacyHPSPiZeros = cms.EDProducer("RecoTauPiZeroProducer", builders = cms.VPSet(cms.PSet( applyElecTrackQcuts = cms.bool(False), makeCombinatoricStrips = cms.bool(False), maxStripBuildIterations = cms.int32(-1), minGammaEtStripAdd = cms.double(1.0), minGammaEtStripSeed = cms.double(1.0), minStripEt = cms.double(1.0), name = cms.string('s'), plugin = cms.string('RecoTauPiZeroStripPlugin3'), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), stripCandidatesParticleIds = cms.vint32(2, 4), stripEtaAssociationDistance = cms.PSet( function = cms.string('TMath::Min(0.15, TMath::Max(0.05, [0]*TMath::Power(pT, -[1])))'), par0 = cms.double(0.197077), par1 = cms.double(0.658701) ), stripPhiAssociationDistance = cms.PSet( function = cms.string('TMath::Min(0.3, TMath::Max(0.05, [0]*TMath::Power(pT, -[1])))'), par0 = cms.double(0.352476), par1 = cms.double(0.707716) ), updateStripAfterEachDaughter = cms.bool(False) )), jetSrc = cms.InputTag("ak4PFJets"), massHypothesis = cms.double(0.136), maxJetAbsEta = cms.double(2.5), minJetPt = cms.double(14.0), 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), selectionPassFunction = cms.string('abs(mass() - 0.13579)') )) ) process.ak4PFJetsPuppi = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.4), src = cms.InputTag("puppi"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4PFJetsRecoTauChargedHadrons = 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(1.0), minMergeNeutralHadronEt = cms.double(1.0), name = cms.string('chargedPFCandidates'), plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ) ), cms.PSet( dRcone = cms.double(0.5), dRconeLimitedToJetArea = cms.bool(False), dRmergeNeutralHadron = cms.double(0.1), dRmergePhoton = cms.double(0.05), minMergeChargedHadronPt = cms.double(100.0), minMergeGammaEt = cms.double(1.0), minMergeNeutralHadronEt = cms.double(1.0), name = cms.string('tracks'), plugin = cms.string('PFRecoTauChargedHadronFromTrackPlugin'), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), srcTracks = cms.InputTag("generalTracks") ), 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(1.0), minMergeNeutralHadronEt = cms.double(1.0), name = cms.string('PFNeutralHadrons'), plugin = cms.string('PFRecoTauChargedHadronFromPFCandidatePlugin'), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ) ) ), jetSrc = cms.InputTag("ak4PFJets"), maxJetAbsEta = cms.double(2.5), minJetPt = cms.double(14.0), 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(\'kTrack\')"), 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') ) ) ) process.ak4PFJetsSK = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.4), src = cms.InputTag("softKiller"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak4PFL1FastL2L3Corrector = cms.EDProducer("ChainedJetCorrectorProducer", correctors = cms.VInputTag("ak4PFL1FastjetCorrector", "ak4PFL2RelativeCorrector", "ak4PFL3AbsoluteCorrector") ) process.ak4PFL1FastjetCorrector = cms.EDProducer("L1FastjetCorrectorProducer", algorithm = cms.string('AK4PF'), level = cms.string('L1FastJet'), srcRho = cms.InputTag("fixedGridRhoFastjetAll") ) process.ak4PFL2RelativeCorrector = cms.EDProducer("LXXXCorrectorProducer", algorithm = cms.string('AK4PF'), level = cms.string('L2Relative') ) process.ak4PFL3AbsoluteCorrector = cms.EDProducer("LXXXCorrectorProducer", algorithm = cms.string('AK4PF'), level = cms.string('L3Absolute') ) process.ak4TrackJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), DxyTrVtxMax = cms.double(0.2), DzTrVtxMax = cms.double(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), MaxVtxZ = cms.double(15.0), MinVtxNdof = cms.int32(5), UseOnlyOnePV = cms.bool(False), UseOnlyVertexTracks = cms.bool(False), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(False), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(3.0), jetType = cms.string('TrackJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nSigmaPU = cms.double(1.0), rParam = cms.double(0.4), radiusPU = cms.double(0.5), src = cms.InputTag("trackRefsForJets"), srcPVs = cms.InputTag("offlinePrimaryVertices"), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak5CastorJetID = cms.EDProducer("CastorJetIDProducer", src = cms.InputTag("ak5CastorJets") ) process.ak5CastorJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), doAreaFastjet = cms.bool(False), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(True), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(0.0), jetType = cms.string('BasicJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), nSigmaPU = cms.double(1.0), rParam = cms.double(0.5), radiusPU = cms.double(0.5), src = cms.InputTag("CastorTowerReco"), srcPVs = cms.InputTag("offlinePrimaryVertices") ) process.ak7CastorJetID = cms.EDProducer("CastorJetIDProducer", src = cms.InputTag("ak7CastorJets") ) process.ak7CastorJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), doAreaFastjet = cms.bool(False), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(True), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(0.0), jetType = cms.string('BasicJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), nSigmaPU = cms.double(1.0), rParam = cms.double(0.7), radiusPU = cms.double(0.5), src = cms.InputTag("CastorTowerReco"), srcPVs = cms.InputTag("offlinePrimaryVertices") ) process.ak7JetExtender = cms.EDProducer("JetExtender", coneSize = cms.double(0.7), jet2TracksAtCALO = cms.InputTag("ak7JetTracksAssociatorAtCaloFace"), jet2TracksAtVX = cms.InputTag("ak7JetTracksAssociatorAtVertex"), jets = cms.InputTag("ak7CaloJets") ) process.ak7JetTracksAssociatorAtCaloFace = cms.EDProducer("JetTracksAssociatorAtCaloFace", coneSize = cms.double(0.5), extrapolations = cms.InputTag("trackExtrapolator"), jets = cms.InputTag("ak7CaloJets"), trackQuality = cms.string('goodIterative'), tracks = cms.InputTag("generalTracks") ) process.ak7JetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.5), jets = cms.InputTag("ak7CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.ak7JetTracksAssociatorAtVertexPF = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.5), jets = cms.InputTag("ak7PFJetsCHS"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.ak8PFJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(50.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.8), src = cms.InputTag("pfNoPileUpJMEHI"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak8PFJetsCHS = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(50.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.8), src = cms.InputTag("pfNoPileUpJMEHI"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak8PFJetsCHSConstituents = cms.EDProducer("PFJetConstituentSelector", cut = cms.string('pt > 100.0 && abs(rapidity()) < 2.4'), src = cms.InputTag("ak8PFJetsCHS") ) process.ak8PFJetsCHSFiltered = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nFilt = cms.int32(3), rFilt = cms.double(0.3), rParam = cms.double(0.8), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), useFiltering = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True) ) process.ak8PFJetsCHSFilteredMass = cms.EDProducer("RecoJetDeltaRValueMapProducer", distMax = cms.double(0.8), matched = cms.InputTag("ak8PFJetsCHSFiltered"), src = cms.InputTag("ak8PFJetsCHS"), value = cms.string('mass') ) process.ak8PFJetsCHSMassDropFiltered = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), muCut = cms.double(0.667), rParam = cms.double(0.8), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useMassDropTagger = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True), yCut = cms.double(0.08) ) process.ak8PFJetsCHSPruned = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(False), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nFilt = cms.int32(2), rParam = cms.double(0.8), rcut_factor = cms.double(0.5), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), usePruning = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True), zcut = cms.double(0.1) ) process.ak8PFJetsCHSPrunedMass = cms.EDProducer("RecoJetDeltaRValueMapProducer", distMax = cms.double(0.8), matched = cms.InputTag("ak8PFJetsCHSPruned"), src = cms.InputTag("ak8PFJetsCHS"), value = cms.string('mass') ) process.ak8PFJetsCHSSoftDrop = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), R0 = cms.double(0.8), Rho_EtaMax = cms.double(4.4), beta = cms.double(0.0), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.8), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), useSoftDrop = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True), zcut = cms.double(0.1) ) process.ak8PFJetsCHSSoftDropMass = cms.EDProducer("RecoJetDeltaRValueMapProducer", distMax = cms.double(0.8), matched = cms.InputTag("ak8PFJetsCHSSoftDrop"), src = cms.InputTag("ak8PFJetsCHS"), value = cms.string('mass') ) process.ak8PFJetsCHSTrimmed = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rFilt = cms.double(0.2), rParam = cms.double(0.8), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), trimPtFracMin = cms.double(0.03), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), useTrimming = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak8PFJetsCHSTrimmedMass = cms.EDProducer("RecoJetDeltaRValueMapProducer", distMax = cms.double(0.8), matched = cms.InputTag("ak8PFJetsCHSTrimmed"), src = cms.InputTag("ak8PFJetsCHS"), value = cms.string('mass') ) process.ak8PFJetsCS = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), csRParam = cms.double(0.4), csRho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.8), src = cms.InputTag("pfNoPileUpJMEHI"), srcPVs = cms.InputTag(""), useConstituentSubtraction = cms.bool(True), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak8PFJetsCSConstituents = cms.EDProducer("PFJetConstituentSelector", cut = cms.string('pt > 100.0'), src = cms.InputTag("ak8PFJetsCS") ) process.ak8PFJetsPuppi = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(50.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.8), src = cms.InputTag("puppi"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.ak8PFJetsPuppiConstituents = cms.EDProducer("PFJetConstituentSelector", cut = cms.string('pt > 100.0 && abs(rapidity()) < 2.4'), src = cms.InputTag("ak8PFJetsPuppi") ) process.ak8PFJetsPuppiSoftDrop = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), R0 = cms.double(0.8), Rho_EtaMax = cms.double(4.4), beta = cms.double(0.0), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('AntiKt'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.8), src = cms.InputTag("ak8PFJetsPuppiConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), useSoftDrop = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True), zcut = cms.double(0.1) ) process.akCs4PFJets = cms.EDProducer("CSJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.005), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.5), csAlpha = cms.double(2.0), csRParam = cms.double(-1.0), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(True), etaMap = cms.InputTag("hiFJRhoProducer","mapEtaEdges"), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetCollInstanceName = cms.string('pfParticlesCs'), jetPtMin = cms.double(0.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puWidth = cms.double(0.8), rParam = cms.double(0.4), rho = cms.InputTag("hiFJRhoProducer","mapToRho"), rhom = cms.InputTag("hiFJRhoProducer","mapToRhoM"), src = cms.InputTag("particleFlow"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), voronoiRfact = cms.double(-0.9), writeJetsWithConst = cms.bool(True) ) process.akPu3PFJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.5), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(False), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(True), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(True), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10), jetType = cms.string('BasicJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puPtMin = cms.double(15), puWidth = cms.double(0.8), rParam = cms.double(0.3), src = cms.InputTag("PFTowers"), srcPVs = cms.InputTag(""), subtractorName = cms.string('MultipleAlgoIterator'), sumRecHits = cms.bool(False), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.akPu4CaloJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(True), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.3), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10.0), jetType = cms.string('CaloJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), nSigmaPU = cms.double(1.0), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puPtMin = cms.double(8), puWidth = cms.double(0.8), rParam = cms.double(0.4), radiusPU = cms.double(0.5), src = cms.InputTag("towerMaker"), srcPVs = cms.InputTag("offlinePrimaryVertices"), subtractorName = cms.string('MultipleAlgoIterator'), sumRecHits = cms.bool(False), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.akPu4PFJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.5), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(False), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(True), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(True), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('AntiKt'), jetPtMin = cms.double(10), jetType = cms.string('BasicJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puPtMin = cms.double(20), puWidth = cms.double(0.8), rParam = cms.double(0.4), src = cms.InputTag("PFTowers"), srcPVs = cms.InputTag(""), subtractorName = cms.string('MultipleAlgoIterator'), sumRecHits = cms.bool(False), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.allConversions = cms.EDProducer("ConversionProducer", AlgorithmName = cms.string('mixed'), AllowD0 = cms.bool(True), AllowDeltaCot = cms.bool(True), AllowDeltaPhi = cms.bool(False), AllowMinApproach = cms.bool(True), AllowOppCharge = cms.bool(True), AllowRightBC = cms.bool(False), AllowSingleLeg = cms.bool(False), AllowTrackBC = cms.bool(False), AllowVertex = cms.bool(True), DeltaCotTheta = cms.double(0.1), DeltaPhi = cms.double(0.2), EnergyBC = cms.double(0.3), EnergyTotalBC = cms.double(0.3), HalfwayEta = cms.double(0.1), MaxChi2Left = cms.double(10.0), MaxChi2Right = cms.double(10.0), MinApproachHigh = cms.double(1.0), MinApproachLow = cms.double(-0.25), MinHitsLeft = cms.int32(4), MinHitsRight = cms.int32(2), UsePvtx = cms.bool(True), bcBarrelCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALBarrel"), bcEndcapCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALEndcap"), bypassPreselEcal = cms.bool(False), bypassPreselEcalEcal = cms.bool(True), bypassPreselGsf = cms.bool(True), convertedPhotonCollection = cms.string(''), d0 = cms.double(0.0), dEtaTrackBC = cms.double(0.2), dEtacutForSCmatching = cms.double(0.03), dPhiTrackBC = cms.double(1.0), dPhicutForSCmatching = cms.double(0.05), deltaEta = cms.double(0.4), dz = cms.double(5.0), maxDelta = cms.double(0.01), maxNbrOfIterations = cms.int32(40), maxNumOfTrackInPU = cms.int32(999999), maxReducedChiSq = cms.double(225.0), maxTrackRho = cms.double(120.0), maxTrackZ = cms.double(300.0), minChiSqImprovement = cms.double(50.0), minSCEt = cms.double(10.0), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), rCut = cms.double(2.0), scBarrelProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), scEndcapProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALEndcapWithPreshower"), src = cms.InputTag("gsfGeneralInOutOutInConversionTrackMerger"), vtxChi2 = cms.double(0.0005) ) process.allConversionsOldEG = cms.EDProducer("ConversionProducer", AlgorithmName = cms.string('mixed'), AllowD0 = cms.bool(True), AllowDeltaCot = cms.bool(True), AllowDeltaPhi = cms.bool(False), AllowMinApproach = cms.bool(True), AllowOppCharge = cms.bool(True), AllowRightBC = cms.bool(False), AllowSingleLeg = cms.bool(False), AllowTrackBC = cms.bool(False), AllowVertex = cms.bool(True), DeltaCotTheta = cms.double(0.1), DeltaPhi = cms.double(0.2), EnergyBC = cms.double(0.3), EnergyTotalBC = cms.double(0.3), HalfwayEta = cms.double(0.1), MaxChi2Left = cms.double(10.0), MaxChi2Right = cms.double(10.0), MinApproachHigh = cms.double(1.0), MinApproachLow = cms.double(-0.25), MinHitsLeft = cms.int32(4), MinHitsRight = cms.int32(2), UsePvtx = cms.bool(True), bcBarrelCollection = cms.InputTag("hybridSuperClusters","hybridBarrelBasicClusters"), bcEndcapCollection = cms.InputTag("multi5x5SuperClusters","multi5x5EndcapBasicClusters"), bypassPreselEcal = cms.bool(False), bypassPreselEcalEcal = cms.bool(True), bypassPreselGsf = cms.bool(True), convertedPhotonCollection = cms.string(''), d0 = cms.double(0.0), dEtaTrackBC = cms.double(0.2), dEtacutForSCmatching = cms.double(0.03), dPhiTrackBC = cms.double(1.0), dPhicutForSCmatching = cms.double(0.05), deltaEta = cms.double(0.4), dz = cms.double(5.0), maxDelta = cms.double(0.01), maxNbrOfIterations = cms.int32(40), maxNumOfTrackInPU = cms.int32(999999), maxReducedChiSq = cms.double(225.0), maxTrackRho = cms.double(120.0), maxTrackZ = cms.double(300.0), minChiSqImprovement = cms.double(50.0), minSCEt = cms.double(10.0), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), rCut = cms.double(2.0), scBarrelProducer = cms.InputTag("correctedHybridSuperClusters"), scEndcapProducer = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower"), src = cms.InputTag("gsfGeneralInOutOutInConversionTrackMerger"), vtxChi2 = cms.double(0.0005) ) process.ancientMuonSeed = cms.EDProducer("MuonSeedGenerator", CSCRecSegmentLabel = cms.InputTag("cscSegments"), 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("dt4DSegments"), 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("offlineBeamSpot"), 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.bToCharmDecayVertexMerged = cms.EDProducer("BtoCharmDecayVertexMerger", maxDRUnique = cms.double(0.4), maxPtreltomerge = cms.double(7777.0), maxvecSumIMifsmallDRUnique = cms.double(5.5), minCosPAtomerge = cms.double(0.99), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("inclusiveSecondaryVerticesFiltered") ) process.beamhaloTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('BeamHaloNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('CkfTrajectoryBuilderBeamHalo') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('BeamHaloPropagatorAlong'), propagatorOppositeTISE = cms.string('BeamHaloPropagatorOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("beamhaloTrackerSeeds"), useHitsSplitting = cms.bool(True) ) process.beamhaloTrackerSeedingLayers = cms.EDProducer("SeedingLayersEDProducer", FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('TTRHBuilderWithoutAngle4PixelPairs') ), MTEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(7), minRing = cms.int32(5), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), useRingSlector = cms.bool(False) ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), useRingSlector = cms.bool(True) ), TID = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), useRingSlector = cms.bool(False) ), layerList = cms.vstring( 'FPix1_pos+FPix2_pos', 'FPix1_neg+FPix2_neg', 'TID2_pos+TID3_pos', 'TID2_neg+TID3_neg', 'TEC1_neg+TEC2_neg', 'TEC1_pos+TEC2_pos', 'TEC2_neg+TEC3_neg', 'TEC2_pos+TEC3_pos', 'TEC3_neg+TEC4_neg', 'TEC3_pos+TEC4_pos', 'TEC4_neg+TEC5_neg', 'TEC4_pos+TEC5_pos', 'TEC5_neg+TEC6_neg', 'TEC5_pos+TEC6_pos', 'MTEC7_neg+MTEC8_neg', 'MTEC7_pos+MTEC8_pos', 'MTEC8_neg+MTEC9_neg', 'MTEC8_pos+MTEC9_pos' ) ) process.beamhaloTrackerSeeds = cms.EDProducer("CtfSpecialSeedGenerator", Charges = cms.vint32(-1, 1), CheckHitsAreOnDifferentLayers = cms.bool(False), ClusterCollectionLabel = cms.InputTag("siStripClusters"), ErrorRescaling = cms.double(50.0), MaxNumberOfCosmicClusters = cms.uint32(10000), MaxNumberOfPixelClusters = cms.uint32(10000), OrderedHitsFactoryPSets = cms.VPSet( cms.PSet( ComponentName = cms.string('BeamHaloPairGenerator'), LayerSrc = cms.InputTag("beamhaloTrackerSeedingLayers"), NavigationDirection = cms.string('outsideIn'), PropagationDirection = cms.string('alongMomentum'), maxTheta = cms.double(0.1) ), cms.PSet( ComponentName = cms.string('BeamHaloPairGenerator'), LayerSrc = cms.InputTag("beamhaloTrackerSeedingLayers"), NavigationDirection = cms.string('outsideIn'), PropagationDirection = cms.string('oppositeToMomentum'), maxTheta = cms.double(0.1) ) ), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducer'), RegionPSet = cms.PSet( originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), originXPos = cms.double(0.0), originYPos = cms.double(0.0), originZPos = cms.double(0.0), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ), SeedMomentum = cms.double(15.0), SeedsFromNegativeY = cms.bool(False), SeedsFromPositiveY = cms.bool(False), SetMomentum = cms.bool(True), TTRHBuilder = cms.string('WithTrackAngle'), UseScintillatorsConstraint = cms.bool(False), doClusterCheck = cms.bool(True), maxSeeds = cms.int32(10000), requireBOFF = cms.bool(False) ) process.beamhaloTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('beamhalo'), Fitter = cms.string('KFFittingSmootherBH'), GeometricInnerState = cms.bool(True), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('BeamHaloNavigationSchool'), Propagator = cms.string('BeamHaloPropagatorAlong'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('beamhaloTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("beamhaloTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.bmtfDigis = cms.EDProducer("L1TRawToDigi", FWId = cms.uint32(1), FedIds = cms.vint32(1376, 1377), InputLabel = cms.InputTag("rawDataMapperByLabel"), Setup = cms.string('stage2::BMTFSetup'), 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.bunchSpacingProducer = cms.EDProducer("BunchSpacingProducer") process.ca15PFJetsCHSFiltered = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('CambridgeAachen'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nFilt = cms.int32(3), rFilt = cms.double(0.3), rParam = cms.double(1.5), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useExplicitGhosts = cms.bool(True), useFiltering = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True) ) process.ca15PFJetsCHSMassDropFiltered = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(9999), jetAlgorithm = cms.string('CambridgeAachen'), jetCollInstanceName = cms.string('SubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), muCut = cms.double(0.667), rParam = cms.double(1.5), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), useMassDropTagger = cms.bool(True), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True), yCut = cms.double(0.08) ) process.caloLayer1Digis = cms.EDProducer("L1TRawToDigi", CTP7 = cms.untracked.bool(True), FWId = cms.uint32(305419896), FedIds = cms.vint32(1354, 1356, 1358), InputLabel = cms.InputTag("rawDataMapperByLabel"), Setup = cms.string('stage2::CaloLayer1Setup'), debug = cms.untracked.bool(False) ) process.caloMet = cms.EDProducer("CaloMETProducer", alias = cms.string('caloMet'), calculateSignificance = cms.bool(False), globalThreshold = cms.double(0.3), noHF = cms.bool(False), src = cms.InputTag("towerMaker") ) process.caloMetBE = cms.EDProducer("CaloMETProducer", alias = cms.string('caloMetBE'), calculateSignificance = cms.bool(False), globalThreshold = cms.double(0.3), noHF = cms.bool(True), src = cms.InputTag("towerMaker") ) process.caloMetBEFO = cms.EDProducer("CaloMETProducer", alias = cms.string('caloMetBEFO'), calculateSignificance = cms.bool(False), globalThreshold = cms.double(0.3), noHF = cms.bool(False), src = cms.InputTag("towerMakerWithHO") ) process.caloMetBEO = cms.EDProducer("CaloMETProducer", alias = cms.string('caloMetBEO'), calculateSignificance = cms.bool(False), globalThreshold = cms.double(0.3), noHF = cms.bool(True), src = cms.InputTag("towerMakerWithHO") ) process.caloMetM = cms.EDProducer("MuonMET", metTypeInputTag = cms.InputTag("CaloMET"), muonMETDepositValueMapInputTag = cms.InputTag("muonMETValueMapProducer","muCorrData"), muonsInputTag = cms.InputTag("muons"), uncorMETInputTag = cms.InputTag("caloMet") ) process.caloStage1Digis = cms.EDProducer("L1TRawToDigi", FedIds = cms.vint32(1352), Setup = cms.string('stage1::CaloSetup') ) process.caloStage1FinalDigis = cms.EDProducer("L1TPhysicalEtAdder", InputCollection = cms.InputTag("caloStage1Digis"), InputHFCountsCollection = cms.InputTag("caloStage1Digis","HFBitCounts"), InputHFSumsCollection = cms.InputTag("caloStage1Digis","HFRingSums"), InputIsoTauCollection = cms.InputTag("caloStage1Digis","isoTaus"), InputPreGtJetCollection = cms.InputTag("caloStage1Digis"), InputRlxTauCollection = cms.InputTag("caloStage1Digis","rlxTaus") ) process.caloStage1LegacyFormatDigis = cms.EDProducer("L1TCaloUpgradeToGCTConverter", InputCollection = cms.InputTag("caloStage1Digis"), InputHFCountsCollection = cms.InputTag("caloStage1Digis","HFBitCounts"), InputHFSumsCollection = cms.InputTag("caloStage1Digis","HFRingSums"), InputIsoTauCollection = cms.InputTag("caloStage1Digis","isoTaus"), InputRlxTauCollection = cms.InputTag("caloStage1Digis","rlxTaus") ) process.caloStage2Digis = cms.EDProducer("L1TRawToDigi", FWId = cms.uint32(0), FWOverride = cms.bool(False), FedIds = cms.vint32(1360, 1366), MinFeds = cms.uint32(1), Setup = cms.string('stage2::CaloSetup'), TMTCheck = cms.bool(True) ) process.caloTowerForTrk = cms.EDProducer("CaloTowersCreator", AllowMissingInputs = cms.bool(False), EBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EBSumThreshold = cms.double(0.2), EBThreshold = cms.double(0.07), EBWeight = cms.double(1.0), EBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EEGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EESumThreshold = cms.double(0.45), EEThreshold = cms.double(0.3), EEWeight = cms.double(1.0), EEWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime', 'kWeird', 'kBad' ), EcalSeveritiesToBeUsedInBadTowers = cms.vstring(), EcutTower = cms.double(-1000.0), HBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HBThreshold = cms.double(0.7), HBThreshold1 = cms.double(0.7), HBThreshold2 = cms.double(0.7), HBWeight = cms.double(1.0), HBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HEDGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HEDThreshold = cms.double(0.2), HEDThreshold1 = cms.double(0.1), HEDWeight = cms.double(1.0), HEDWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HESGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HESThreshold = cms.double(0.2), HESThreshold1 = cms.double(0.1), HESWeight = cms.double(1.0), HESWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF1Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF1Threshold = cms.double(0.5), HF1Weight = cms.double(1.0), HF1Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF2Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF2Threshold = cms.double(0.85), HF2Weight = cms.double(1.0), HF2Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HOGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HOThreshold0 = cms.double(1.1), HOThresholdMinus1 = cms.double(3.5), HOThresholdMinus2 = cms.double(3.5), HOThresholdPlus1 = cms.double(3.5), HOThresholdPlus2 = cms.double(3.5), HOWeight = cms.double(1.0), HOWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), 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(True), UseHcalRecoveredHits = cms.bool(True), UseRejectedHitsOnly = cms.bool(False), UseRejectedRecoveredEcalHits = cms.bool(False), UseRejectedRecoveredHcalHits = cms.bool(True), UseSymEBTreshold = cms.bool(True), UseSymEETreshold = cms.bool(True), ecalInputs = cms.VInputTag(cms.InputTag("ecalRecHit","EcalRecHitsEB"), cms.InputTag("ecalRecHit","EcalRecHitsEE")), hbheInput = cms.InputTag("hbheprereco"), hfInput = cms.InputTag("hfreco"), hoInput = cms.InputTag("horeco"), missingHcalRescaleFactorForEcal = cms.double(1.0) ) process.caloTowerForTrkPreSplitting = cms.EDProducer("CaloTowersCreator", AllowMissingInputs = cms.bool(False), EBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EBSumThreshold = cms.double(0.2), EBThreshold = cms.double(0.07), EBWeight = cms.double(1.0), EBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EEGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EESumThreshold = cms.double(0.45), EEThreshold = cms.double(0.3), EEWeight = cms.double(1.0), EEWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime', 'kWeird', 'kBad' ), EcalSeveritiesToBeUsedInBadTowers = cms.vstring(), EcutTower = cms.double(-1000.0), HBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HBThreshold = cms.double(0.7), HBThreshold1 = cms.double(0.7), HBThreshold2 = cms.double(0.7), HBWeight = cms.double(1.0), HBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HEDGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HEDThreshold = cms.double(0.2), HEDThreshold1 = cms.double(0.1), HEDWeight = cms.double(1.0), HEDWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HESGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HESThreshold = cms.double(0.2), HESThreshold1 = cms.double(0.1), HESWeight = cms.double(1.0), HESWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF1Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF1Threshold = cms.double(0.5), HF1Weight = cms.double(1.0), HF1Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF2Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF2Threshold = cms.double(0.85), HF2Weight = cms.double(1.0), HF2Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HOGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HOThreshold0 = cms.double(1.1), HOThresholdMinus1 = cms.double(3.5), HOThresholdMinus2 = cms.double(3.5), HOThresholdPlus1 = cms.double(3.5), HOThresholdPlus2 = cms.double(3.5), HOWeight = cms.double(1.0), HOWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), 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(True), UseHcalRecoveredHits = cms.bool(True), UseRejectedHitsOnly = cms.bool(False), UseRejectedRecoveredEcalHits = cms.bool(False), UseRejectedRecoveredHcalHits = cms.bool(True), UseSymEBTreshold = cms.bool(True), UseSymEETreshold = cms.bool(True), ecalInputs = cms.VInputTag(cms.InputTag("ecalRecHit","EcalRecHitsEB"), cms.InputTag("ecalRecHit","EcalRecHitsEE")), hbheInput = cms.InputTag("hbheprereco"), hfInput = cms.InputTag("hfreco"), hoInput = cms.InputTag("horeco"), missingHcalRescaleFactorForEcal = cms.double(1.0) ) process.caloTowers = cms.EDProducer("CaloTowerCandidateCreator", e = cms.double(0.0), et = cms.double(0.0), minimumE = cms.double(0.0), minimumEt = cms.double(0.0), pt = cms.double(0.0), src = cms.InputTag("towerMaker"), verbose = cms.untracked.int32(0) ) process.calotowermaker = cms.EDProducer("CaloTowersCreator", AllowMissingInputs = cms.bool(False), EBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EBSumThreshold = cms.double(0.2), EBThreshold = cms.double(0.07), EBWeight = cms.double(1.0), EBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EEGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EESumThreshold = cms.double(0.45), EEThreshold = cms.double(0.3), EEWeight = cms.double(1.0), EEWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime', 'kWeird', 'kBad' ), EcalSeveritiesToBeUsedInBadTowers = cms.vstring(), EcutTower = cms.double(-1000.0), HBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HBThreshold = cms.double(0.7), HBThreshold1 = cms.double(0.7), HBThreshold2 = cms.double(0.7), HBWeight = cms.double(1.0), HBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HEDGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HEDThreshold = cms.double(0.2), HEDThreshold1 = cms.double(0.1), HEDWeight = cms.double(1.0), HEDWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HESGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HESThreshold = cms.double(0.2), HESThreshold1 = cms.double(0.1), HESWeight = cms.double(1.0), HESWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF1Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF1Threshold = cms.double(0.5), HF1Weight = cms.double(1.0), HF1Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF2Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF2Threshold = cms.double(0.85), HF2Weight = cms.double(1.0), HF2Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HOGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HOThreshold0 = cms.double(1.1), HOThresholdMinus1 = cms.double(3.5), HOThresholdMinus2 = cms.double(3.5), HOThresholdPlus1 = cms.double(3.5), HOThresholdPlus2 = cms.double(3.5), HOWeight = cms.double(1.0), HOWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), 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(True), UseHcalRecoveredHits = cms.bool(True), UseRejectedHitsOnly = cms.bool(False), UseRejectedRecoveredEcalHits = cms.bool(False), UseRejectedRecoveredHcalHits = cms.bool(True), UseSymEBTreshold = cms.bool(True), UseSymEETreshold = cms.bool(True), ecalInputs = cms.VInputTag(cms.InputTag("ecalRecHit","EcalRecHitsEB"), cms.InputTag("ecalRecHit","EcalRecHitsEE")), hbheInput = cms.InputTag("hbhereco"), hfInput = cms.InputTag("hfreco"), hoInput = cms.InputTag("horeco"), missingHcalRescaleFactorForEcal = cms.double(0) ) process.candidateVertexArbitrator = cms.EDProducer("CandidateVertexArbitrator", beamSpot = cms.InputTag("offlineBeamSpot"), dLenFraction = cms.double(0.333), dRCut = cms.double(0.4), distCut = cms.double(0.04), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxTimeSignificance = cms.double(3.5), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("candidateVertexMerger"), sigCut = cms.double(5), trackMinLayers = cms.int32(4), trackMinPixels = cms.int32(1), trackMinPt = cms.double(0.4), tracks = cms.InputTag("particleFlow") ) process.candidateVertexArbitratorCvsL = cms.EDProducer("CandidateVertexArbitrator", beamSpot = cms.InputTag("offlineBeamSpot"), dLenFraction = cms.double(0.333), dRCut = cms.double(0.4), distCut = cms.double(0.04), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxTimeSignificance = cms.double(3.5), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("candidateVertexMergerCvsL"), sigCut = cms.double(5), trackMinLayers = cms.int32(4), trackMinPixels = cms.int32(1), trackMinPt = cms.double(0.4), tracks = cms.InputTag("particleFlow") ) process.candidateVertexArbitratorDefault = cms.EDProducer("CandidateVertexArbitrator", beamSpot = cms.InputTag("offlineBeamSpot"), dLenFraction = cms.double(0.333), dRCut = cms.double(0.4), distCut = cms.double(0.04), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxTimeSignificance = cms.double(3.5), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("candidateVertexMerger"), sigCut = cms.double(5), trackMinLayers = cms.int32(4), trackMinPixels = cms.int32(1), trackMinPt = cms.double(0.4), tracks = cms.InputTag("particleFlow") ) process.candidateVertexMerger = cms.EDProducer("CandidateVertexMerger", maxFraction = cms.double(0.7), minSignificance = cms.double(2), secondaryVertices = cms.InputTag("inclusiveCandidateVertexFinder") ) process.candidateVertexMergerCvsL = cms.EDProducer("CandidateVertexMerger", maxFraction = cms.double(0.7), minSignificance = cms.double(2), secondaryVertices = cms.InputTag("inclusiveCandidateVertexFinderCvsL") ) process.castorDigis = cms.EDProducer("CastorRawToDigi", CastorCtdc = cms.bool(False), CastorFirstFED = cms.int32(690), ComplainEmptyData = cms.untracked.bool(False), ExceptionEmptyData = cms.untracked.bool(False), ExpectedOrbitMessageTime = cms.int32(-1), FEDs = cms.untracked.vint32(690, 691, 692, 693, 722), FilterDataQuality = cms.bool(True), InputLabel = cms.InputTag("rawDataMapperByLabel"), UnpackTTP = cms.bool(True), UnpackZDC = cms.bool(True), UseNominalOrbitMessageTime = cms.bool(True), ZDCFirstFED = cms.int32(693), firstSample = cms.int32(0), lastSample = cms.int32(9), silent = cms.untracked.bool(False) ) process.castorreco = cms.EDProducer("CastorSimpleReconstructor", Subdetector = cms.string('CASTOR'), correctForPhaseContainment = cms.bool(False), correctForTimeslew = cms.bool(False), correctionPhaseNS = cms.double(0.0), digiLabel = cms.InputTag("castorDigis"), doSaturationCorr = cms.bool(True), firstSample = cms.int32(4), maxADCvalue = cms.int32(127), samplesToAdd = cms.int32(2), setSaturationFlag = cms.bool(True), tsFromDB = cms.bool(True) ) process.chargeCut2069Clusters = cms.EDProducer("ClusterChargeMasker", clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), oldClusterRemovalInfo = cms.InputTag("pixelPairStepClusters"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters") ) process.chargedHadronPFTrackIsolation = cms.EDProducer("ChargedHadronPFTrackIsolationProducer", minRawCaloEnergy = cms.double(0.5), minTrackPt = cms.double(1), src = cms.InputTag("particleFlow") ) process.chargedIsoPtSum = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), 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(False), customOuterCone = cms.double(0.5), deltaBetaFactor = cms.string('0.38'), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.ckfInOutTracksFromConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('inOutEcalSeededConv'), ComponentName = cms.string('ckfInOutTracksFromConversions'), Fitter = cms.string('KFFittingSmootherForInOut'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('conversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('inOutTrackSCAssociationCollection'), src = cms.InputTag("conversionTrackCandidates","inOutTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection') ) process.ckfInOutTracksFromMustacheConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('inOutEcalSeededConv'), ComponentName = cms.string('ckfInOutTracksFromMustacheConversions'), Fitter = cms.string('KFFittingSmootherForInOut'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('mustacheConversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('inOutTrackSCAssociationCollection'), src = cms.InputTag("mustacheConversionTrackCandidates","inOutTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection') ) process.ckfInOutTracksFromOldEGConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('inOutEcalSeededConv'), ComponentName = cms.string('ckfInOutTracksFromOldEGConversions'), Fitter = cms.string('KFFittingSmootherForInOut'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('oldegConversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('inOutTrackSCAssociationCollection'), src = cms.InputTag("oldegConversionTrackCandidates","inOutTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection') ) process.ckfOutInTracksFromConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('outInEcalSeededConv'), ComponentName = cms.string('ckfOutInTracksFromConversions'), Fitter = cms.string('KFFitterForOutIn'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('conversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('outInTrackSCAssociationCollection'), src = cms.InputTag("conversionTrackCandidates","outInTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection') ) process.ckfOutInTracksFromMustacheConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('outInEcalSeededConv'), ComponentName = cms.string('ckfOutInTracksFromMustacheConversions'), Fitter = cms.string('KFFitterForOutIn'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('mustacheConversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('outInTrackSCAssociationCollection'), src = cms.InputTag("mustacheConversionTrackCandidates","outInTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection') ) process.ckfOutInTracksFromOldEGConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('outInEcalSeededConv'), ComponentName = cms.string('ckfOutInTracksFromOldEGConversions'), Fitter = cms.string('KFFitterForOutIn'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('oldegConversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('outInTrackSCAssociationCollection'), src = cms.InputTag("oldegConversionTrackCandidates","outInTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection') ) process.ckfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("globalMixedSeeds"), useHitsSplitting = cms.bool(True) ) process.ckfTrackCandidatesCombinedSeeds = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("globalCombinedSeeds"), useHitsSplitting = cms.bool(True) ) process.ckfTrackCandidatesNoOverlaps = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('CkfTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("globalMixedSeeds"), useHitsSplitting = cms.bool(True) ) process.ckfTrackCandidatesP5 = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('CosmicNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilderP5') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("combinatorialcosmicseedfinderP5"), useHitsSplitting = cms.bool(True) ) process.ckfTrackCandidatesPixelLess = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("globalPixelLessSeeds"), useHitsSplitting = cms.bool(True) ) process.cleanedHybridSuperClusters = cms.EDProducer("HybridClusterProducer", HybridBarrelSeedThr = cms.double(1.0), RecHitFlagToBeExcluded = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitSeverityToBeExcluded = cms.vstring( 'kWeird', 'kBad', 'kTime' ), basicclusterCollection = cms.string('hybridBarrelBasicClusters'), clustershapecollection = cms.string(''), dynamicEThresh = cms.bool(False), dynamicPhiRoad = cms.bool(False), eThreshA = cms.double(0.003), eThreshB = cms.double(0.1), eseed = cms.double(0.35), ethresh = cms.double(0.1), ewing = cms.double(0.0), excludeFlagged = cms.bool(True), 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) ), recHitsCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), shapeAssociation = cms.string('hybridShapeAssoc'), step = cms.int32(17), superclusterCollection = cms.string(''), useEtForXi = cms.bool(True), xi = cms.double(0.0) ) process.clusterFilter = cms.EDProducer("ClusterShapeTrackFilterProducer", clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ptMax = cms.double(999999), ptMin = cms.double(1.5) ) process.clusterSummaryProducer = cms.EDProducer("ClusterSummaryProducer", doPixels = cms.bool(True), doStrips = cms.bool(True), pixelClusters = cms.InputTag("siPixelClustersPreSplitting"), stripClusters = cms.InputTag("siStripClusters"), verbose = cms.bool(False), wantedSubDets = cms.vstring( 'TOB', 'TIB', 'TID', 'TEC', 'STRIP', 'BPIX', 'FPIX', 'PIXEL' ), wantedUserSubDets = cms.VPSet() ) process.clusterSummaryProducerNoSplitting = cms.EDProducer("ClusterSummaryProducer", doPixels = cms.bool(True), doStrips = cms.bool(True), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), verbose = cms.bool(False), wantedSubDets = cms.vstring( 'TOB', 'TIB', 'TID', 'TEC', 'STRIP', 'BPIX', 'FPIX', 'PIXEL' ), wantedUserSubDets = cms.VPSet() ) process.cmsTopTagPFJetsCHS = cms.EDProducer("CATopJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), algorithm = cms.int32(1), centralEtaCut = cms.double(2.5), deltarBins = cms.vdouble(0.19, 0.19, 0.19), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), etFrac = cms.double(0.7), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('CambridgeAachen'), jetCollInstanceName = cms.string('caTopSubJets'), jetPtMin = cms.double(100.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nCellBins = cms.vdouble(1.9, 1.9, 1.9), ptFracBins = cms.vdouble(0.05, 0.05, 0.05), rBins = cms.vdouble(0.8, 0.8, 0.8), rParam = cms.double(0.8), src = cms.InputTag("ak8PFJetsCHSConstituents","constituents"), srcPVs = cms.InputTag(""), sumEtBins = cms.vdouble(0, 1600, 2600), sumEtEtaCut = cms.double(3.0), tagAlgo = cms.int32(0), useAdjacency = cms.int32(2), useDeterministicSeed = cms.bool(True), useMaxTower = cms.bool(False), verbose = cms.bool(False), voronoiRfact = cms.double(-0.9), writeCompound = cms.bool(True) ) process.combinatoricRecoTaus = 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("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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("ak4PFJetsRecoTauChargedHadrons"), jetRegionSrc = cms.InputTag("recoTauAK4PFJets08Region"), jetSrc = cms.InputTag("ak4PFJets"), maxJetAbsEta = cms.double(2.5), minJetPt = cms.double(999999.0), modifiers = cms.VPSet( cms.PSet( name = cms.string('sipt'), plugin = cms.string('RecoTauImpactParameterSignificancePlugin'), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ) ), 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( dRaddNeutralHadron = cms.double(0.12), dRaddPhoton = cms.double(-1.0), minGammaEt = cms.double(10.0), minNeutralHadronEt = cms.double(50.0), name = cms.string('tau_en_reconstruction'), plugin = cms.string('PFRecoTauEnergyAlgorithmPlugin'), verbosity = cms.int32(0) ), cms.PSet( name = cms.string('tau_mass'), plugin = cms.string('PFRecoTauMassPlugin'), verbosity = cms.int32(0) ), cms.PSet( name = cms.string('TTIworkaround'), pfTauTagInfoSrc = cms.InputTag("pfRecoTauTagInfoProducer"), plugin = cms.string('RecoTauTagInfoWorkaroundModifer') ) ), outputSelection = cms.string('leadPFChargedHadrCand().isNonnull()'), piZeroSrc = cms.InputTag("ak4PFJetsLegacyHPSPiZeros") ) process.combinedInclusiveSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('combinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("inclusiveSecondaryVertexFinderTagInfos")) ) process.combinedMVAV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('combinedMVAV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("secondaryVertexTagInfos"), cms.InputTag("inclusiveSecondaryVertexFinderTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.combinedSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('combinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("secondaryVertexTagInfos")) ) process.conditionsInEdm = cms.EDProducer("ConditionDumperInEdm", gtEvmDigisLabel = cms.InputTag("gtEvmDigis") ) process.conv2Clusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('highPurity'), maxChi2 = cms.double(30.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("convClusters"), overrideTrkQuals = cms.InputTag("convStepSelector","convStep"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("","QualityMasks"), trajectories = cms.InputTag("convStepTracks") ) process.conv2LayerPairs = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("conv2Clusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("conv2Clusters") ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(7), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), skipClusters = cms.InputTag("conv2Clusters"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TIB1 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TIB2 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TIB3 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TIB4 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TID1 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("conv2Clusters"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TID2 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("conv2Clusters"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TID3 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("conv2Clusters"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TOB1 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TOB2 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TOB3 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TOB4 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TOB5 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), TOB6 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("conv2Clusters") ), layerList = cms.vstring( 'BPix1+BPix2', 'BPix2+BPix3', 'BPix2+FPix1_pos', 'BPix2+FPix1_neg', 'BPix2+FPix2_pos', 'BPix2+FPix2_neg', 'FPix1_pos+FPix2_pos', 'FPix1_neg+FPix2_neg', 'BPix3+TIB1', 'TIB1+TID1_pos', 'TIB1+TID1_neg', 'TIB1+TID2_pos', 'TIB1+TID2_neg', 'TIB1+TIB2', 'TIB2+TID1_pos', 'TIB2+TID1_neg', 'TIB2+TID2_pos', 'TIB2+TID2_neg', 'TIB2+TIB3', 'TIB3+TIB4', 'TIB3+TID1_pos', 'TIB3+TID1_neg', 'TIB4+TOB1', 'TOB1+TOB2', 'TOB1+TEC1_pos', 'TOB1+TEC1_neg', 'TOB2+TOB3', 'TOB2+TEC1_pos', 'TOB2+TEC1_neg', 'TOB3+TOB4', 'TOB3+TEC1_pos', 'TOB3+TEC1_neg', 'TOB4+TOB5', 'TOB5+TOB6', 'TID1_pos+TID2_pos', 'TID2_pos+TID3_pos', 'TID3_pos+TEC1_pos', 'TID1_neg+TID2_neg', 'TID2_neg+TID3_neg', 'TID3_neg+TEC1_neg', 'TEC1_pos+TEC2_pos', 'TEC2_pos+TEC3_pos', 'TEC3_pos+TEC4_pos', 'TEC4_pos+TEC5_pos', 'TEC5_pos+TEC6_pos', 'TEC6_pos+TEC7_pos', 'TEC7_pos+TEC8_pos', 'TEC1_neg+TEC2_neg', 'TEC2_neg+TEC3_neg', 'TEC3_neg+TEC4_neg', 'TEC4_neg+TEC5_neg', 'TEC5_neg+TEC6_neg', 'TEC6_neg+TEC7_neg', 'TEC7_neg+TEC8_neg' ) ) process.conv2StepSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("conv2StepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(3.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(5.0, 8.0), d0_par2 = cms.vdouble(5.0, 8.0), dz_par1 = cms.vdouble(5.0, 8.0), dz_par2 = cms.vdouble(5.0, 8.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(1), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('conv2StepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(2.5), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(5.0, 8.0), d0_par2 = cms.vdouble(5.0, 8.0), dz_par1 = cms.vdouble(5.0, 8.0), dz_par2 = cms.vdouble(5.0, 8.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(1), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('conv2StepTight'), preFilterName = cms.string('conv2StepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(2.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(5.0, 8.0), d0_par2 = cms.vdouble(5.0, 8.0), dz_par1 = cms.vdouble(5.0, 8.0), dz_par2 = cms.vdouble(5.0, 8.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(1), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('conv2Step'), preFilterName = cms.string('conv2StepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.conv2StepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('conversionStep'), Fitter = cms.string('conv2StepFitterSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("conv2TrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.conv2TrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('conv2CkfTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("photonConvTrajSeedFromQuadruplets","conv2SeedCandidates"), useHitsSplitting = cms.bool(True) ) process.convClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('highPurity'), maxChi2 = cms.double(30.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("tobTecStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("tobTecStep","QualityMasks"), trajectories = cms.InputTag("tobTecStepTracks") ) process.convLayerPairs = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("convClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("convClusters") ), MTIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("convClusters") ), MTOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("convClusters") ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(7), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), skipClusters = cms.InputTag("convClusters"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("convClusters") ), TID = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("convClusters"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("convClusters") ), layerList = cms.vstring( 'BPix1+BPix2', 'BPix2+BPix3', 'BPix3+BPix4', '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', 'FPix2_pos+FPix3_pos', 'FPix2_neg+FPix3_neg', 'BPix3+TIB1', 'BPix4+TIB1', 'BPix4+TIB2', 'TIB1+TID1_pos', 'TIB1+TID1_neg', 'TIB1+TID2_pos', 'TIB1+TID2_neg', 'TIB1+TIB2', 'TIB1+MTIB3', 'TIB2+TID1_pos', 'TIB2+TID1_neg', 'TIB2+TID2_pos', 'TIB2+TID2_neg', 'TIB2+MTIB3', 'TIB2+MTIB4', 'MTIB3+MTIB4', 'MTIB3+TOB1', 'MTIB3+TID1_pos', 'MTIB3+TID1_neg', 'MTIB4+TOB1', 'MTIB4+TOB2', 'TOB1+TOB2', 'TOB1+MTOB3', 'TOB1+TEC1_pos', 'TOB1+TEC1_neg', 'TOB2+MTOB3', 'TOB2+MTOB4', 'TOB2+TEC1_pos', 'TOB2+TEC1_neg', 'TID1_pos+TID2_pos', 'TID2_pos+TID3_pos', 'TID3_pos+TEC1_pos', 'TID1_neg+TID2_neg', 'TID2_neg+TID3_neg', 'TID3_neg+TEC1_neg', 'TEC1_pos+TEC2_pos', 'TEC2_pos+TEC3_pos', 'TEC3_pos+TEC4_pos', 'TEC4_pos+TEC5_pos', 'TEC5_pos+TEC6_pos', 'TEC6_pos+TEC7_pos', 'TEC7_pos+TEC8_pos', 'TEC1_neg+TEC2_neg', 'TEC2_neg+TEC3_neg', 'TEC3_neg+TEC4_neg', 'TEC4_neg+TEC5_neg', 'TEC5_neg+TEC6_neg', 'TEC6_neg+TEC7_neg', 'TEC7_neg+TEC8_neg' ) ) process.convStepSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("convStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(3.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(5.0, 8.0), d0_par2 = cms.vdouble(5.0, 8.0), dz_par1 = cms.vdouble(5.0, 8.0), dz_par2 = cms.vdouble(5.0, 8.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(1), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('convStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(2.5), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(5.0, 8.0), d0_par2 = cms.vdouble(5.0, 8.0), dz_par1 = cms.vdouble(5.0, 8.0), dz_par2 = cms.vdouble(5.0, 8.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(1), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('convStepTight'), preFilterName = cms.string('convStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(2.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(5.0, 8.0), d0_par2 = cms.vdouble(5.0, 8.0), dz_par1 = cms.vdouble(5.0, 8.0), dz_par2 = cms.vdouble(5.0, 8.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(1), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('convStep'), preFilterName = cms.string('convStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.convStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('conversionStep'), Fitter = cms.string('convStepFitterSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("convTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.convTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('convCkfTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("convClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("photonConvTrajSeedFromSingleLeg","convSeedCandidates"), useHitsSplitting = cms.bool(True) ) process.conversionStepConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('conversionStepTracks'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(False), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(True), useTrajectory = cms.bool(False) ) process.conversionStepTracks = cms.EDProducer("TrackListMerger", Epsilon = cms.double(-0.001), FoundHitBonus = cms.double(5.0), LostHitPenalty = cms.double(5.0), MaxNormalizedChisq = cms.double(1000.0), MinFound = cms.int32(3), MinPT = cms.double(0.05), ShareFrac = cms.double(0.19), TrackProducers = cms.VInputTag(cms.InputTag("convStepTracks")), allowFirstHitShare = cms.bool(True), copyExtras = cms.untracked.bool(True), copyMVA = cms.bool(True), hasSelector = cms.vint32(1), indivShareFrac = cms.vdouble(1.0, 1.0), makeReKeyedSeeds = cms.untracked.bool(False), newQuality = cms.string('confirmed'), selectedTrackQuals = cms.VInputTag(cms.InputTag("convStepSelector","convStep")), setsToMerge = cms.VPSet(cms.PSet( pQual = cms.bool(True), tLists = cms.vint32(1) )), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder'), writeOnlyTrkQuals = cms.bool(False) ) process.conversionTrackCandidates = cms.EDProducer("ConversionTrackCandidateProducer", InOutRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), MeasurementTrackerName = cms.string(''), MissingHitPenalty = cms.double(20.0), OutInRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), TrajectoryBuilder = cms.string('TrajectoryBuilderForConversions'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForConversions') ), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('alongMomElePropagator'), propagatorOppositeTISE = cms.string('oppositeToMomElePropagator') ), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), bcBarrelCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALBarrel"), bcECut = cms.double(1.5), bcEndcapCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALEndcap"), bcEtCut = cms.double(1.5), ecalIsoCut_offset = cms.double(999999999), ecalIsoCut_slope = cms.double(0.0), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), fractionShared = cms.double(0.5), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), inOutTrackCandidateCollection = cms.string('inOutTracksFromConversions'), inOutTrackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection'), isoConeR = cms.double(0.4), isoEMin = cms.double(0.08), isoEtMin = cms.double(0.0), isoEtaSlice = cms.double(2.5), isoInnerConeR = cms.double(3.5), maxHOverE = cms.double(0.15), maxNumOfSeedsInOut = cms.int32(50), maxNumOfSeedsOutIn = cms.int32(50), minSCEt = cms.double(20.0), outInTrackCandidateCollection = cms.string('outInTracksFromConversions'), outInTrackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection'), scHybridBarrelProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), scIslandEndcapProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALEndcapWithPreshower"), useEtCut = cms.bool(True), useHitsSplitting = cms.bool(False), useNumXstals = cms.bool(True), vetoClusteredHits = cms.bool(False) ) process.conversions = cms.EDProducer("ConvertedPhotonProducer", AlgorithmName = cms.string('ecalSeeded'), MVA_weights_location = cms.string('RecoEgamma/EgammaTools/data/TMVAnalysis_Likelihood.weights.txt'), bcBarrelCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALBarrel"), bcEndcapCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALEndcap"), cleanedConvertedPhotonCollection = cms.string(''), conversionIOTrackProducer = cms.string('ckfInOutTracksFromConversions'), conversionOITrackProducer = cms.string('ckfOutInTracksFromConversions'), convertedPhotonCollection = cms.string('uncleanedConversions'), dRForConversionRecovery = cms.double(0.3), deltaCotCut = cms.double(0.05), generalTracksSrc = cms.InputTag("generalTracks"), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), inOutTrackCollection = cms.string(''), inOutTrackSCAssociation = cms.string('inOutTrackSCAssociationCollection'), maxDelta = cms.double(0.01), maxHOverE = cms.double(0.15), maxNbrOfIterations = cms.int32(40), maxNumOfCandidates = cms.int32(3), maxReducedChiSq = cms.double(225.0), minApproachDisCut = cms.double(0.0), minChiSqImprovement = cms.double(50.0), minSCEt = cms.double(20.0), outInTrackCollection = cms.string(''), outInTrackSCAssociation = cms.string('outInTrackSCAssociationCollection'), recoverOneTrackCase = cms.bool(True), risolveConversionAmbiguity = cms.bool(True), scHybridBarrelProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), scIslandEndcapProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALEndcapWithPreshower") ) process.correctedHybridSuperClusters = cms.EDProducer("EgammaSCCorrectionMaker", applyCrackCorrection = cms.bool(True), applyEnergyCorrection = cms.bool(True), applyLocalContCorrection = cms.bool(True), corectedSuperClusterCollection = cms.string(''), crackCorrectorName = cms.string('EcalClusterCrackCorrection'), energyCorrectorName = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), etThresh = cms.double(0.0), hyb_fCorrPset = cms.PSet( brLinearHighThr = cms.double(8.0), brLinearLowThr = cms.double(1.1), fBremVec = cms.vdouble(-0.04382, 0.1169, 0.9267, -0.0009413, 1.419), fEtEtaVec = cms.vdouble( 0, 1.00121, -0.63672, 0, 0, 0, 0.5655, 6.457, 0.5081, 8.0, 1.023, -0.00181 ) ), localContCorrectorName = cms.string('EcalBasicClusterLocalContCorrection'), modeEB = cms.int32(0), modeEE = cms.int32(0), rawSuperClusterProducer = cms.InputTag("hybridSuperClusters"), recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEB"), sigmaElectronicNoise = cms.double(0.03), superClusterAlgo = cms.string('Hybrid') ) process.correctedIslandBarrelSuperClusters = 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, 0.908915, 0.0137322, 16.9602, -29.3093, 19.8976, -5.92666, 0.654571 ), fEtaVect = cms.vdouble( 0.993, 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("islandSuperClusters","islandBarrelSuperClusters"), recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEB"), sigmaElectronicNoise = cms.double(0.03), superClusterAlgo = cms.string('Island') ) process.correctedIslandEndcapSuperClusters = 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, 0.908915, 0.0137322, 16.9602, -29.3093, 19.8976, -5.92666, 0.654571 ), fEtaVect = cms.vdouble( 0.993, 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("islandSuperClusters","islandEndcapSuperClusters"), recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEE"), sigmaElectronicNoise = cms.double(0.15), superClusterAlgo = cms.string('Island') ) process.correctedMulti5x5SuperClustersWithPreshower = cms.EDProducer("EgammaSCCorrectionMaker", VerbosityLevel = cms.string('ERROR'), applyCrackCorrection = cms.bool(True), applyEnergyCorrection = cms.bool(True), applyLocalContCorrection = cms.bool(False), corectedSuperClusterCollection = cms.string(''), crackCorrectorName = cms.string('EcalClusterCrackCorrection'), energyCorrectorName = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), etThresh = cms.double(0.0), fix_fCorrPset = cms.PSet( brLinearHighThr = cms.double(6.0), brLinearLowThr = cms.double(0.9), fBremVec = cms.vdouble(-0.05228, 0.08738, 0.9508, 0.002677, 1.221), fEtEtaVec = cms.vdouble( 1, -0.4386, -32.38, 0.6372, 15.67, -0.0928, -2.462, 1.138, 20.93 ) ), localContCorrectorName = cms.string('EcalBasicClusterLocalContCorrection'), modeEB = cms.int32(0), modeEE = cms.int32(0), rawSuperClusterProducer = cms.InputTag("multi5x5SuperClustersWithPreshower"), recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEE"), sigmaElectronicNoise = cms.double(0.15), superClusterAlgo = cms.string('Multi5x5') ) process.cosmicDCCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('CosmicNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilderP5') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("cosmicDCSeeds"), useHitsSplitting = cms.bool(True) ) process.cosmicDCSeeds = cms.EDProducer("OutsideInMuonSeeder", cut = cms.string('pt > 2 && abs(eta)<1.2 && phi<0'), debug = cms.untracked.bool(False), errorRescaleFactor = cms.double(2.0), fromVertex = cms.bool(False), hitCollector = cms.string('hitCollectorForCosmicDCSeeds'), hitsToTry = cms.int32(3), layersToTry = cms.int32(3), maxEtaForTOB = cms.double(1.5), minEtaForTEC = cms.double(0.7), muonPropagator = cms.string('SteppingHelixPropagatorAlong'), src = cms.InputTag("muonsFromCosmics"), trackerPropagator = cms.string('PropagatorWithMaterial') ) process.cosmicDCTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('ctf'), Fitter = cms.string('FittingSmootherRKP5'), GeometricInnerState = cms.bool(True), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("cosmicDCCkfTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.cosmicMuons = cms.EDProducer("CosmicMuonProducer", MuonSeedCollectionLabel = cms.string('CosmicMuonSeed'), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( AllowNoVertex = cms.untracked.bool(True), DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorAny') ), PutTrajectoryIntoEvent = cms.untracked.bool(False), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ), TrajectoryBuilderParameters = cms.PSet( BackwardMuonTrajectoryUpdatorParameters = cms.PSet( ExcludeRPCFromFit = cms.bool(False), Granularity = cms.int32(2), MaxChi2 = cms.double(100.0), RescaleError = cms.bool(False), RescaleErrorFactor = cms.double(1.0), UseInvalidHits = cms.bool(False) ), BuildTraversingMuon = cms.bool(False), CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DCosmicSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableRPCMeasurement = cms.bool(True), MuonNavigationParameters = cms.PSet( Barrel = cms.bool(True), Endcap = cms.bool(True) ), MuonSmootherParameters = cms.PSet( PropagatorAlong = cms.string('SteppingHelixPropagatorAny'), PropagatorOpposite = cms.string('SteppingHelixPropagatorAny'), RescalingFactor = cms.double(5.0) ), MuonTrajectoryUpdatorParameters = cms.PSet( ExcludeRPCFromFit = cms.bool(False), Granularity = cms.int32(0), MaxChi2 = cms.double(3000.0), RescaleError = cms.bool(False), RescaleErrorFactor = cms.double(1.0), UseInvalidHits = cms.bool(False) ), Propagator = cms.string('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), Strict1Leg = cms.bool(False) ) ) process.cosmicMuons1Leg = cms.EDProducer("CosmicMuonProducer", MuonSeedCollectionLabel = cms.string('CosmicMuonSeed'), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( AllowNoVertex = cms.untracked.bool(True), DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorAny') ), PutTrajectoryIntoEvent = cms.untracked.bool(False), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ), TrajectoryBuilderParameters = cms.PSet( BackwardMuonTrajectoryUpdatorParameters = cms.PSet( ExcludeRPCFromFit = cms.bool(False), Granularity = cms.int32(2), MaxChi2 = cms.double(100.0), RescaleError = cms.bool(False), RescaleErrorFactor = cms.double(1.0), UseInvalidHits = cms.bool(False) ), BuildTraversingMuon = cms.bool(True), CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DCosmicSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableRPCMeasurement = cms.bool(True), MuonNavigationParameters = cms.PSet( Barrel = cms.bool(True), Endcap = cms.bool(True) ), MuonSmootherParameters = cms.PSet( PropagatorAlong = cms.string('SteppingHelixPropagatorAny'), PropagatorOpposite = cms.string('SteppingHelixPropagatorAny'), RescalingFactor = cms.double(5.0) ), MuonTrajectoryUpdatorParameters = cms.PSet( ExcludeRPCFromFit = cms.bool(False), Granularity = cms.int32(0), MaxChi2 = cms.double(3000.0), RescaleError = cms.bool(False), RescaleErrorFactor = cms.double(1.0), UseInvalidHits = cms.bool(False) ), Propagator = cms.string('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), Strict1Leg = cms.bool(True) ) ) process.cosmicsVeto = cms.EDProducer("CosmicsMuonIdProducer", CosmicCompFillerParameters = cms.PSet( InputCosmicMuonCollection = cms.InputTag("muonsFromCosmics1Leg"), InputMuonCollections = cms.VInputTag(cms.InputTag("globalMuons"), cms.InputTag("muons1stStep")), InputTrackCollections = cms.VInputTag(cms.InputTag("generalTracks"), cms.InputTag("cosmicsVetoTracks")), InputVertexCollection = cms.InputTag("offlinePrimaryVertices"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), angleCut = cms.double(0.1), corrTimeNeg = cms.double(-10), corrTimePos = cms.double(5), deltaPt = cms.double(0.1), hIpTrdxy = cms.double(0.02), hIpTrvProb = cms.double(0.5), ipCut = cms.double(0.02), largedxy = cms.double(2.0), largedxyMult = cms.double(3.0), maxdxyLoose = cms.double(0.01), maxdxyLooseMult = cms.double(0.01), maxdxyTight = cms.double(1.0), maxdxyTightMult = cms.double(1.0), maxdzLoose = cms.double(0.1), maxdzLooseMult = cms.double(0.1), maxdzTight = cms.double(10.0), maxdzTightMult = cms.double(10.0), maxvertRho = cms.double(5), maxvertZ = cms.double(20), minvProb = cms.double(0.001), nChamberMatches = cms.int32(1), nTrackThreshold = cms.int32(3), offTimeNegLoose = cms.double(-15.0), offTimeNegLooseMult = cms.double(-15.0), offTimeNegTight = cms.double(-20.0), offTimeNegTightMult = cms.double(-20.0), offTimePosLoose = cms.double(15.0), offTimePosLooseMult = cms.double(15.0), offTimePosTight = cms.double(25.0), offTimePosTightMult = cms.double(25.0), segmentComp = cms.double(0.4), sharedFrac = cms.double(0.75), sharedHits = cms.int32(5) ), muonCollection = cms.InputTag("muons1stStep"), trackCollections = cms.VInputTag(cms.InputTag("generalTracks"), cms.InputTag("cosmicsVetoTracks")) ) process.cosmicsVetoSeeds = cms.EDProducer("TrajectorySeedFromMuonProducer", muonCollectionTag = cms.InputTag("muons1stStep"), skipMatchedMuons = cms.bool(False), trackCollectionTag = cms.InputTag("generalTracks") ) process.cosmicsVetoTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('CosmicNavigationSchool'), RedundantSeedCleaner = cms.string('none'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilderP5') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), doSeedingRegionRebuilding = cms.bool(False), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("cosmicsVetoSeeds"), useHitsSplitting = cms.bool(True) ) process.cosmicsVetoTracks = cms.EDProducer("CosmicTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), chi2n_par = cms.double(10.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = cms.double(110.0), max_eta = cms.double(2.0), max_z0 = cms.double(300.0), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(0), min_nHit = cms.uint32(5), min_nPixelHit = cms.uint32(0), min_pt = cms.double(1.0), qualityBit = cms.string(''), src = cms.InputTag("cosmicsVetoTracksRaw") ) process.cosmicsVetoTracksRaw = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('ctf'), Fitter = cms.string('FittingSmootherRKP5'), GeometricInnerState = cms.bool(True), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("cosmicsVetoTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.cosmictrackSelector = cms.EDProducer("CosmicTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), chi2n_par = cms.double(10.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = cms.double(110.0), max_eta = cms.double(2.0), max_z0 = cms.double(300.0), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(0), min_nHit = cms.uint32(5), min_nPixelHit = cms.uint32(0), min_pt = cms.double(1.0), qualityBit = cms.string(''), src = cms.InputTag("ctfWithMaterialTracksCosmics") ) process.csc2DRecHits = cms.EDProducer("CSCRecHitDProducer", CSCDebug = cms.untracked.bool(False), CSCNoOfTimeBinsForDynamicPedestal = cms.int32(2), CSCStripClusterChargeCut = cms.double(25.0), CSCStripClusterSize = cms.untracked.int32(3), 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(0.02), ConstSyst_ME13 = cms.double(0.03), ConstSyst_ME1a = cms.double(0.01), ConstSyst_ME1b = cms.double(0.02), ConstSyst_ME21 = cms.double(0.03), ConstSyst_ME22 = cms.double(0.03), ConstSyst_ME31 = cms.double(0.03), ConstSyst_ME32 = cms.double(0.03), ConstSyst_ME41 = cms.double(0.03), NoiseLevel_ME12 = cms.double(7.0), NoiseLevel_ME13 = cms.double(4.0), NoiseLevel_ME1a = cms.double(9.0), NoiseLevel_ME1b = cms.double(6.0), NoiseLevel_ME21 = cms.double(5.0), NoiseLevel_ME22 = cms.double(7.0), NoiseLevel_ME31 = cms.double(5.0), NoiseLevel_ME32 = cms.double(7.0), NoiseLevel_ME41 = cms.double(5.0), UseAverageTime = cms.bool(False), UseFivePoleFit = cms.bool(True), UseParabolaFit = cms.bool(False), XTasymmetry_ME12 = cms.double(0.015), XTasymmetry_ME13 = cms.double(0.02), XTasymmetry_ME1a = cms.double(0.023), XTasymmetry_ME1b = cms.double(0.01), XTasymmetry_ME21 = cms.double(0.023), XTasymmetry_ME22 = cms.double(0.023), XTasymmetry_ME31 = cms.double(0.023), XTasymmetry_ME32 = cms.double(0.023), XTasymmetry_ME41 = cms.double(0.023), readBadChambers = cms.bool(True), readBadChannels = cms.bool(False), stripDigiTag = cms.InputTag("muonCSCDigis","MuonCSCStripDigi"), wireDigiTag = cms.InputTag("muonCSCDigis","MuonCSCWireDigi") ) process.cscSegments = cms.EDProducer("CSCSegmentProducer", algo_psets = cms.VPSet( cms.PSet( algo_name = cms.string('CSCSegAlgoSK'), algo_psets = cms.VPSet( cms.PSet( chi2Max = cms.double(99999.0), dPhiFineMax = cms.double(0.025), dPhiMax = cms.double(0.003), dRPhiFineMax = cms.double(8.0), dRPhiMax = cms.double(8.0), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(99999.0), dPhiFineMax = cms.double(0.025), dPhiMax = cms.double(0.025), dRPhiFineMax = cms.double(3.0), dRPhiMax = cms.double(8.0), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True), wideSeg = cms.double(3.0) ) ), 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 ) ), cms.PSet( algo_name = cms.string('CSCSegAlgoTC'), algo_psets = cms.VPSet( cms.PSet( SegmentSorting = cms.int32(1), chi2Max = cms.double(6000.0), chi2ndfProbMin = cms.double(0.0001), dPhiFineMax = cms.double(0.02), dPhiMax = cms.double(0.003), dRPhiFineMax = cms.double(6.0), dRPhiMax = cms.double(1.2), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True) ), cms.PSet( SegmentSorting = cms.int32(1), chi2Max = cms.double(6000.0), chi2ndfProbMin = cms.double(0.0001), dPhiFineMax = cms.double(0.013), dPhiMax = cms.double(0.00198), dRPhiFineMax = cms.double(3.0), dRPhiMax = cms.double(0.6), minLayersApart = cms.int32(2), verboseInfo = cms.untracked.bool(True) ) ), 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 ) ), cms.PSet( algo_name = cms.string('CSCSegAlgoDF'), algo_psets = cms.VPSet( cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(8.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(8.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(10), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.5), tanThetaMax = cms.double(1.2) ), cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(12.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(12.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(10), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.8), tanThetaMax = cms.double(2.0) ), cms.PSet( CSCSegmentDebug = cms.untracked.bool(False), Pruning = cms.untracked.bool(False), chi2Max = cms.double(5000.0), dPhiFineMax = cms.double(0.025), dRPhiFineMax = cms.double(8.0), dXclusBoxMax = cms.double(8.0), dYclusBoxMax = cms.double(8.0), maxDPhi = cms.double(999.0), maxDTheta = cms.double(999.0), maxRatioResidualPrune = cms.double(3.0), minHitsForPreClustering = cms.int32(30), minHitsPerSegment = cms.int32(3), minLayersApart = cms.int32(2), nHitsPerClusterIsShower = cms.int32(20), preClustering = cms.untracked.bool(False), tanPhiMax = cms.double(0.5), tanThetaMax = cms.double(1.2) ) ), 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( 3, 1, 2, 2, 1, 2, 1, 2, 1, 2 ) ), 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), 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), 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 ) ), cms.PSet( algo_name = cms.string('CSCSegAlgoRU'), algo_psets = cms.VPSet( cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.005), dPhiMax = cms.double(0.006), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.004), dPhiMax = cms.double(0.005), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.003), dPhiMax = cms.double(0.004), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(60.0), chi2Norm_2D_ = cms.double(20), chi2_str = cms.double(30.0), dPhiIntMax = cms.double(0.002), dPhiMax = cms.double(0.003), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(180.0), chi2Norm_2D_ = cms.double(60), chi2_str = cms.double(80.0), dPhiIntMax = cms.double(0.005), dPhiMax = cms.double(0.007), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ), cms.PSet( chi2Max = cms.double(100.0), chi2Norm_2D_ = cms.double(35), chi2_str = cms.double(50.0), dPhiIntMax = cms.double(0.004), dPhiMax = cms.double(0.006), dRIntMax = cms.double(2.0), dRMax = cms.double(1.5), doCollisions = cms.bool(True), minLayersApart = cms.int32(1), wideSeg = cms.double(3.0) ) ), 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( 1, 2, 3, 4, 5, 6, 5, 6, 5, 6 ) ) ), algo_type = cms.int32(5), inputObjects = cms.InputTag("csc2DRecHits") ) process.csctfDigis = cms.EDProducer("CSCTFUnpacker", MaxBX = cms.int32(11), MinBX = cms.int32(5), mappingFile = cms.string(''), producer = cms.InputTag("rawDataMapperByLabel"), slot2sector = cms.vint32( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ), swapME1strips = cms.bool(False) ) process.ctfCombinedSeeds = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('KFFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("ckfTrackCandidatesCombinedSeeds"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.ctfNoOverlaps = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('KFFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("ckfTrackCandidatesNoOverlaps"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.ctfPixelLess = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('RKFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("ckfTrackCandidatesPixelLess"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.ctfWithMaterialTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('KFFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("ckfTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.ctfWithMaterialTracksCosmics = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('ctf'), Fitter = cms.string('FittingSmootherRKP5'), GeometricInnerState = cms.bool(True), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("ckfTrackCandidatesP5"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.ctppsDiamondLocalTracks = cms.EDProducer("CTPPSDiamondLocalTrackFitter", recHitsTag = cms.InputTag("ctppsDiamondRecHits"), trackingAlgorithmParams = cms.PSet( pixelEfficiencyFunction = cms.string('(TMath::Erf((x-[0]+0.5*[1])/([2]/4)+2)+1)*TMath::Erfc((x-[0]-0.5*[1])/([2]/4)-2)/4'), resolution = cms.double(0.01), sigma = cms.double(0.1), startFromX = cms.double(-0.5), stopAtX = cms.double(19.5), threshold = cms.double(1.5), thresholdFromMaximum = cms.double(0.5), yPosition = cms.double(0), yWidth = cms.double(0) ), verbosity = cms.int32(0) ) process.ctppsDiamondRawToDigi = cms.EDProducer("TotemVFATRawToDigi", RawToDigi = cms.PSet( BC_fraction = cms.untracked.double(0.6), BC_min = cms.untracked.uint32(10), EC_fraction = cms.untracked.double(0.6), EC_min = cms.untracked.uint32(10), printErrorSummary = cms.untracked.uint32(0), printUnknownFrameSummary = cms.untracked.uint32(0), testBCMostFrequent = cms.uint32(2), testCRC = cms.uint32(0), testECMostFrequent = cms.uint32(0), testFootprint = cms.uint32(2), testID = cms.uint32(2), verbosity = cms.untracked.uint32(0) ), RawUnpacking = cms.PSet( verbosity = cms.untracked.uint32(0) ), fedIds = cms.vuint32(), rawDataTag = cms.InputTag("rawDataMapperByLabel"), subSystem = cms.string('TimingDiamond') ) process.ctppsDiamondRecHits = cms.EDProducer("CTPPSDiamondRecHitProducer", digiTag = cms.InputTag("ctppsDiamondRawToDigi","TimingDiamond"), timeShift = cms.int32(0), timeSliceNs = cms.double(0.0244140625) ) process.ctppsLocalTrackLiteProducer = cms.EDProducer("CTPPSLocalTrackLiteProducer", doNothing = cms.bool(False), includeDiamonds = cms.bool(True), includePixels = cms.bool(True), includeStrips = cms.bool(True), pixelTrackTxRange = cms.vdouble(-0.03, 0.03), pixelTrackTyRange = cms.vdouble(-0.04, 0.04), tagDiamondTrack = cms.InputTag("ctppsDiamondLocalTracks"), tagPixelTrack = cms.InputTag("ctppsPixelLocalTracks"), tagSiStripTrack = cms.InputTag("totemRPLocalTrackFitter") ) process.ctppsPixelClusters = cms.EDProducer("CTPPSPixelClusterProducer", ADCThreshold = cms.int32(2), ElectronADCGain = cms.double(135), RPixVerbosity = cms.untracked.int32(0), SeedADCThreshold = cms.int32(2), VCaltoElectronGain = cms.int32(50), VCaltoElectronOffset = cms.int32(-411), doSingleCalibration = cms.bool(False), label = cms.string('ctppsPixelDigis') ) process.ctppsPixelDigis = cms.EDProducer("CTPPSPixelRawToDigi", includeErrors = cms.bool(True), inputLabel = cms.InputTag("rawDataMapperByLabel"), mappingLabel = cms.string('RPix') ) process.ctppsPixelLocalTracks = cms.EDProducer("CTPPSPixelLocalTrackProducer", label = cms.string('ctppsPixelRecHits'), maxHitPerPlane = cms.int32(20), maxHitPerRomanPot = cms.int32(60), maxRoadSize = cms.int32(20), maxTrackPerPattern = cms.int32(5), maxTrackPerRomanPot = cms.int32(10), maximumChi2OverNDF = cms.double(5), 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), trackFinderAlgorithm = cms.string('RPixPlaneCombinatoryTracking'), trackMinNumberOfPoints = cms.uint32(3), verbosity = cms.untracked.int32(0) ) process.ctppsPixelRecHits = cms.EDProducer("CTPPSPixelRecHitProducer", RPixClusterTag = cms.InputTag("ctppsPixelClusters"), RPixVerbosity = cms.untracked.int32(0) ) process.dedxDiscrimASmi = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('asmirnovDiscrim'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxDiscrimBTag = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('btagDiscrim'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxDiscrimProd = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('productDiscrim'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxDiscrimSmi = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('smirnovDiscrim'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxHarmonic2 = 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(True), 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("generalTracks") ) process.dedxHitInfo = cms.EDProducer("DeDxHitInfoProducer", MeVperADCPixel = cms.double(3.61e-06), MeVperADCStrip = cms.double(0.00095665), calibrationPath = cms.string('file:Gains.root'), lowPtTracksDeDxThreshold = cms.double(3.5), lowPtTracksEstimatorParameters = cms.PSet( exponent = cms.double(-2.0), fraction = cms.double(-0.15) ), lowPtTracksPrescaleFail = cms.uint32(2000), lowPtTracksPrescalePass = cms.uint32(100), maxTrackEta = cms.double(5.0), minTrackHits = cms.uint32(0), minTrackPt = cms.double(10), minTrackPtPrescale = cms.double(0.5), shapeTest = cms.bool(True), tracks = cms.InputTag("generalTracks"), useCalibration = cms.bool(False), usePixel = cms.bool(True), useStrip = cms.bool(True) ) process.dedxMedian = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('median'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxPixelAndStripHarmonic2T085 = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(True), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('genericTruncated'), exponent = cms.double(-2.0), fraction = cms.double(-0.15), tracks = cms.InputTag("generalTracks") ) process.dedxPixelHarmonic2 = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(True), UseStrip = cms.bool(False), calibrationPath = cms.string(''), estimator = cms.string('generic'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxTruncated40 = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('truncated'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.dedxUnbinned = 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(True), UseCalibration = cms.bool(False), UsePixel = cms.bool(False), UseStrip = cms.bool(True), calibrationPath = cms.string(''), estimator = cms.string('unbinnedFit'), exponent = cms.double(-2.0), fraction = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.detachedQuadStep = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorDetachedQuadStep_Phase1') ), qualityCuts = cms.vdouble(-0.2, 0.2, 0.5), src = cms.InputTag("detachedQuadStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.detachedQuadStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("lowPtTripletStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("lowPtTripletStep","QualityMasks"), trajectories = cms.InputTag("lowPtTripletStepTracks") ) process.detachedQuadStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1, 2), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("detachedQuadStepSeedLayers"), trackingRegions = cms.InputTag("detachedQuadStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.detachedQuadStepHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0), CAThetaCut = cms.double(0.0011), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), doublets = cms.InputTag("detachedQuadStepHitDoublets"), extraHitRPhitolerance = cms.double(0), fitFastCircle = cms.bool(True), fitFastCircleChi2Cut = cms.bool(True), maxChi2 = cms.PSet( enabled = cms.bool(True), pt1 = cms.double(0.8), pt2 = cms.double(2), value1 = cms.double(500), value2 = cms.double(100) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_detachedQuadStepHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.detachedQuadStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("lowPtTripletStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("lowPtTripletStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("lowPtTripletStepTracks") ) process.detachedQuadStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("detachedQuadStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("detachedQuadStepClusters") ), 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.detachedQuadStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(False), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(False) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_detachedQuadStepHitQuadruplets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("detachedQuadStepHitQuadruplets") ) process.detachedQuadStepSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("detachedQuadStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.9, 3.0), d0_par2 = cms.vdouble(1.0, 3.0), dz_par1 = cms.vdouble(0.9, 3.0), dz_par2 = cms.vdouble(1.0, 3.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), 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(4.0), name = cms.string('detachedQuadStepVtxLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.3, 4.0), d0_par2 = cms.vdouble(1.3, 4.0), dz_par1 = cms.vdouble(1.3, 4.0), dz_par2 = cms.vdouble(1.3, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), 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(4.0), name = cms.string('detachedQuadStepTrkLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.9), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.9, 3.0), d0_par2 = cms.vdouble(0.9, 3.0), dz_par1 = cms.vdouble(0.9, 3.0), dz_par2 = cms.vdouble(0.9, 3.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedQuadStepVtxTight'), preFilterName = cms.string('detachedQuadStepVtxLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.5), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.1, 4.0), d0_par2 = cms.vdouble(1.1, 4.0), dz_par1 = cms.vdouble(1.1, 4.0), dz_par2 = cms.vdouble(1.1, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedQuadStepTrkTight'), preFilterName = cms.string('detachedQuadStepTrkLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.9), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.8, 3.0), d0_par2 = cms.vdouble(0.8, 3.0), dz_par1 = cms.vdouble(0.8, 3.0), dz_par2 = cms.vdouble(0.8, 3.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedQuadStepVtx'), preFilterName = cms.string('detachedQuadStepVtxTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.5), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.9, 4.0), d0_par2 = cms.vdouble(0.9, 4.0), dz_par1 = cms.vdouble(0.9, 4.0), dz_par2 = cms.vdouble(0.9, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedQuadStepTrk'), preFilterName = cms.string('detachedQuadStepTrkTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.detachedQuadStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('detachedQuadStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('detachedQuadStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("detachedQuadStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("detachedQuadStepSeeds"), useHitsSplitting = cms.bool(True) ) process.detachedQuadStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(3.75), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(1.5), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.9), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.detachedQuadStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('detachedQuadStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("detachedQuadStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.detachedTripletStep = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorDetachedTripletStep_Phase1') ), qualityCuts = cms.vdouble(-0.2, 0.4, 0.85), src = cms.InputTag("detachedTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.detachedTripletStepClassifier1 = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter3_13TeV') ), qualityCuts = cms.vdouble(-0.5, 0.0, 0.5), src = cms.InputTag("detachedTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.detachedTripletStepClassifier2 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter0_13TeV') ), qualityCuts = cms.vdouble(-0.2, 0.0, 0.4), src = cms.InputTag("detachedTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.detachedTripletStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("detachedQuadStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("detachedQuadStep","QualityMasks"), trajectories = cms.InputTag("detachedQuadStepTracks") ) process.detachedTripletStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("detachedTripletStepSeedLayers"), trackingRegions = cms.InputTag("detachedTripletStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.detachedTripletStepHitTriplets = cms.EDProducer("CAHitTripletEDProducer", CAHardPtCut = cms.double(0.2), CAPhiCut = cms.double(0), CAThetaCut = cms.double(0.001), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), doublets = cms.InputTag("detachedTripletStepHitDoublets"), extraHitRPhitolerance = cms.double(0), maxChi2 = cms.PSet( enabled = cms.bool(True), pt1 = cms.double(0.8), pt2 = cms.double(2), value1 = cms.double(300), value2 = cms.double(10) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_detachedTripletStepHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.detachedTripletStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("detachedQuadStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("detachedQuadStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("detachedQuadStepTracks") ) process.detachedTripletStepSeedClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("initialStepSeedClusterMask"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("lowPtTripletStepSeeds") ) process.detachedTripletStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("detachedTripletStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("detachedTripletStepClusters") ), 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', 'BPix2+BPix3+FPix1_pos', 'BPix2+BPix3+FPix1_neg', 'BPix2+FPix1_pos+FPix2_pos', 'BPix2+FPix1_neg+FPix2_neg', 'FPix1_pos+FPix2_pos+FPix3_pos', 'FPix1_neg+FPix2_neg+FPix3_neg' ) ) process.detachedTripletStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(False), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(False) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_detachedTripletStepHitTriplets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("detachedTripletStepHitTriplets") ) process.detachedTripletStepSelector = cms.EDProducer("MultiTrackSelector", GBRForestLabel = cms.string('MVASelectorIter3'), beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("detachedTripletStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.2, 3.0), d0_par2 = cms.vdouble(1.3, 3.0), dz_par1 = cms.vdouble(1.2, 3.0), dz_par2 = cms.vdouble(1.3, 3.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), 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(4.0), name = cms.string('detachedTripletStepVtxLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.7), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.6, 4.0), d0_par2 = cms.vdouble(1.6, 4.0), dz_par1 = cms.vdouble(1.6, 4.0), dz_par2 = cms.vdouble(1.6, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), 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(4.0), name = cms.string('detachedTripletStepTrkLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.7), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.95, 3.0), d0_par2 = cms.vdouble(1.0, 3.0), dz_par1 = cms.vdouble(0.9, 3.0), dz_par2 = cms.vdouble(1.0, 3.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedTripletStepVtxTight'), preFilterName = cms.string('detachedTripletStepVtxLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.5), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.1, 4.0), d0_par2 = cms.vdouble(1.1, 4.0), dz_par1 = cms.vdouble(1.1, 4.0), dz_par2 = cms.vdouble(1.1, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedTripletStepTrkTight'), preFilterName = cms.string('detachedTripletStepTrkLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.7), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.85, 3.0), d0_par2 = cms.vdouble(0.9, 3.0), dz_par1 = cms.vdouble(0.8, 3.0), dz_par2 = cms.vdouble(0.9, 3.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedTripletStepVtx'), preFilterName = cms.string('detachedTripletStepVtxTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.4), 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(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(4), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('detachedTripletStepTrk'), preFilterName = cms.string('detachedTripletStepTrkTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useAnyMVA = cms.bool(False), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.detachedTripletStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('detachedTripletStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('detachedTripletStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("detachedTripletStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("detachedTripletStepSeeds"), useHitsSplitting = cms.bool(True) ) process.detachedTripletStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(2.5), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(1.5), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.9), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.detachedTripletStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('detachedTripletStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("detachedTripletStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.discriminationByIsolationMVA2Loose = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVA2raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff70'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVA2raw") ) process.discriminationByIsolationMVA2Medium = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVA2raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff60'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVA2raw") ) process.discriminationByIsolationMVA2Tight = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVA2raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff50'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVA2raw") ) process.discriminationByIsolationMVA2VLoose = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVA2raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff80'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVA2raw") ) process.discriminationByIsolationMVA2VTight = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVA2raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff40'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVA2raw") ) process.discriminationByIsolationMVA2raw = cms.EDProducer("PFRecoTauDiscriminationByIsolationMVA2", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('tauIdMVAnewDMwLT'), mvaOpt = cms.string('newDMwLT'), srcChargedIsoPtSum = cms.InputTag("chargedIsoPtSum"), srcNeutralIsoPtSum = cms.InputTag("neutralIsoPtSum"), srcPUcorrPtSum = cms.InputTag("puCorrPtSum"), srcTauTransverseImpactParameters = cms.InputTag("") ) process.discriminationByIsolationMVArun2v1Loose = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVArun2v1raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff70'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVArun2v1raw") ) process.discriminationByIsolationMVArun2v1Medium = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVArun2v1raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff60'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVArun2v1raw") ) process.discriminationByIsolationMVArun2v1Tight = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVArun2v1raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff50'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVArun2v1raw") ) process.discriminationByIsolationMVArun2v1VLoose = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVArun2v1raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff80'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVArun2v1raw") ) process.discriminationByIsolationMVArun2v1VTight = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), key = cms.InputTag("discriminationByIsolationMVArun2v1raw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('newDMwLTEff40'), variable = cms.string('pt') )), toMultiplex = cms.InputTag("discriminationByIsolationMVArun2v1raw") ) process.discriminationByIsolationMVArun2v1raw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('tauIdMVAnewDMwLT'), mvaOpt = cms.string('newDMwLT'), srcChargedIsoPtSum = cms.InputTag("chargedIsoPtSum"), srcFootprintCorrection = cms.InputTag("footprintCorrection"), srcNeutralIsoPtSum = cms.InputTag("neutralIsoPtSum"), srcPUcorrPtSum = cms.InputTag("puCorrPtSum"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("photonPtSumOutsideSignalCone"), srcTauTransverseImpactParameters = cms.InputTag("") ) process.displacedGlobalMuons = cms.EDProducer("GlobalMuonProducer", GLBTrajBuilderParameters = cms.PSet( GlbRefitterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), Chi2CutCSC = cms.double(150.0), Chi2CutDT = cms.double(10.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(20, 30), DYTupdator = cms.bool(False), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('GlbMuKFFitter'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), 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(2.5), 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(20.0), MinP = cms.double(2.5), MinPt = cms.double(1.0), Propagator = cms.string('SmartPropagatorRK'), 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('MuonRecHitBuilder'), MuonTrackingRegionBuilder = 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(""), 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("offlineBeamSpot"), input = cms.InputTag(""), maxRegions = cms.int32(1), precise = cms.bool(True), vertexCollection = cms.InputTag("") ), 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('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRK'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), TrackerPropagator = cms.string('SteppingHelixPropagatorAny'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), MuonCollectionLabel = cms.InputTag("displacedStandAloneMuons"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(True), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ), TrackerCollectionLabel = cms.InputTag("displacedTracks") ) process.displacedMuonSeeds = cms.EDProducer("CosmicMuonSeedGenerator", CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), 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.displacedStandAloneMuons = cms.EDProducer("StandAloneMuonProducer", InputObjects = cms.InputTag("displacedMuonSeeds"), MuonTrajectoryBuilder = cms.string('StandAloneMuonTrajectoryBuilder'), STATrajBuilderParameters = cms.PSet( BWFilterParameters = cms.PSet( BWSeedType = cms.string('fromGenerator'), CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableGEMMeasurement = cms.bool(False), EnableME0Measurement = cms.bool(False), EnableRPCMeasurement = cms.bool(True), FitDirection = cms.string('outsideIn'), GEMRecSegmentLabel = cms.InputTag("gemRecHits"), ME0RecSegmentLabel = cms.InputTag("me0Segments"), 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('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits") ), DoBackwardFilter = cms.bool(True), DoRefit = cms.bool(False), DoSeedRefit = cms.bool(False), FilterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableGEMMeasurement = cms.bool(False), EnableME0Measurement = cms.bool(False), EnableRPCMeasurement = cms.bool(True), FitDirection = cms.string('insideOut'), GEMRecSegmentLabel = cms.InputTag("gemRecHits"), ME0RecSegmentLabel = cms.InputTag("me0Segments"), 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('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits") ), NavigationType = cms.string('Standard'), RefitterParameters = cms.PSet( FitterName = cms.string('KFFitterSmootherSTA'), ForceAllIterations = cms.bool(False), MaxFractionOfLostHits = cms.double(0.05), NumberOfIterations = cms.uint32(3), RescaleError = cms.double(100.0) ), SeedPosition = cms.string('in'), SeedPropagator = cms.string('SteppingHelixPropagatorAny'), SeedTransformerParameters = cms.PSet( Fitter = cms.string('KFFitterSmootherSTA'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), NMinRecHits = cms.uint32(2), Propagator = cms.string('SteppingHelixPropagatorAny'), RescaleError = cms.double(100.0), UseSubRecHits = cms.bool(False) ) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.displacedTracks = cms.EDProducer("DuplicateListMerger", candidateComponents = cms.InputTag("duplicateDisplacedTrackCandidates","candidateMap"), candidateSource = cms.InputTag("duplicateDisplacedTrackCandidates","candidates"), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), diffHitsCut = cms.int32(5), mergedMVAVals = cms.InputTag("duplicateDisplacedTrackClassifier","MVAValues"), mergedSource = cms.InputTag("mergedDuplicateDisplacedTracks"), originalMVAVals = cms.InputTag("preDuplicateMergingDisplacedTracks","MVAValues"), originalSource = cms.InputTag("preDuplicateMergingDisplacedTracks"), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder') ) process.doubleSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('doubleVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("inclusiveSecondaryVertexFinderFilteredTagInfos")) ) process.dt1DCosmicRecHits = cms.EDProducer("DTRecHitProducer", debug = cms.untracked.bool(False), dtDigiLabel = cms.InputTag("muonDTDigis"), recAlgo = cms.string('DTLinearDriftFromDBAlgo'), recAlgoConfig = cms.PSet( debug = cms.untracked.bool(False), doVdriftCorr = cms.bool(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ) ) process.dt1DRecHits = cms.EDProducer("DTRecHitProducer", debug = cms.untracked.bool(False), dtDigiLabel = cms.InputTag("muonDTDigis"), 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), 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), tTrigLabel = cms.string(''), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(True) ) ) process.dt2DCosmicSegments = cms.EDProducer("DTRecSegment2DProducer", Reco2DAlgoConfig = cms.PSet( AlphaMaxPhi = cms.double(100.0), AlphaMaxTheta = cms.double(100.0), MaxAllowedHits = cms.uint32(50), MaxChi2 = cms.double(4.0), debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), intime_cut = cms.double(-1.0), 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(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ), segmCleanerMode = cms.int32(2) ), Reco2DAlgoName = cms.string('DTMeantimerPatternReco'), debug = cms.untracked.bool(False), recHits1DLabel = cms.InputTag("dt1DCosmicRecHits") ) process.dt2DSegments = cms.EDProducer("DTRecSegment2DProducer", 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), 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), 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), recHits1DLabel = cms.InputTag("dt1DRecHits") ) process.dt4DCosmicSegments = cms.EDProducer("DTRecSegment4DProducer", Reco4DAlgoConfig = cms.PSet( AllDTRecHits = cms.bool(True), Reco2DAlgoConfig = cms.PSet( AlphaMaxPhi = cms.double(100.0), AlphaMaxTheta = cms.double(100.0), MaxAllowedHits = cms.uint32(50), MaxChi2 = cms.double(4.0), debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), intime_cut = cms.double(-1.0), 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(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ), segmCleanerMode = cms.int32(2) ), Reco2DAlgoName = cms.string('DTMeantimerPatternReco'), debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), intime_cut = cms.double(-1.0), 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(False), maxTime = cms.double(420.0), minTime = cms.double(-3.0), stepTwoFromDigi = cms.bool(False), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(False) ) ), Reco4DAlgoName = cms.string('DTMeantimerPatternReco4D'), debug = cms.untracked.bool(False), recHits1DLabel = cms.InputTag("dt1DCosmicRecHits"), recHits2DLabel = cms.InputTag("dt2DCosmicSegments") ) process.dt4DSegments = 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), 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), 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), 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), 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), tTrigLabel = cms.string(''), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ), useUncertDB = cms.bool(True) ) ), Reco4DAlgoName = cms.string('DTMeantimerPatternReco4D'), debug = cms.untracked.bool(False), recHits1DLabel = cms.InputTag("dt1DRecHits"), recHits2DLabel = cms.InputTag("dt2DSegments") ) process.dt4DSegmentsT0Seg = cms.EDProducer("DTSegment4DT0Corrector", debug = cms.untracked.bool(False), hit_afterT0_resolution = cms.double(0.03), performT0_vdriftSegCorrection = cms.bool(True), perform_delta_rejecting = cms.bool(False), recAlgo = cms.string('DTLinearDriftAlgo'), recAlgoConfig = cms.PSet( debug = cms.untracked.bool(False), driftVelocity = cms.double(0.00543), hitResolution = cms.double(0.02), maxTime = cms.double(420.0), minTime = cms.double(-3.0), tTrigMode = cms.string('DTTTrigSyncFromDB'), tTrigModeConfig = cms.PSet( debug = cms.untracked.bool(False), doT0Correction = cms.bool(True), doTOFCorrection = cms.bool(False), doWirePropCorrection = cms.bool(False), tTrigLabel = cms.string('cosmics'), tofCorrType = cms.int32(0), vPropWire = cms.double(24.4), wirePropCorrType = cms.int32(0) ) ), recHits4DLabel = cms.InputTag("dt4DSegments") ) process.dttfDigis = cms.EDProducer("DTTFFEDReader", DTTF_FED_Source = cms.InputTag("rawDataMapperByLabel"), verbose = cms.untracked.bool(False) ) process.duplicateDisplacedTrackCandidates = cms.EDProducer("DuplicateTrackMerger", GBRForestFileName = cms.string(''), chi2EstimatorName = cms.string('duplicateDisplacedTrackCandidatesChi2Est'), forestLabel = cms.string('MVADuplicate'), maxDCA = cms.double(30), maxDLambda = cms.double(0.3), maxDPhi = cms.double(0.3), maxDQoP = cms.double(0.25), maxDdsz = cms.double(10), maxDdxy = cms.double(10), minBDTG = cms.double(-0.1), minDeltaR3d = cms.double(-4), minP = cms.double(0.4), minpT = cms.double(0.2), overlapCheckMaxHits = cms.uint32(4), overlapCheckMaxMissingLayers = cms.uint32(1), overlapCheckMinCosT = cms.double(0.99), propagatorName = cms.string('PropagatorWithMaterial'), source = cms.InputTag("preDuplicateMergingDisplacedTracks"), ttrhBuilderName = cms.string('WithAngleAndTemplate'), useInnermostState = cms.bool(True) ) process.duplicateDisplacedTrackClassifier = cms.EDProducer("TrackCutClassifier", beamspot = cms.InputTag("offlineBeamSpot"), 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), drWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_exp = cms.vint32(2147483647, 2147483647, 2147483647), dr_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), dz_par = cms.PSet( dzWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_exp = cms.vint32(2147483647, 2147483647, 2147483647), dz_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), isHLT = cms.bool(False), maxChi2 = cms.vdouble(9999.0, 9999.0, 9999.0), maxChi2n = cms.vdouble(9999.0, 9999.0, 9999.0), maxDr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDz = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24, 15), maxLostLayers = cms.vint32(99, 99, 99), maxRelPtErr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), min3DLayers = cms.vint32(0, 0, 0), minHits = cms.vint32(0, 0, 1), minHits4pass = cms.vint32(2147483647, 2147483647, 2147483647), minLayers = cms.vint32(0, 0, 0), minNVtxTrk = cms.int32(2), minNdof = cms.vdouble(-1, -1, -1), minPixelHits = cms.vint32(0, 0, 0) ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag("mergedDuplicateDisplacedTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.duplicateTrackCandidates = cms.EDProducer("DuplicateTrackMerger", GBRForestFileName = cms.string(''), chi2EstimatorName = cms.string('duplicateTrackCandidatesChi2Est'), forestLabel = cms.string('MVADuplicate'), maxDCA = cms.double(30), maxDLambda = cms.double(0.3), maxDPhi = cms.double(0.3), maxDQoP = cms.double(0.25), maxDdsz = cms.double(10), maxDdxy = cms.double(10), minBDTG = cms.double(-0.1), minDeltaR3d = cms.double(-4), minP = cms.double(0.4), minpT = cms.double(0.2), overlapCheckMaxHits = cms.uint32(4), overlapCheckMaxMissingLayers = cms.uint32(1), overlapCheckMinCosT = cms.double(0.99), propagatorName = cms.string('PropagatorWithMaterial'), source = cms.InputTag("preDuplicateMergingGeneralTracks"), ttrhBuilderName = cms.string('WithAngleAndTemplate'), useInnermostState = cms.bool(True) ) process.duplicateTrackClassifier = cms.EDProducer("TrackCutClassifier", beamspot = cms.InputTag("offlineBeamSpot"), 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), drWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_exp = cms.vint32(2147483647, 2147483647, 2147483647), dr_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), dz_par = cms.PSet( dzWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_exp = cms.vint32(2147483647, 2147483647, 2147483647), dz_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), isHLT = cms.bool(False), maxChi2 = cms.vdouble(9999.0, 9999.0, 9999.0), maxChi2n = cms.vdouble(10.0, 1.0, 0.4), maxDr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDz = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24, 15), maxLostLayers = cms.vint32(99, 99, 99), maxRelPtErr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), min3DLayers = cms.vint32(0, 0, 0), minHits = cms.vint32(0, 0, 1), minHits4pass = cms.vint32(2147483647, 2147483647, 2147483647), minLayers = cms.vint32(0, 0, 0), minNVtxTrk = cms.int32(2), minNdof = cms.vdouble(-1, -1, -1), minPixelHits = cms.vint32(0, 0, 0) ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag("mergedDuplicateTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.earlyDisplacedMuons = cms.EDProducer("MuonIdProducer", CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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) ), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ), TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ), 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), fillTrackerKink = cms.bool(False), globalTrackQualityInputTag = cms.InputTag("glbTrackQual"), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), inputCollectionLabels = cms.VInputTag(cms.InputTag("earlyGeneralTracks"), cms.InputTag("displacedStandAloneMuons")), inputCollectionTypes = cms.vstring( 'inner tracks', 'outer tracks' ), jetDepositName = cms.string('jets'), maxAbsDx = cms.double(3.0), maxAbsDy = cms.double(9999.0), maxAbsEta = cms.double(3.0), maxAbsPullX = cms.double(3.0), maxAbsPullY = cms.double(9999.0), minCaloCompatibility = cms.double(0.6), minNumberOfMatches = cms.int32(1), minP = cms.double(3.0), minPCaloMuon = cms.double(3.0), minPt = cms.double(2.0), ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0), runArbitrationCleaner = cms.bool(True), sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0), trackDepositName = cms.string('tracker'), writeIsoDeposits = cms.bool(True) ) process.earlyGeneralTracks = cms.EDProducer("TrackCollectionMerger", allowFirstHitShare = cms.bool(True), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), enableMerging = cms.bool(True), foundHitBonus = cms.double(10), inputClassifiers = cms.vstring( 'initialStep', 'highPtTripletStep', 'jetCoreRegionalStep', 'lowPtQuadStep', 'lowPtTripletStep', 'detachedQuadStep', 'detachedTripletStep', 'pixelPairStep', 'mixedTripletStep', 'pixelLessStep', 'tobTecStep' ), lostHitPenalty = cms.double(5), minQuality = cms.string('loose'), minShareHits = cms.uint32(2), shareFrac = cms.double(0.19), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder'), trackProducers = cms.VInputTag( "initialStepTracks", "highPtTripletStepTracks", "jetCoreRegionalStepTracks", "lowPtQuadStepTracks", "lowPtTripletStepTracks", "detachedQuadStepTracks", "detachedTripletStepTracks", "pixelPairStepTracks", "mixedTripletStepTracks", "pixelLessStepTracks", "tobTecStepTracks" ) ) process.earlyMuons = cms.EDProducer("MuonIdProducer", CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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) ), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ), TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ), 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), fillTrackerKink = cms.bool(False), globalTrackQualityInputTag = cms.InputTag("glbTrackQual"), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), inputCollectionLabels = cms.VInputTag(cms.InputTag("earlyGeneralTracks"), cms.InputTag("standAloneMuons","UpdatedAtVtx")), inputCollectionTypes = cms.vstring( 'inner tracks', 'outer tracks' ), jetDepositName = cms.string('jets'), maxAbsDx = cms.double(3.0), maxAbsDy = cms.double(9999.0), maxAbsEta = cms.double(3.0), maxAbsPullX = cms.double(3.0), maxAbsPullY = cms.double(9999.0), minCaloCompatibility = cms.double(0.6), minNumberOfMatches = cms.int32(1), minP = cms.double(3.0), minPCaloMuon = cms.double(3.0), minPt = cms.double(2.0), ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0), runArbitrationCleaner = cms.bool(True), sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0), trackDepositName = cms.string('tracker'), writeIsoDeposits = cms.bool(True) ) process.ecalBarrelClusterFastTimer = cms.EDProducer("EcalBarrelClusterFastTimer", ebClusters = cms.InputTag("particleFlowClusterECALUncorrected"), ebTimeHits = cms.InputTag("ecalDetailedTimeRecHit","EcalRecHitsEB"), ecalDepth = cms.double(7.0), minEnergyToConsider = cms.double(0.0), minFractionToConsider = cms.double(0.1), resolutionModels = cms.VPSet(cms.PSet( modelName = cms.string('PerfectResolutionModel') )), timedVertices = cms.InputTag("offlinePrimaryVertices4D") ) process.ecalCompactTrigPrim = cms.EDProducer("EcalCompactTrigPrimProducer", inColl = cms.InputTag("ecalDigis","EcalTriggerPrimitives"), outColl = cms.string('') ) process.ecalDetIdToBeRecovered = cms.EDProducer("EcalDetIdToBeRecoveredProducer", ebDetIdToBeRecovered = cms.string('ebDetId'), ebFEToBeRecovered = cms.string('ebFE'), ebIntegrityChIdErrors = cms.InputTag("ecalDigis","EcalIntegrityChIdErrors"), ebIntegrityGainErrors = cms.InputTag("ecalDigis","EcalIntegrityGainErrors"), ebIntegrityGainSwitchErrors = cms.InputTag("ecalDigis","EcalIntegrityGainSwitchErrors"), ebSrFlagCollection = cms.InputTag("ecalDigis"), eeDetIdToBeRecovered = cms.string('eeDetId'), eeFEToBeRecovered = cms.string('eeFE'), eeIntegrityChIdErrors = cms.InputTag("ecalDigis","EcalIntegrityChIdErrors"), eeIntegrityGainErrors = cms.InputTag("ecalDigis","EcalIntegrityGainErrors"), eeIntegrityGainSwitchErrors = cms.InputTag("ecalDigis","EcalIntegrityGainSwitchErrors"), eeSrFlagCollection = cms.InputTag("ecalDigis"), integrityBlockSizeErrors = cms.InputTag("ecalDigis","EcalIntegrityBlockSizeErrors"), integrityTTIdErrors = cms.InputTag("ecalDigis","EcalIntegrityTTIdErrors") ) process.ecalDetailedTimeRecHit = cms.EDProducer("EcalDetailedTimeRecHitProducer", EBDetailedTimeRecHitCollection = cms.string('EcalRecHitsEB'), EBRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EBTimeDigiCollection = cms.InputTag("mix","EBTimeDigi"), EBTimeLayer = cms.int32(7), EEDetailedTimeRecHitCollection = cms.string('EcalRecHitsEE'), EERecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), EETimeDigiCollection = cms.InputTag("mix","EETimeDigi"), EETimeLayer = cms.int32(3), correctForVertexZPosition = cms.bool(False), recoVertex = cms.InputTag("offlinePrimaryVerticesWithBS"), simVertex = cms.InputTag("g4SimHits"), useMCTruthVertex = cms.bool(False) ) process.ecalDigis = 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("rawDataMapperByLabel"), 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.ecalDrivenElectronSeeds = cms.EDProducer("ElectronSeedProducer", SeedConfiguration = cms.PSet( DeltaPhi1High = cms.double(0.08), DeltaPhi1Low = cms.double(0.23), DeltaPhi2B = cms.double(0.008), DeltaPhi2F = cms.double(0.012), HGCalConfig = cms.PSet( HGCBHInput = cms.InputTag("HGCalRecHit","HGCHEBRecHits"), HGCEEInput = cms.InputTag("HGCalRecHit","HGCEERecHits"), HGCFHInput = cms.InputTag("HGCalRecHit","HGCHEFRecHits") ), HighPtThreshold = cms.double(35.0), LowPtThreshold = cms.double(5.0), PhiMax2B = cms.double(0.002), PhiMax2F = cms.double(0.003), PhiMin2B = cms.double(-0.002), PhiMin2F = cms.double(-0.003), SCEtCut = cms.double(15.0), SizeWindowENeg = cms.double(0.675), allowHGCal = cms.bool(False), applyHOverECut = cms.bool(True), applySigmaIEtaIEtaCut = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), deltaZ1WithVertex = cms.double(25.0), dynamicPhiRoad = cms.bool(True), ePhiMax1 = cms.double(0.075), ePhiMin1 = cms.double(-0.125), fromTrackerSeeds = cms.bool(True), hOverEConeSize = cms.double(0.15), hOverEHBMinE = cms.double(0.7), hOverEHFMinE = cms.double(0.8), hOverEPtMin = cms.double(0.0), hcalRecHits = cms.InputTag("hbhereco"), hcalTowers = cms.InputTag("towerMaker"), initialSeeds = cms.InputTag("newCombinedSeeds"), maxHBarrel = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEEndcaps = cms.double(0.15), maxSigmaIEtaIEtaBarrel = cms.double(0.5), maxSigmaIEtaIEtaEndcaps = cms.double(0.5), measurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), measurementTrackerName = cms.string(''), nSigmasDeltaZ1 = cms.double(5.0), pPhiMax1 = cms.double(0.125), pPhiMin1 = cms.double(-0.075), preFilteredSeeds = cms.bool(False), r2MaxF = cms.double(0.15), r2MinF = cms.double(-0.15), rMaxI = cms.double(0.2), rMinI = cms.double(-0.2), searchInTIDTEC = cms.bool(True), useRecoVertex = cms.bool(False), vertices = cms.InputTag("offlinePrimaryVerticesWithBS"), z2MaxB = cms.double(0.09), z2MinB = cms.double(-0.09) ), barrelSuperClusters = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), endcapSuperClusters = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALEndcapWithPreshower") ) process.ecalDrivenElectronSeedsFromMultiCl = cms.EDProducer("ElectronSeedProducer", SeedConfiguration = cms.PSet( DeltaPhi1High = cms.double(0.08), DeltaPhi1Low = cms.double(0.23), DeltaPhi2B = cms.double(0.008), DeltaPhi2F = cms.double(0.012), HGCalConfig = cms.PSet( HGCBHInput = cms.InputTag("HGCalRecHit","HGCHEBRecHits"), HGCEEInput = cms.InputTag("HGCalRecHit","HGCEERecHits"), HGCFHInput = cms.InputTag("HGCalRecHit","HGCHEFRecHits") ), HighPtThreshold = cms.double(35.0), LowPtThreshold = cms.double(5.0), PhiMax2B = cms.double(0.002), PhiMax2F = cms.double(0.003), PhiMin2B = cms.double(-0.002), PhiMin2F = cms.double(-0.003), SCEtCut = cms.double(15.0), SizeWindowENeg = cms.double(0.675), allowHGCal = cms.bool(False), applyHOverECut = cms.bool(True), applySigmaIEtaIEtaCut = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), deltaZ1WithVertex = cms.double(25.0), dynamicPhiRoad = cms.bool(True), ePhiMax1 = cms.double(0.075), ePhiMin1 = cms.double(-0.125), fromTrackerSeeds = cms.bool(True), hOverEConeSize = cms.double(0.15), hOverEHBMinE = cms.double(0.7), hOverEHFMinE = cms.double(0.8), hOverEPtMin = cms.double(0.0), hcalRecHits = cms.InputTag("hbhereco"), hcalTowers = cms.InputTag("towerMaker"), initialSeeds = cms.InputTag("newCombinedSeeds"), maxHBarrel = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEEndcaps = cms.double(0.15), maxSigmaIEtaIEtaBarrel = cms.double(0.5), maxSigmaIEtaIEtaEndcaps = cms.double(0.5), measurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), measurementTrackerName = cms.string(''), nSigmasDeltaZ1 = cms.double(5.0), pPhiMax1 = cms.double(0.125), pPhiMin1 = cms.double(-0.075), preFilteredSeeds = cms.bool(False), r2MaxF = cms.double(0.15), r2MinF = cms.double(-0.15), rMaxI = cms.double(0.2), rMinI = cms.double(-0.2), searchInTIDTEC = cms.bool(True), useRecoVertex = cms.bool(False), vertices = cms.InputTag("offlinePrimaryVerticesWithBS"), z2MaxB = cms.double(0.09), z2MinB = cms.double(-0.09) ), barrelSuperClusters = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), endcapSuperClusters = cms.InputTag("particleFlowSuperClusterHGCalFromMultiCl") ) process.ecalDrivenGsfElectronCores = cms.EDProducer("GsfElectronCoreEcalDrivenProducer", ctfTracks = cms.InputTag("generalTracks"), gsfPfRecTracks = cms.InputTag("pfTrackElec"), gsfTracks = cms.InputTag("electronGsfTracks"), useGsfPfRecTracks = cms.bool(True) ) process.ecalDrivenGsfElectronCoresFromMultiCl = cms.EDProducer("GsfElectronCoreEcalDrivenProducer", ctfTracks = cms.InputTag("generalTracks"), gsfPfRecTracks = cms.InputTag("pfTrackElec"), gsfTracks = cms.InputTag("electronGsfTracksFromMultiCl"), useGsfPfRecTracks = cms.bool(False) ) process.ecalDrivenGsfElectrons = cms.EDProducer("GsfElectronEcalDrivenProducer", ElecMVAFilesString = cms.vstring( 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml' ), MaxElePtForOnlyMVA = cms.double(50.0), PreSelectMVA = cms.double(-0.1), SoftElecMVAFilesString = cms.vstring('RecoEgamma/ElectronIdentification/data/TMVA_BDTSoftElectrons_9Dec2013.weights.xml'), TransientInitialStateEstimatorParameters = cms.PSet( propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), addPflowElectrons = cms.bool(True), ambClustersOverlapStrategy = cms.uint32(1), ambSortingStrategy = cms.uint32(1), applyAmbResolution = cms.bool(False), applyPreselection = cms.bool(False), barrelRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotTag = cms.InputTag("offlineBeamSpot"), checkHcalStatus = cms.bool(True), combinationRegressionWeightFile = cms.vstring(), combinationRegressionWeightLabels = cms.vstring(), combinationWeightsFromDB = cms.bool(True), crackCorrectionFunction = cms.string('EcalClusterCrackCorrection'), ctfTracksCheck = cms.bool(True), ctfTracksTag = cms.InputTag("generalTracks"), eMinBarrel = cms.double(0.095), eMinEndcaps = cms.double(0.0), ecalDrivenEcalEnergyFromClassBasedParameterization = cms.bool(True), ecalDrivenEcalErrorFromClassBasedParameterization = cms.bool(True), ecalRefinedRegressionWeightFiles = cms.vstring(), ecalRefinedRegressionWeightLabels = cms.vstring(), ecalWeightsFromDB = cms.bool(True), endcapRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), etMinBarrel = cms.double(0.0), etMinEndcaps = cms.double(0.11), etMinHcal = cms.double(0.0), gedElectronMode = cms.bool(False), gsfElectronCoresTag = cms.InputTag("ecalDrivenGsfElectronCores"), gsfPfRecTracksTag = cms.InputTag("pfTrackElec"), hOverEConeSize = cms.double(0.15), hOverEConeSizePflow = cms.double(0.15), hOverEPtMin = cms.double(0.0), hOverEPtMinPflow = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), intRadiusEcalBarrel = cms.double(3.0), intRadiusEcalEndcaps = cms.double(3.0), intRadiusHcal = cms.double(0.15), isBarrel = cms.bool(False), isBarrelPflow = cms.bool(False), isEndcaps = cms.bool(False), isEndcapsPflow = cms.bool(False), isFiducial = cms.bool(False), isFiducialPflow = cms.bool(False), jurassicWidth = cms.double(1.5), maxDeltaEtaBarrel = cms.double(0.02), maxDeltaEtaBarrelPflow = cms.double(999999999.0), maxDeltaEtaEndcaps = cms.double(0.02), maxDeltaEtaEndcapsPflow = cms.double(999999999.0), maxDeltaPhiBarrel = cms.double(0.15), maxDeltaPhiBarrelPflow = cms.double(999999999.0), maxDeltaPhiEndcaps = cms.double(0.15), maxDeltaPhiEndcapsPflow = cms.double(999999999.0), maxEOverPBarrel = cms.double(999999999.0), maxEOverPBarrelPflow = cms.double(999999999.0), maxEOverPEndcaps = cms.double(999999999.0), maxEOverPEndcapsPflow = cms.double(999999999.0), maxFbremBarrel = cms.double(999999999.0), maxFbremBarrelPflow = cms.double(999999999.0), maxFbremEndcaps = cms.double(999999999.0), maxFbremEndcapsPflow = cms.double(999999999.0), maxHBarrel = cms.double(0.0), maxHBarrelPflow = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHEndcapsPflow = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEBarrelPflow = cms.double(999999999.0), maxHOverEEndcaps = cms.double(0.15), maxHOverEEndcapsPflow = cms.double(999999999.0), maxSigmaIetaIetaBarrel = cms.double(999999999.0), maxSigmaIetaIetaBarrelPflow = cms.double(999999999.0), maxSigmaIetaIetaEndcaps = cms.double(999999999.0), maxSigmaIetaIetaEndcapsPflow = cms.double(999999999.0), maxTIP = cms.double(999999999.0), maxTIPPflow = cms.double(999999999.0), minEOverPBarrel = cms.double(0.0), minEOverPBarrelPflow = cms.double(0.0), minEOverPEndcaps = cms.double(0.0), minEOverPEndcapsPflow = cms.double(0.0), minMVA = cms.double(-0.4), minMVAPflow = cms.double(-0.4), minMvaByPassForIsolated = cms.double(-0.4), minMvaByPassForIsolatedPflow = cms.double(-0.4), minSCEtBarrel = cms.double(15.0), minSCEtBarrelPflow = cms.double(0.0), minSCEtEndcaps = cms.double(15.0), minSCEtEndcapsPflow = cms.double(0.0), pfMvaTag = cms.InputTag(""), pflowGsfElectronsTag = cms.InputTag(""), previousGsfElectronsTag = cms.InputTag(""), pureTrackerDrivenEcalErrorFromSimpleParameterization = cms.bool(True), recHitFlagsToBeExcludedBarrel = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), recHitFlagsToBeExcludedEndcaps = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), recHitSeverityToBeExcludedBarrel = cms.vstring( 'kWeird', 'kBad', 'kTime' ), recHitSeverityToBeExcludedEndcaps = cms.vstring( 'kWeird', 'kBad', 'kTime' ), seedFromTEC = cms.bool(True), seedsTag = cms.InputTag("ecalDrivenElectronSeeds"), superClusterErrorFunction = cms.string('EcalClusterEnergyUncertaintyObjectSpecific'), trkIsol03Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), trkIsol04Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), useCombinationRegression = cms.bool(False), useEcalRegression = cms.bool(False), useGsfPfRecTracks = cms.bool(True), useIsolationValues = cms.bool(False), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False), vtxTag = cms.InputTag("offlinePrimaryVertices") ) process.ecalDrivenGsfElectronsFromMultiCl = cms.EDProducer("GsfElectronEcalDrivenProducer", ElecMVAFilesString = cms.vstring( 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml' ), MaxElePtForOnlyMVA = cms.double(50.0), PreSelectMVA = cms.double(-0.1), SoftElecMVAFilesString = cms.vstring('RecoEgamma/ElectronIdentification/data/TMVA_BDTSoftElectrons_9Dec2013.weights.xml'), TransientInitialStateEstimatorParameters = cms.PSet( propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), addPflowElectrons = cms.bool(True), ambClustersOverlapStrategy = cms.uint32(1), ambSortingStrategy = cms.uint32(1), applyAmbResolution = cms.bool(False), applyPreselection = cms.bool(False), barrelRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotTag = cms.InputTag("offlineBeamSpot"), checkHcalStatus = cms.bool(True), combinationRegressionWeightFile = cms.vstring(), combinationRegressionWeightLabels = cms.vstring(), combinationWeightsFromDB = cms.bool(True), crackCorrectionFunction = cms.string('EcalClusterCrackCorrection'), ctfTracksCheck = cms.bool(True), ctfTracksTag = cms.InputTag("generalTracks"), eMinBarrel = cms.double(0.095), eMinEndcaps = cms.double(0.0), ecalDrivenEcalEnergyFromClassBasedParameterization = cms.bool(True), ecalDrivenEcalErrorFromClassBasedParameterization = cms.bool(True), ecalRefinedRegressionWeightFiles = cms.vstring(), ecalRefinedRegressionWeightLabels = cms.vstring(), ecalWeightsFromDB = cms.bool(True), endcapRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), etMinBarrel = cms.double(0.0), etMinEndcaps = cms.double(0.11), etMinHcal = cms.double(0.0), gedElectronMode = cms.bool(False), gsfElectronCoresTag = cms.InputTag("ecalDrivenGsfElectronCoresFromMultiCl"), gsfPfRecTracksTag = cms.InputTag("pfTrackElec"), hOverEConeSize = cms.double(0.15), hOverEConeSizePflow = cms.double(0.15), hOverEPtMin = cms.double(0.0), hOverEPtMinPflow = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), intRadiusEcalBarrel = cms.double(3.0), intRadiusEcalEndcaps = cms.double(3.0), intRadiusHcal = cms.double(0.15), isBarrel = cms.bool(False), isBarrelPflow = cms.bool(False), isEndcaps = cms.bool(False), isEndcapsPflow = cms.bool(False), isFiducial = cms.bool(False), isFiducialPflow = cms.bool(False), jurassicWidth = cms.double(1.5), maxDeltaEtaBarrel = cms.double(0.02), maxDeltaEtaBarrelPflow = cms.double(999999999.0), maxDeltaEtaEndcaps = cms.double(0.02), maxDeltaEtaEndcapsPflow = cms.double(999999999.0), maxDeltaPhiBarrel = cms.double(0.15), maxDeltaPhiBarrelPflow = cms.double(999999999.0), maxDeltaPhiEndcaps = cms.double(0.15), maxDeltaPhiEndcapsPflow = cms.double(999999999.0), maxEOverPBarrel = cms.double(999999999.0), maxEOverPBarrelPflow = cms.double(999999999.0), maxEOverPEndcaps = cms.double(999999999.0), maxEOverPEndcapsPflow = cms.double(999999999.0), maxFbremBarrel = cms.double(999999999.0), maxFbremBarrelPflow = cms.double(999999999.0), maxFbremEndcaps = cms.double(999999999.0), maxFbremEndcapsPflow = cms.double(999999999.0), maxHBarrel = cms.double(0.0), maxHBarrelPflow = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHEndcapsPflow = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEBarrelPflow = cms.double(999999999.0), maxHOverEEndcaps = cms.double(0.15), maxHOverEEndcapsPflow = cms.double(999999999.0), maxSigmaIetaIetaBarrel = cms.double(999999999.0), maxSigmaIetaIetaBarrelPflow = cms.double(999999999.0), maxSigmaIetaIetaEndcaps = cms.double(999999999.0), maxSigmaIetaIetaEndcapsPflow = cms.double(999999999.0), maxTIP = cms.double(999999999.0), maxTIPPflow = cms.double(999999999.0), minEOverPBarrel = cms.double(0.0), minEOverPBarrelPflow = cms.double(0.0), minEOverPEndcaps = cms.double(0.0), minEOverPEndcapsPflow = cms.double(0.0), minMVA = cms.double(-0.4), minMVAPflow = cms.double(-0.4), minMvaByPassForIsolated = cms.double(-0.4), minMvaByPassForIsolatedPflow = cms.double(-0.4), minSCEtBarrel = cms.double(15.0), minSCEtBarrelPflow = cms.double(0.0), minSCEtEndcaps = cms.double(15.0), minSCEtEndcapsPflow = cms.double(0.0), pfMvaTag = cms.InputTag(""), pflowGsfElectronsTag = cms.InputTag(""), previousGsfElectronsTag = cms.InputTag(""), pureTrackerDrivenEcalErrorFromSimpleParameterization = cms.bool(True), recHitFlagsToBeExcludedBarrel = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), recHitFlagsToBeExcludedEndcaps = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), recHitSeverityToBeExcludedBarrel = cms.vstring( 'kWeird', 'kBad', 'kTime' ), recHitSeverityToBeExcludedEndcaps = cms.vstring( 'kWeird', 'kBad', 'kTime' ), seedFromTEC = cms.bool(True), seedsTag = cms.InputTag("ecalDrivenElectronSeeds"), superClusterErrorFunction = cms.string('EcalClusterEnergyUncertaintyObjectSpecific'), trkIsol03Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), trkIsol04Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), useCombinationRegression = cms.bool(False), useEcalRegression = cms.bool(False), useGsfPfRecTracks = cms.bool(True), useIsolationValues = cms.bool(False), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False), vtxTag = cms.InputTag("offlinePrimaryVertices") ) process.ecalMultiFitUncalibRecHit = cms.EDProducer("EcalUncalibRecHitProducer", EBdigiCollection = cms.InputTag("ecalDigis","ebDigis"), EBhitCollection = cms.string('EcalUncalibRecHitsEB'), EEdigiCollection = cms.InputTag("ecalDigis","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(True), amplitudeThresholdEB = cms.double(10), amplitudeThresholdEE = cms.double(10), 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), 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), 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('RatioMethod'), useLumiInfoRunHeader = cms.bool(True) ) ) process.ecalPreshowerDigis = 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("rawDataMapperByLabel") ) process.ecalPreshowerRecHit = cms.EDProducer("ESRecHitProducer", ESRecoAlgo = cms.int32(0), ESdigiCollection = cms.InputTag("ecalPreshowerDigis"), ESrechitCollection = cms.string('EcalRecHitsES'), algo = cms.string('ESRecHitWorker') ) process.ecalRecHit = cms.EDProducer("EcalRecHitProducer", ChannelStatusToBeExcluded = cms.vstring( 'kDAC', 'kNoisy', 'kNNoisy', 'kFixedG6', 'kFixedG1', 'kFixedG0', 'kNonRespondingIsolated', 'kDeadVFE', 'kDeadFE', 'kNoDataNoTP' ), EBLaserMAX = cms.double(3.0), EBLaserMIN = cms.double(0.5), EBrechitCollection = cms.string('EcalRecHitsEB'), EBuncalibRecHitCollection = cms.InputTag("ecalMultiFitUncalibRecHit","EcalUncalibRecHitsEB"), EELaserMAX = cms.double(8.0), EELaserMIN = cms.double(0.5), EErechitCollection = cms.string('EcalRecHitsEE'), EEuncalibRecHitCollection = cms.InputTag("ecalMultiFitUncalibRecHit","EcalUncalibRecHitsEE"), algo = cms.string('EcalRecHitWorkerSimple'), algoRecover = cms.string('EcalRecHitWorkerRecover'), cleaningConfig = cms.PSet( cThreshold_barrel = cms.double(4), cThreshold_double = cms.double(10), cThreshold_endcap = cms.double(15), e4e1Threshold_barrel = cms.double(0.08), e4e1Threshold_endcap = cms.double(0.3), e4e1_a_barrel = cms.double(0.02), e4e1_a_endcap = cms.double(0.02), e4e1_b_barrel = cms.double(0.02), e4e1_b_endcap = cms.double(-0.0125), e6e2thresh = cms.double(0.04), ignoreOutOfTimeThresh = cms.double(1000000000.0), tightenCrack_e1_double = cms.double(2), tightenCrack_e1_single = cms.double(1), tightenCrack_e4e1_single = cms.double(2.5), tightenCrack_e6e2_double = cms.double(3) ), dbStatusToBeExcludedEB = cms.vint32(14, 78, 142), dbStatusToBeExcludedEE = cms.vint32(14, 78, 142), ebDetIdToBeRecovered = cms.InputTag("ecalDetIdToBeRecovered","ebDetId"), ebFEToBeRecovered = cms.InputTag("ecalDetIdToBeRecovered","ebFE"), eeDetIdToBeRecovered = cms.InputTag("ecalDetIdToBeRecovered","eeDetId"), eeFEToBeRecovered = cms.InputTag("ecalDetIdToBeRecovered","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), logWarningEtThreshold_EE_FE = cms.double(50), 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), skipTimeCalib = cms.bool(False), triggerPrimitiveDigiCollection = cms.InputTag("ecalDigis","EcalTriggerPrimitives") ) process.ecalTPSkim = cms.EDProducer("EcalTPSkimmer", chStatusToSelectTP = cms.vuint32(13), doBarrel = cms.bool(True), doEndcap = cms.bool(True), skipModule = cms.bool(False), tpInputCollection = cms.InputTag("ecalDigis","EcalTriggerPrimitives"), tpOutputCollection = cms.string('') ) process.egammaCTFFinalFitWithMaterial = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('KFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('PropagatorWithMaterial'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('egammaCTFWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("siStripElectrons"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.egmElectronIsolationCITK = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet( cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedGsfElectronsTmp"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h0'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedGsfElectronsTmp"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('gamma'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedGsfElectronsTmp"), vertexIndex = cms.int32(0) ) ), srcForIsolationCone = cms.InputTag("pfNoPileUpCandidates"), srcToIsolate = cms.InputTag("gedGsfElectronsTmp") ) process.egmElectronIsolationPileUpCITK = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet(cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedGsfElectronsTmp"), vertexIndex = cms.int32(0) )), srcForIsolationCone = cms.InputTag("pfPileUpAllChargedParticles"), srcToIsolate = cms.InputTag("gedGsfElectronsTmp") ) process.egmGedGsfElectronPFNoPileUpIsolation = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet( cms.PSet( VetoConeSizeBarrel = cms.double(0.0), VetoConeSizeEndcaps = cms.double(0.015), coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithConeVeto'), miniAODVertexCodes = cms.vuint32(2, 3) ), cms.PSet( VetoConeSizeBarrel = cms.double(0.0), VetoConeSizeEndcaps = cms.double(0.0), coneSize = cms.double(0.3), isolateAgainst = cms.string('h0'), isolationAlgo = cms.string('ElectronPFIsolationWithConeVeto'), miniAODVertexCodes = cms.vuint32(2, 3) ), cms.PSet( VetoConeSizeBarrel = cms.double(0.0), VetoConeSizeEndcaps = cms.double(0.08), coneSize = cms.double(0.3), isolateAgainst = cms.string('gamma'), isolationAlgo = cms.string('ElectronPFIsolationWithConeVeto'), miniAODVertexCodes = cms.vuint32(2, 3) ) ), srcForIsolationCone = cms.InputTag("pfNoPileUpCandidates"), srcToIsolate = cms.InputTag("gedGsfElectrons") ) process.egmGedGsfElectronPFNoPileUpIsolationMapBasedVeto = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet( cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedGsfElectrons"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h0'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedGsfElectrons"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('gamma'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedGsfElectrons"), vertexIndex = cms.int32(0) ) ), srcForIsolationCone = cms.InputTag("pfNoPileUpCandidates"), srcToIsolate = cms.InputTag("gedGsfElectrons") ) process.egmGedGsfElectronPFPileUpIsolation = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet(cms.PSet( VetoConeSizeBarrel = cms.double(0.0), VetoConeSizeEndcaps = cms.double(0.015), coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithConeVeto'), miniAODVertexCodes = cms.vuint32(0, 1) )), srcForIsolationCone = cms.InputTag("pfPileUpAllChargedParticles"), srcToIsolate = cms.InputTag("gedGsfElectrons") ) process.egmGedGsfElectronPFPileUpIsolationMapBasedVeto = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet(cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('ElectronPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolation","gedGsfElectrons"), vertexIndex = cms.int32(0) )), srcForIsolationCone = cms.InputTag("pfPileUpAllChargedParticles"), srcToIsolate = cms.InputTag("gedGsfElectrons") ) process.egmPhotonIsolationCITK = cms.EDProducer("CITKPFIsolationSumProducer", isolationConeDefinitions = cms.VPSet( cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h+'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedPhotonsTmp"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('h0'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedPhotonsTmp"), vertexIndex = cms.int32(0) ), cms.PSet( coneSize = cms.double(0.3), isolateAgainst = cms.string('gamma'), isolationAlgo = cms.string('PhotonPFIsolationWithMapBasedVeto'), miniAODVertexCodes = cms.vuint32(2, 3), particleBasedIsolation = cms.InputTag("particleBasedIsolationTmp","gedPhotonsTmp"), vertexIndex = cms.int32(0) ) ), srcForIsolationCone = cms.InputTag("pfNoPileUpCandidates"), srcToIsolate = cms.InputTag("gedPhotonsTmp") ) process.eidCutBasedExt = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('robust'), electronQuality = cms.string('loose'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.eidLoose = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('classbased'), electronQuality = cms.string('loose'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.eidRobustHighEnergy = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('robust'), electronQuality = cms.string('highenergy'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.eidRobustLoose = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('robust'), electronQuality = cms.string('loose'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.eidRobustTight = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('robust'), electronQuality = cms.string('tight'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.eidTight = cms.EDProducer("EleIdCutBasedExtProducer", additionalCategories = cms.bool(True), algorithm = cms.string('eIDCB'), classbasedlooseEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedlooseEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.009, 0.0045, 0.0085, 0.0, 0.0105, 0.0068, 0.01, 0.0 ), deltaPhiIn = cms.vdouble( 0.05, 0.025, 0.053, 0.09, 0.07, 0.03, 0.092, 0.092 ), eSeedOverPin = cms.vdouble( 0.11, 0.91, 0.11, 0.0, 0.0, 0.85, 0.0, 0.0 ), hOverE = cms.vdouble( 0.115, 0.1, 0.055, 0.0, 0.145, 0.12, 0.15, 0.0 ), sigmaEtaEta = cms.vdouble( 0.014, 0.012, 0.0115, 0.0, 0.0275, 0.0265, 0.0265, 0.0 ) ), classbasedlooseEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0078, 0.00259, 0.0062, 0.0, 0.0078, 0.0061, 0.0061, 0.0 ), deltaPhiIn = cms.vdouble( 0.053, 0.0189, 0.059, 0.099, 0.0278, 0.0157, 0.042, 0.08 ), eSeedOverPin = cms.vdouble( 0.3, 0.92, 0.211, 0.0, 0.42, 0.88, 0.68, 0.0 ), hOverE = cms.vdouble( 0.076, 0.033, 0.07, 0.0, 0.083, 0.0148, 0.033, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0101, 0.0095, 0.0097, 0.0, 0.0271, 0.0267, 0.0259, 0.0 ) ), classbasedlooseEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00958, 0.00406, 0.0122, 0.0137, 0.00837, 0.0127, 0.011, 0.00336, 0.00977, 0.015, 0.00675, 0.0109, 0.014, 0.00508, 0.0109, 0.0146, 0.00506, 0.0127 ), cutdphi = cms.vdouble( 0.0372, 0.114, 0.118, 0.0488, 0.117, 0.119, 0.0606, 0.0548, 0.117, 0.07, 0.0355, 0.117, 0.088, 0.045, 0.118, 0.0919, 0.0236, 0.0515 ), cuteopin = cms.vdouble( 0.878, 0.802, 0.814, 0.942, 0.735, 0.774, 0.829, 0.909, 0.829, 0.813, 0.86, 0.897, 0.817, 0.831, 0.818, 0.861, 0.787, 0.789 ), cuthoe = cms.vdouble( 0.0887, 0.0934, 0.0949, 0.0986, 0.0431, 0.0878, 0.097, 0.0509, 0.098, 0.0991, 0.0321, 0.0928, 0.0663, 0.0717, 0.0966, 0.0758, 0.0149, 0.0131 ), cutip = cms.vdouble( 0.0246, 0.076, 0.0966, 0.0885, 0.441, 0.205, 0.0292, 0.0293, 0.0619, 0.0251, 0.159, 0.0815, 7.29, 0.0106, 5.76, 6.89, 1.27, 5.89 ), cutisoecal = cms.vdouble( 33.4, 28.1, 7.32, 27.4, 7.33, 21.7, 93.8, 102.0, 12.1, 26.0, 8.91, 10.0, 16.1, 31.3, 16.9, 15.4, 13.3, 37.7 ), cutisohcal = cms.vdouble( 13.5, 9.93, 7.56, 14.8, 8.1, 10.8, 42.7, 20.1, 9.11, 10.4, 6.89, 5.59, 8.53, 9.59, 24.2, 2.78, 8.67, 0.288 ), cutisotk = cms.vdouble( 24.3, 8.45, 14.4, 27.8, 6.02, 10.5, 14.1, 10.2, 14.5, 19.1, 6.1, 14.1, 8.59, 8.33, 8.3, 8.93, 8.6, 16.0 ), cutmishits = cms.vdouble( 5.5, 1.5, 5.5, 2.5, 2.5, 2.5, 3.5, 5.5, 0.5, 1.5, 2.5, 0.5, 1.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0172, 0.0115, 0.0143, 0.0344, 0.0295, 0.0304, 0.0145, 0.0108, 0.0128, 0.0347, 0.0307, 0.0316, 0.018, 0.011, 0.0132, 0.0349, 0.031, 0.0327 ) ), classbasedlooseEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0392, 0.0397, 0.0394, 0.0393, 0.039, 0.0378, 0.0388, 0.0382, 0.0385, 0.0167, 0.00325, 0.0394, 0.0387, 0.0388, 0.0227, 0.0258, 0.0127, 0.0298, 0.03, 0.00946, 0.039, 0.0231, 0.0278, 0.00162, 0.0367, 0.0199 ), cutdetain = cms.vdouble( 0.00989, 0.00484, 0.0146, 0.0146, 0.00902, 0.0172, 0.0137, 0.0477, 0.0275, 0.00967, 0.00377, 0.00924, 0.013, 0.00666, 0.0123, 0.0125, 0.0228, 0.0112, 0.0106, 0.0038, 0.00897, 0.0139, 0.00667, 0.0122, 0.0122, 0.0193, 0.00239 ), cutdphiin = cms.vdouble( 0.041, 0.275, 0.365, 0.047, 0.273, 0.296, 0.329, 0.465, 0.627, 0.0581, 0.0954, 0.327, 0.0702, 0.0582, 0.279, 0.117, 0.318, 0.246, 0.0821, 0.052, 0.292, 0.116, 0.0435, 0.312, 0.118, 0.296, 0.0459 ), cuteseedopcor = cms.vdouble( 0.78, 0.302, 0.483, 0.904, 0.168, 0.645, 0.108, 0.284, 0.324, 0.591, 0.286, 0.488, 0.813, 0.791, 0.672, 0.398, 0.834, 0.878, 0.515, 0.937, 0.806, 0.816, 0.85, 0.507, 0.367, 0.83, 0.648 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.0, 12.5 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 2.5, 2.5, 1.5, 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 2.5, 0.5, 2.5, 1.5, 0.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.166, 0.0771, 0.144, 0.37, 0.0497, 0.139, 0.401, 2.68, 0.516, 0.234, 0.0556, 0.144, 0.368, 0.031, 0.12, 0.602, 2.01, 1.05, 0.104, 0.063, 0.0565, 0.38, 0.0192, 0.0294, 0.537, 4.65, 1.87 ), cutip_gsf = cms.vdouble( 0.0431, 0.0767, 0.139, 0.101, 0.149, 0.154, 0.932, 0.15, 0.124, 0.0238, 0.0467, 0.0759, 0.0369, 0.147, 0.0986, 0.0626, 0.195, 0.116, 0.0122, 0.0125, 0.0693, 0.0162, 0.089, 0.0673, 0.0467, 0.0651, 0.0221 ), cutiso_sum = cms.vdouble( 31.5, 10.3, 8.8, 11.0, 6.13, 6.94, 7.52, 9.0, 3.5, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 28.9, 15.3, 12.0, 18.3, 7.17, 9.42, 11.0, 9.81, 3.94, 22.7, 15.9, 12.3, 17.0, 7.58, 8.89, 15.2, 12.7, 6.17, 20.8, 21.2, 17.2, 15.5, 9.37, 10.6, 19.8, 22.1, 15.6 ), cutsee = cms.vdouble( 0.0175, 0.0127, 0.0177, 0.0373, 0.0314, 0.0329, 0.0157, 0.0409, 0.14, 0.0169, 0.0106, 0.0142, 0.0363, 0.0322, 0.0354, 0.0117, 0.0372, 28.2, 0.0171, 0.0113, 0.014, 0.0403, 0.0323, 0.0411, 0.0104, 0.0436, 0.0114 ) ), classbasedlooseEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0137, 0.00678, 0.0241, 0.0187, 0.0161, 0.0224, 0.0252, 0.0308, 0.0273 ), cutdetainl = cms.vdouble( 0.0124, 0.00503, 0.0257, 0.0228, 0.0118, 0.0178, 0.0188, 0.14, 0.024 ), cutdphiin = cms.vdouble( 0.0897, 0.262, 0.353, 0.116, 0.357, 0.319, 0.342, 0.404, 0.336 ), cutdphiinl = cms.vdouble( 0.0747, 0.25, 0.356, 0.0956, 0.347, 0.326, 0.333, 0.647, 0.289 ), cuteseedopcor = cms.vdouble( 0.63, 0.82, 0.401, 0.718, 0.4, 0.458, 0.15, 0.664, 0.373 ), cutfmishits = cms.vdouble( 4.5, 1.5, 1.5, 2.5, 2.5, 1.5, 4.5, 3.5, 3.5 ), cuthoe = cms.vdouble( 0.247, 0.137, 0.147, 0.371, 0.0588, 0.147, 0.52, 0.452, 0.404 ), cuthoel = cms.vdouble( 0.236, 0.126, 0.147, 0.375, 0.0392, 0.145, 0.365, 0.383, 0.384 ), cutip_gsf = cms.vdouble( 0.0551, 0.0765, 0.143, 0.0874, 0.594, 0.37, 0.0913, 1.15, 0.231 ), cutip_gsfl = cms.vdouble( 0.0186, 0.0759, 0.138, 0.0473, 0.62, 0.304, 0.109, 0.775, 0.0479 ), cutiso_sum = cms.vdouble( 33.0, 17.0, 17.9, 18.8, 8.55, 12.5, 17.6, 18.5, 2.98 ), cutiso_sumoet = cms.vdouble( 34.5, 12.7, 12.1, 19.9, 6.35, 8.85, 14.0, 10.5, 9.74 ), cutiso_sumoetl = cms.vdouble( 11.3, 9.05, 9.07, 9.94, 5.25, 6.15, 10.7, 10.8, 4.4 ), cutsee = cms.vdouble( 0.0176, 0.0125, 0.0181, 0.0415, 0.0364, 0.0418, 0.0146, 0.0678, 0.133 ), cutseel = cms.vdouble( 0.0164, 0.0118, 0.015, 0.0523, 0.0326, 0.0456, 0.0185, 0.0589, 0.0544 ) ), classbasedtightEleIDCuts = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), classbasedtightEleIDCutsV00 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0055, 0.003, 0.0065, 0.0, 0.006, 0.0055, 0.0075, 0.0 ), deltaPhiIn = cms.vdouble( 0.032, 0.016, 0.0525, 0.09, 0.025, 0.035, 0.065, 0.092 ), eSeedOverPin = cms.vdouble( 0.24, 0.94, 0.11, 0.0, 0.32, 0.83, 0.0, 0.0 ), hOverE = cms.vdouble( 0.05, 0.042, 0.045, 0.0, 0.055, 0.037, 0.05, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0125, 0.011, 0.01, 0.0, 0.0265, 0.0252, 0.026, 0.0 ) ), classbasedtightEleIDCutsV01 = cms.PSet( deltaEtaIn = cms.vdouble( 0.0043, 0.00282, 0.0036, 0.0, 0.0066, 0.0049, 0.0041, 0.0 ), deltaPhiIn = cms.vdouble( 0.0225, 0.0114, 0.0234, 0.039, 0.0215, 0.0095, 0.0148, 0.0167 ), eSeedOverPin = cms.vdouble( 0.32, 0.94, 0.221, 0.0, 0.74, 0.89, 0.66, 0.0 ), hOverE = cms.vdouble( 0.056, 0.0221, 0.037, 0.0, 0.0268, 0.0102, 0.0104, 0.0 ), sigmaEtaEta = cms.vdouble( 0.0095, 0.0094, 0.0094, 0.0, 0.026, 0.0257, 0.0246, 0.0 ) ), classbasedtightEleIDCutsV02 = cms.PSet( cutdeta = cms.vdouble( 0.00915, 0.00302, 0.0061, 0.0135, 0.00565, 0.00793, 0.0102, 0.00266, 0.0106, 0.00903, 0.00766, 0.00723, 0.0116, 0.00203, 0.00659, 0.0148, 0.00555, 0.0128 ), cutdphi = cms.vdouble( 0.0369, 0.0307, 0.117, 0.0475, 0.0216, 0.117, 0.0372, 0.0246, 0.0426, 0.0612, 0.0142, 0.039, 0.0737, 0.0566, 0.0359, 0.0187, 0.012, 0.0358 ), cuteopin = cms.vdouble( 0.878, 0.859, 0.874, 0.944, 0.737, 0.773, 0.86, 0.967, 0.917, 0.812, 0.915, 1.01, 0.847, 0.953, 0.979, 0.841, 0.771, 1.09 ), cuthoe = cms.vdouble( 0.0871, 0.0289, 0.0783, 0.0946, 0.0245, 0.0363, 0.0671, 0.048, 0.0614, 0.0924, 0.0158, 0.049, 0.0382, 0.0915, 0.0451, 0.0452, 0.00196, 0.0043 ), cutip = cms.vdouble( 0.0239, 0.027, 0.0768, 0.0231, 0.178, 0.0957, 0.0102, 0.0168, 0.043, 0.0166, 0.0594, 0.0308, 2.1, 0.00527, 3.17, 4.91, 0.769, 5.9 ), cutisoecal = cms.vdouble( 20.0, 27.2, 4.48, 13.5, 4.56, 3.19, 12.2, 13.1, 7.42, 7.67, 4.12, 4.85, 10.1, 12.4, 11.1, 11.0, 10.6, 13.4 ), cutisohcal = cms.vdouble( 10.9, 7.01, 8.75, 3.51, 7.75, 1.62, 11.6, 9.9, 4.97, 5.33, 3.18, 2.32, 0.164, 5.46, 12.0, 0.00604, 4.1, 0.000628 ), cutisotk = cms.vdouble( 6.53, 4.6, 6.0, 8.63, 3.11, 7.77, 5.42, 4.81, 4.06, 6.47, 2.8, 3.45, 5.29, 5.18, 15.4, 5.38, 4.47, 0.0347 ), cutmishits = cms.vdouble( 5.5, 1.5, 0.5, 1.5, 2.5, 0.5, 3.5, 5.5, 0.5, 0.5, 0.5, 0.5, 0.5, 1.5, 0.5, 0.5, 0.5, 0.5 ), cutsee = cms.vdouble( 0.0131, 0.0106, 0.0115, 0.0306, 0.028, 0.0293, 0.0131, 0.0106, 0.0115, 0.0317, 0.029, 0.0289, 0.0142, 0.0106, 0.0103, 0.035, 0.0296, 0.0333 ) ), classbasedtightEleIDCutsV03 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV04 = cms.PSet( cutdcotdist = cms.vdouble( 0.0393, 0.0256, 0.00691, 0.0394, 0.0386, 0.039, 0.0325, 0.0384, 0.0382, 0.0245, 0.000281, 5.46e-05, 0.0342, 0.0232, 0.00107, 0.0178, 0.0193, 0.000758, 0.000108, 0.0248, 0.000458, 0.0129, 0.00119, 0.0182, 4.53e-05, 0.0189, 0.000928 ), cutdetain = cms.vdouble( 0.00811, 0.00341, 0.00633, 0.0103, 0.00667, 0.01, 0.0106, 0.0145, 0.0163, 0.0076, 0.00259, 0.00511, 0.00941, 0.0043, 0.00857, 0.012, 0.0169, 0.00172, 0.00861, 0.00362, 0.00601, 0.00925, 0.00489, 0.00832, 0.0119, 0.0169, 0.000996 ), cutdphiin = cms.vdouble( 0.0404, 0.0499, 0.263, 0.042, 0.0484, 0.241, 0.242, 0.231, 0.286, 0.0552, 0.0338, 0.154, 0.0623, 0.0183, 0.0392, 0.0547, 0.0588, 0.00654, 0.042, 0.0217, 0.0885, 0.0445, 0.0141, 0.0234, 0.065, 0.0258, 0.0346 ), cuteseedopcor = cms.vdouble( 0.784, 0.366, 0.57, 0.911, 0.298, 0.645, 0.51, 0.497, 0.932, 0.835, 0.968, 0.969, 0.923, 0.898, 0.98, 0.63, 0.971, 1.0, 0.515, 0.963, 0.986, 0.823, 0.879, 1.01, 0.931, 0.937, 1.05 ), cutet = cms.vdouble( -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, -100000.0, 13.7, 13.2, 13.6, 14.2, 14.1, 13.9, 12.9, 14.9, 17.7 ), cutfmishits = cms.vdouble( 2.5, 1.5, 1.5, 1.5, 1.5, 0.5, 2.5, 0.5, 0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, -0.5, 2.5, 1.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5 ), cuthoe = cms.vdouble( 0.0783, 0.0387, 0.105, 0.118, 0.0227, 0.062, 0.13, 2.47, 0.38, 0.0888, 0.0503, 0.0955, 0.0741, 0.015, 0.03, 0.589, 1.13, 0.612, 0.0494, 0.0461, 0.0292, 0.0369, 0.0113, 0.0145, 0.124, 2.05, 0.61 ), cutip_gsf = cms.vdouble( 0.0213, 0.0422, 0.0632, 0.0361, 0.073, 0.126, 0.171, 0.119, 0.0372, 0.0131, 0.0146, 0.0564, 0.0152, 0.0222, 0.0268, 0.0314, 0.0884, 0.00374, 0.00852, 0.00761, 0.0143, 0.0106, 0.0127, 0.0119, 0.0123, 0.0235, 0.00363 ), cutiso_sum = cms.vdouble( 11.8, 8.31, 6.26, 6.18, 3.28, 4.38, 4.17, 5.4, 1.57, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0, 100000.0 ), cutiso_sumoet = cms.vdouble( 13.7, 11.6, 7.14, 9.98, 3.52, 4.87, 6.24, 7.96, 2.53, 11.2, 11.9, 7.88, 8.16, 5.58, 5.03, 11.4, 8.15, 5.79, 10.4, 11.1, 10.4, 7.47, 5.08, 5.9, 11.8, 14.1, 11.7 ), cutsee = cms.vdouble( 0.0143, 0.0105, 0.0123, 0.0324, 0.0307, 0.0301, 0.0109, 0.027, 0.0292, 0.0133, 0.0104, 0.0116, 0.0332, 0.0296, 0.031, 0.00981, 0.0307, 0.072, 0.0149, 0.0105, 0.011, 0.0342, 0.0307, 0.0303, 0.00954, 0.0265, 0.0101 ) ), classbasedtightEleIDCutsV06 = cms.PSet( cutdcotdist = cms.vdouble( 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0 ), cutdetain = cms.vdouble( 0.0116, 0.00449, 0.00938, 0.0184, 0.00678, 0.0109, 0.0252, 0.0268, 0.0139 ), cutdetainl = cms.vdouble( 0.00816, 0.00401, 0.0081, 0.019, 0.00588, 0.00893, 0.0171, 0.0434, 0.0143 ), cutdphiin = cms.vdouble( 0.0897, 0.0993, 0.295, 0.0979, 0.151, 0.252, 0.341, 0.308, 0.328 ), cutdphiinl = cms.vdouble( 0.061, 0.14, 0.286, 0.0921, 0.197, 0.24, 0.333, 0.303, 0.258 ), cuteseedopcor = cms.vdouble( 0.637, 0.943, 0.742, 0.748, 0.763, 0.631, 0.214, 0.873, 0.473 ), cutfmishits = cms.vdouble( 1.5, 1.5, 1.5, 2.5, 2.5, 1.5, 1.5, 2.5, 0.5 ), cuthoe = cms.vdouble( 0.215, 0.0608, 0.147, 0.369, 0.0349, 0.102, 0.52, 0.422, 0.404 ), cuthoel = cms.vdouble( 0.228, 0.0836, 0.143, 0.37, 0.0392, 0.0979, 0.3, 0.381, 0.339 ), cutip_gsf = cms.vdouble( 0.0131, 0.0586, 0.0839, 0.0366, 0.452, 0.204, 0.0913, 0.0802, 0.0731 ), cutip_gsfl = cms.vdouble( 0.0119, 0.0527, 0.0471, 0.0212, 0.233, 0.267, 0.109, 0.122, 0.0479 ), cutiso_sum = cms.vdouble( 15.5, 12.2, 12.2, 11.7, 7.16, 9.71, 8.66, 11.9, 2.98 ), cutiso_sumoet = cms.vdouble( 11.9, 7.81, 6.28, 8.92, 4.65, 5.49, 9.36, 8.84, 5.94 ), cutiso_sumoetl = cms.vdouble( 6.21, 6.81, 5.3, 5.39, 2.73, 4.73, 4.84, 3.46, 3.73 ), cutsee = cms.vdouble( 0.0145, 0.0116, 0.012, 0.039, 0.0297, 0.0311, 0.00987, 0.0347, 0.0917 ), cutseel = cms.vdouble( 0.0132, 0.0117, 0.0112, 0.0387, 0.0281, 0.0287, 0.00987, 0.0296, 0.0544 ) ), electronIDType = cms.string('classbased'), electronQuality = cms.string('tight'), electronVersion = cms.string(''), etBinning = cms.bool(True), reducedBarrelRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedEndcapRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), robusthighenergyEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.05, 0.011, 0.09, 0.005, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.1, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.0275, 0.09, 0.007, -1, -1, 9999.0, 9999.0, 0, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusthighenergyEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 9999, 0.09, 0.005, 0.94, 0.83, 7.5, 2, 0.03, 9999.0, 0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.05, 0.03, 0.09, 0.007, -1, -1, 15, 2.5, 0.03, 2.5, 0, 0.5, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.115, 0.014, 0.09, 0.009, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.15, 0.0275, 0.092, 0.0105, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.075, 0.0132, 0.058, 0.0077, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.083, 0.027, 0.042, 0.01, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robustlooseEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.05, 0.0103, 0.8, 0.00688, -1, -1, 7.33, 4.68, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.0389, 0.0307, 0.7, 0.00944, -1, -1, 7.76, 3.09, 2.23, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCuts = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV00 = cms.PSet( barrel = cms.vdouble( 0.015, 0.0092, 0.02, 0.0025, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.018, 0.025, 0.02, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV01 = cms.PSet( barrel = cms.vdouble( 0.01, 0.0099, 0.025, 0.004, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.01, 0.028, 0.02, 0.0066, -1, -1, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV02 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV03 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), robusttightEleIDCutsV04 = cms.PSet( barrel = cms.vdouble( 0.0201, 0.0102, 0.0211, 0.00606, -1, -1, 2.34, 3.24, 4.51, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ), endcap = cms.vdouble( 0.00253, 0.0291, 0.022, 0.0032, -1, -1, 0.826, 2.7, 0.255, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 9999.0, 0.0, -9999.0, 9999.0, 9999.0, 9999, -1, 0, 0 ) ), src = cms.InputTag("gedGsfElectrons"), verticesCollection = cms.InputTag("offlinePrimaryVerticesWithBS") ) process.elEDIsoDepositCharged = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("ecalDrivenGsfElectrons"), trackType = cms.string('candidate') ) process.elEDIsoDepositChargedAll = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("ecalDrivenGsfElectrons"), trackType = cms.string('candidate') ) process.elEDIsoDepositGamma = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllPhotons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("ecalDrivenGsfElectrons"), trackType = cms.string('candidate') ) process.elEDIsoDepositNeutral = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllNeutralHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("ecalDrivenGsfElectrons"), trackType = cms.string('candidate') ) process.elEDIsoDepositPU = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfPileUpAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("ecalDrivenGsfElectrons"), trackType = cms.string('candidate') ) process.elEDIsoValueCharged03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositCharged"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositCharged__RECO') ) process.elEDIsoValueCharged04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositCharged"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositCharged__RECO') ) process.elEDIsoValueChargedAll03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositChargedAll"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositChargedAll__RECO') ) process.elEDIsoValueChargedAll04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositChargedAll"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositChargedAll__RECO') ) process.elEDIsoValueGamma03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.08)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositGamma__RECO') ) process.elEDIsoValueGamma04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.08)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositGamma__RECO') ) process.elEDIsoValueNeutral03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositNeutral__RECO') ) process.elEDIsoValueNeutral04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositNeutral__RECO') ) process.elEDIsoValuePU03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositPU"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositPU__RECO') ) process.elEDIsoValuePU04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elEDIsoDepositPU"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elEDIsoDepositPU__RECO') ) process.elPFIsoDepositCharged = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfElectronTranslator","pf"), trackType = cms.string('candidate') ) process.elPFIsoDepositChargedAll = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfElectronTranslator","pf"), trackType = cms.string('candidate') ) process.elPFIsoDepositGamma = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllPhotons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfElectronTranslator","pf"), trackType = cms.string('candidate') ) process.elPFIsoDepositNeutral = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllNeutralHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfElectronTranslator","pf"), trackType = cms.string('candidate') ) process.elPFIsoDepositPU = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfPileUpAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfElectronTranslator","pf"), trackType = cms.string('candidate') ) process.elPFIsoValueCharged03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositCharged"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositCharged__RECO') ) process.elPFIsoValueCharged04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositCharged"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositCharged__RECO') ) process.elPFIsoValueChargedAll03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositChargedAll"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositChargedAll__RECO') ) process.elPFIsoValueChargedAll04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositChargedAll"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositChargedAll__RECO') ) process.elPFIsoValueGamma03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.08)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositGamma__RECO') ) process.elPFIsoValueGamma04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.08)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositGamma__RECO') ) process.elPFIsoValueNeutral03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositNeutral__RECO') ) process.elPFIsoValueNeutral04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositNeutral__RECO') ) process.elPFIsoValuePU03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositPU"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositPU__RECO') ) process.elPFIsoValuePU04 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("elPFIsoDepositPU"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_elPFIsoDepositPU__RECO') ) process.electronCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForElectrons') ), TrajectoryCleaner = cms.string('electronTrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("electronMergedSeeds"), useHitsSplitting = cms.bool(True) ) process.electronCkfTrackCandidatesFromMultiCl = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForElectrons') ), TrajectoryCleaner = cms.string('electronTrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("electronMergedSeedsFromMultiCl"), useHitsSplitting = cms.bool(True) ) process.electronEcalPFClusterIsolationProducer = cms.EDProducer("ElectronEcalPFClusterIsolationProducer", candidateProducer = cms.InputTag("gedGsfElectronsTmp"), drMax = cms.double(0.3), drVetoBarrel = cms.double(0), drVetoEndcap = cms.double(0), energyBarrel = cms.double(0), energyEndcap = cms.double(0), etaStripBarrel = cms.double(0), etaStripEndcap = cms.double(0), pfClusterProducer = cms.InputTag("particleFlowClusterECAL") ) process.electronEcalRecHitIsolationLcone = cms.EDProducer("EgammaEcalRecHitIsolationProducer", eMinBarrel = cms.double(0.095), eMinEndcap = cms.double(0.0), ecalBarrelRecHitCollection = cms.InputTag("EcalRecHitsEB"), ecalBarrelRecHitProducer = cms.InputTag("ecalRecHit"), ecalEndcapRecHitCollection = cms.InputTag("EcalRecHitsEE"), ecalEndcapRecHitProducer = cms.InputTag("ecalRecHit"), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMinBarrel = cms.double(0.0), etMinEndcap = cms.double(0.11), extRadius = cms.double(0.4), intRadiusBarrel = cms.double(3.0), intRadiusEndcap = cms.double(3.0), jurassicWidth = cms.double(1.5), subtract = cms.bool(False), tryBoth = cms.bool(True), useIsolEt = cms.bool(True), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ) process.electronEcalRecHitIsolationScone = cms.EDProducer("EgammaEcalRecHitIsolationProducer", eMinBarrel = cms.double(0.095), eMinEndcap = cms.double(0.0), ecalBarrelRecHitCollection = cms.InputTag("EcalRecHitsEB"), ecalBarrelRecHitProducer = cms.InputTag("ecalRecHit"), ecalEndcapRecHitCollection = cms.InputTag("EcalRecHitsEE"), ecalEndcapRecHitProducer = cms.InputTag("ecalRecHit"), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMinBarrel = cms.double(0.0), etMinEndcap = cms.double(0.11), extRadius = cms.double(0.3), intRadiusBarrel = cms.double(3.0), intRadiusEndcap = cms.double(3.0), jurassicWidth = cms.double(1.5), subtract = cms.bool(False), tryBoth = cms.bool(True), useIsolEt = cms.bool(True), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ) process.electronGsfTracks = cms.EDProducer("GsfTrackProducer", AlgorithmName = cms.string('gsf'), Fitter = cms.string('GsfElectronFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('fwdGsfElectronPropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string(''), src = cms.InputTag("electronCkfTrackCandidates"), useHitsSplitting = cms.bool(False) ) process.electronGsfTracksFromMultiCl = cms.EDProducer("GsfTrackProducer", AlgorithmName = cms.string('gsf'), Fitter = cms.string('GsfElectronFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('fwdGsfElectronPropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string(''), src = cms.InputTag("electronCkfTrackCandidatesFromMultiCl"), useHitsSplitting = cms.bool(False) ) process.electronHcalDepth1TowerIsolationLcone = cms.EDProducer("EgammaTowerIsolationProducer", Depth = cms.int32(1), absolut = cms.bool(True), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMin = cms.double(0.0), extRadius = cms.double(0.4), intRadius = cms.double(0.15), towerProducer = cms.InputTag("towerMaker") ) process.electronHcalDepth1TowerIsolationScone = cms.EDProducer("EgammaTowerIsolationProducer", Depth = cms.int32(1), absolut = cms.bool(True), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMin = cms.double(0.0), extRadius = cms.double(0.3), intRadius = cms.double(0.15), towerProducer = cms.InputTag("towerMaker") ) process.electronHcalDepth2TowerIsolationLcone = cms.EDProducer("EgammaTowerIsolationProducer", Depth = cms.int32(2), absolut = cms.bool(True), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMin = cms.double(0.0), extRadius = cms.double(0.4), intRadius = cms.double(0.15), towerProducer = cms.InputTag("towerMaker") ) process.electronHcalDepth2TowerIsolationScone = cms.EDProducer("EgammaTowerIsolationProducer", Depth = cms.int32(2), absolut = cms.bool(True), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMin = cms.double(0.0), extRadius = cms.double(0.3), intRadius = cms.double(0.15), towerProducer = cms.InputTag("towerMaker") ) process.electronHcalPFClusterIsolationProducer = cms.EDProducer("ElectronHcalPFClusterIsolationProducer", candidateProducer = cms.InputTag("gedGsfElectronsTmp"), drMax = cms.double(0.3), drVetoBarrel = cms.double(0), drVetoEndcap = cms.double(0), energyBarrel = cms.double(0), energyEndcap = cms.double(0), etaStripBarrel = cms.double(0), etaStripEndcap = cms.double(0), pfClusterProducerHCAL = cms.InputTag("particleFlowClusterHCAL"), useHF = cms.bool(False) ) process.electronHcalTowerIsolationLcone = cms.EDProducer("EgammaTowerIsolationProducer", Depth = cms.int32(-1), absolut = cms.bool(True), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMin = cms.double(0.0), extRadius = cms.double(0.4), intRadius = cms.double(0.15), towerProducer = cms.InputTag("towerMaker") ) process.electronHcalTowerIsolationScone = cms.EDProducer("EgammaTowerIsolationProducer", Depth = cms.int32(-1), absolut = cms.bool(True), emObjectProducer = cms.InputTag("gedGsfElectrons"), etMin = cms.double(0.0), extRadius = cms.double(0.3), intRadius = cms.double(0.15), towerProducer = cms.InputTag("towerMaker") ) process.electronMergedSeeds = cms.EDProducer("ElectronSeedMerger", EcalBasedSeeds = cms.InputTag("ecalDrivenElectronSeeds"), TkBasedSeeds = cms.InputTag("") ) process.electronMergedSeedsFromMultiCl = cms.EDProducer("ElectronSeedMerger", EcalBasedSeeds = cms.InputTag("ecalDrivenElectronSeedsFromMultiCl"), TkBasedSeeds = cms.InputTag("") ) process.electronTrackIsolationLcone = cms.EDProducer("EgammaElectronTkIsolationProducer", BeamspotProducer = cms.InputTag("offlineBeamSpot"), absolut = cms.bool(True), electronProducer = cms.InputTag("gedGsfElectrons"), extRadius = cms.double(0.4), intRadiusBarrel = cms.double(0.015), intRadiusEndcap = cms.double(0.015), maxVtxDist = cms.double(0.2), maxVtxDistXY = cms.double(9999.0), ptMin = cms.double(0.7), stripBarrel = cms.double(0.015), stripEndcap = cms.double(0.015), trackProducer = cms.InputTag("generalTracks") ) process.electronTrackIsolationScone = cms.EDProducer("EgammaElectronTkIsolationProducer", BeamspotProducer = cms.InputTag("offlineBeamSpot"), absolut = cms.bool(True), electronProducer = cms.InputTag("gedGsfElectrons"), extRadius = cms.double(0.3), intRadiusBarrel = cms.double(0.015), intRadiusEndcap = cms.double(0.015), maxVtxDist = cms.double(0.2), maxVtxDistXY = cms.double(9999.0), ptMin = cms.double(0.7), stripBarrel = cms.double(0.015), stripEndcap = cms.double(0.015), trackProducer = cms.InputTag("generalTracks") ) process.emtfStage2Digis = cms.EDProducer("L1TRawToDigi", FWId = cms.uint32(0), FedIds = cms.vint32(1384, 1385), InputLabel = cms.InputTag("rawDataMapperByLabel"), MTF7 = cms.untracked.bool(True), Setup = cms.string('stage2::EMTFSetup'), debug = cms.untracked.bool(False) ) process.fastElectronCkfTrackCandidates = cms.EDProducer("TrackCandidateProducer", MinNumberOfCrossedLayers = cms.uint32(5), OverlapCleaning = cms.bool(True), SplitHits = cms.bool(True), propagator = cms.string('PropagatorWithMaterialOpposite'), recHitCombinations = cms.InputTag("fastMatchedTrackerRecHitCombinations"), simTracks = cms.InputTag("fastSimProducer"), src = cms.InputTag("electronMergedSeeds") ) process.firstStepPrimaryVertices = cms.EDProducer("RecoChargedRefCandidatePrimaryVertexSorter", assignment = cms.PSet( maxDistanceToJetAxis = cms.double(0.07), maxDtSigForPrimaryAssignment = cms.double(4.0), 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) ), jets = cms.InputTag("ak4CaloJetsForTrk"), particles = cms.InputTag("initialStepTrackRefsForJets"), produceAssociationToOriginalVertices = cms.bool(False), produceNoPileUpCollection = cms.bool(False), producePileUpCollection = cms.bool(False), produceSortedVertices = cms.bool(True), qualityForPrimary = cms.int32(3), sorting = cms.PSet( ), trackTimeResoTag = cms.InputTag(""), trackTimeTag = cms.InputTag(""), usePVMET = cms.bool(True), vertices = cms.InputTag("firstStepPrimaryVerticesUnsorted") ) process.firstStepPrimaryVerticesBeforeMixing = cms.EDProducer("PrimaryVertexProducer", TkClusParameters = cms.PSet( TkGapClusParameters = cms.PSet( zSeparation = cms.double(1.0) ), algorithm = cms.string('gap') ), TkFilterParameters = cms.PSet( algorithm = cms.string('filter'), maxD0Significance = cms.double(2.0), maxEta = cms.double(2.4), maxNormalizedChi2 = cms.double(10.0), minPixelLayersWithHits = cms.int32(3), minPt = cms.double(0.7), minSiliconLayersWithHits = cms.int32(5), trackQuality = cms.string('any') ), TrackLabel = cms.InputTag("initialStepTracks"), beamSpotLabel = cms.InputTag("offlineBeamSpot"), verbose = cms.untracked.bool(False), vertexCollections = cms.VPSet(cms.PSet( algorithm = cms.string('AdaptiveVertexFitter'), chi2cutoff = cms.double(2.5), label = cms.string(''), maxDistanceToBeam = cms.double(1.0), minNdof = cms.double(0.0), useBeamConstraint = cms.bool(False) )) ) process.firstStepPrimaryVerticesPreSplitting = cms.EDProducer("PrimaryVertexProducer", TkClusParameters = cms.PSet( TkGapClusParameters = cms.PSet( zSeparation = cms.double(1.0) ), algorithm = cms.string('gap') ), TkFilterParameters = cms.PSet( algorithm = cms.string('filter'), maxD0Significance = cms.double(2.0), maxEta = cms.double(2.4), maxNormalizedChi2 = cms.double(10.0), minPixelLayersWithHits = cms.int32(3), minPt = cms.double(0.7), minSiliconLayersWithHits = cms.int32(5), trackQuality = cms.string('any') ), TrackLabel = cms.InputTag("initialStepTracksPreSplitting"), beamSpotLabel = cms.InputTag("offlineBeamSpot"), verbose = cms.untracked.bool(False), vertexCollections = cms.VPSet(cms.PSet( algorithm = cms.string('AdaptiveVertexFitter'), chi2cutoff = cms.double(2.5), label = cms.string(''), maxDistanceToBeam = cms.double(1.0), minNdof = cms.double(0.0), useBeamConstraint = cms.bool(False) )) ) process.firstStepPrimaryVerticesUnsorted = cms.EDProducer("PrimaryVertexProducer", TkClusParameters = cms.PSet( TkGapClusParameters = cms.PSet( zSeparation = cms.double(1.0) ), algorithm = cms.string('gap') ), TkFilterParameters = cms.PSet( algorithm = cms.string('filter'), maxD0Significance = cms.double(2.0), maxEta = cms.double(2.4), maxNormalizedChi2 = cms.double(10.0), minPixelLayersWithHits = cms.int32(3), minPt = cms.double(0.7), minSiliconLayersWithHits = cms.int32(5), trackQuality = cms.string('any') ), TrackLabel = cms.InputTag("initialStepTracks"), beamSpotLabel = cms.InputTag("offlineBeamSpot"), verbose = cms.untracked.bool(False), vertexCollections = cms.VPSet(cms.PSet( algorithm = cms.string('AdaptiveVertexFitter'), chi2cutoff = cms.double(2.5), label = cms.string(''), maxDistanceToBeam = cms.double(1.0), minNdof = cms.double(0.0), useBeamConstraint = cms.bool(False) )) ) process.fixedGridRhoAll = cms.EDProducer("FixedGridRhoProducer", EtaRegion = cms.string('All'), pfCandidatesTag = cms.InputTag("particleFlow") ) process.fixedGridRhoFastjetAll = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(5.0), pfCandidatesTag = cms.InputTag("particleFlow") ) process.fixedGridRhoFastjetAllCalo = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(5.0), pfCandidatesTag = cms.InputTag("towerMaker") ) process.fixedGridRhoFastjetAllTmp = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(5.0), pfCandidatesTag = cms.InputTag("particleFlowTmp") ) process.fixedGridRhoFastjetCentral = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(2.5), pfCandidatesTag = cms.InputTag("particleFlow") ) process.fixedGridRhoFastjetCentralCalo = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(2.5), pfCandidatesTag = cms.InputTag("towerMaker") ) process.fixedGridRhoFastjetCentralChargedPileUp = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(2.5), pfCandidatesTag = cms.InputTag("pfPileUpAllChargedParticles") ) process.fixedGridRhoFastjetCentralNeutral = cms.EDProducer("FixedGridRhoProducerFastjet", gridSpacing = cms.double(0.55), maxRapidity = cms.double(2.5), pfCandidatesTag = cms.InputTag("pfAllNeutralHadronsAndPhotons") ) process.footprintCorrection = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), 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(False), customOuterCone = cms.double(0.5), deltaBetaFactor = cms.string('0.38'), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawFootprintCorrection = cms.bool(True), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.ftlRecHits = cms.EDProducer("FTLRecHitProducer", BarrelHitsName = cms.string('FTLBarrel'), EndcapHitsName = cms.string('FTLEndcap'), barrel = cms.PSet( algoName = cms.string('FTLSimpleRecHitAlgo'), calibrationConstant = cms.double(1.0), thresholdToKeep = cms.double(0.5) ), barrelUncalibratedRecHits = cms.InputTag("ftlUncalibratedRecHits","FTLBarrel"), endcap = cms.PSet( algoName = cms.string('FTLSimpleRecHitAlgo'), calibrationConstant = cms.double(1.0), thresholdToKeep = cms.double(0.5) ), endcapUncalibratedRecHits = cms.InputTag("ftlUncalibratedRecHits","FTLEndcap") ) process.ftlUncalibratedRecHits = cms.EDProducer("FTLUncalibratedRecHitProducer", BarrelHitsName = cms.string('FTLBarrel'), EndcapHitsName = cms.string('FTLEndcap'), barrel = cms.PSet( adcNbits = cms.uint32(12), adcSaturation = cms.double(102), algoName = cms.string('FTLSimpleUncalibRecHitAlgo'), timeResolutionInNs = cms.double(0.025), toaLSB_ns = cms.double(0.005) ), barrelDigis = cms.InputTag("mix","FTLBarrel"), endcap = cms.PSet( adcNbits = cms.uint32(12), adcSaturation = cms.double(102), algoName = cms.string('FTLSimpleUncalibRecHitAlgo'), timeResolutionInNs = cms.double(0.025), toaLSB_ns = cms.double(0.005) ), endcapDigis = cms.InputTag("mix","FTLEndcap") ) process.gctDigis = cms.EDProducer("GctRawToDigi", checkHeaders = cms.untracked.bool(False), gctFedId = cms.untracked.int32(745), hltMode = cms.bool(False), inputLabel = cms.InputTag("rawDataMapperByLabel"), numberOfGctSamplesToUnpack = cms.uint32(1), numberOfRctSamplesToUnpack = cms.uint32(1), unpackSharedRegions = cms.bool(False), unpackerVersion = cms.uint32(0), verbose = cms.untracked.bool(False) ) process.gedElPFIsoDepositCharged = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("gedGsfElectronsTmp"), trackType = cms.string('candidate') ) process.gedElPFIsoDepositChargedAll = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("gedGsfElectronsTmp"), trackType = cms.string('candidate') ) process.gedElPFIsoDepositGamma = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllPhotons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("gedGsfElectronsTmp"), trackType = cms.string('candidate') ) process.gedElPFIsoDepositNeutral = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllNeutralHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("gedGsfElectronsTmp"), trackType = cms.string('candidate') ) process.gedElPFIsoDepositPU = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfPileUpAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("gedGsfElectronsTmp"), trackType = cms.string('candidate') ) process.gedElPFIsoValueCharged03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("gedElPFIsoDepositCharged"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_gedElPFIsoDepositCharged__RECO') ) process.gedElPFIsoValueChargedAll03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("gedElPFIsoDepositChargedAll"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_gedElPFIsoDepositChargedAll__RECO') ) process.gedElPFIsoValueGamma03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("gedElPFIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.08)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_gedElPFIsoDepositGamma__RECO') ) process.gedElPFIsoValueNeutral03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("gedElPFIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_gedElPFIsoDepositNeutral__RECO') ) process.gedElPFIsoValuePU03 = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("gedElPFIsoDepositPU"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.015)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_gedElPFIsoDepositPU__RECO') ) process.gedGsfElectronCores = cms.EDProducer("GEDGsfElectronCoreProducer", GEDEMUnbiased = cms.InputTag("particleFlowEGamma"), ctfTracks = cms.InputTag("generalTracks"), gsfTracks = cms.InputTag("electronGsfTracks") ) process.gedGsfElectrons = cms.EDProducer("GEDGsfElectronFinalizer", outputCollectionLabel = cms.string(''), pfCandidatesTag = cms.InputTag("particleFlowTmp"), pfIsolationValues = cms.PSet( pfSumChargedHadronPt = cms.InputTag("egmElectronIsolationCITK","h+-DR030-"), pfSumEcalClusterEt = cms.InputTag("electronEcalPFClusterIsolationProducer"), pfSumHcalClusterEt = cms.InputTag("electronHcalPFClusterIsolationProducer"), pfSumNeutralHadronEt = cms.InputTag("egmElectronIsolationCITK","h0-DR030-"), pfSumPUPt = cms.InputTag("egmElectronIsolationPileUpCITK","h+-DR030-"), pfSumPhotonEt = cms.InputTag("egmElectronIsolationCITK","gamma-DR030-") ), previousGsfElectronsTag = cms.InputTag("gedGsfElectronsTmp"), regressionConfig = cms.PSet( eOverP_ECALTRKThr = cms.double(0.025), electron_config = cms.PSet( regressionKey_ecalonly = cms.vstring( 'electron_eb_ECALonly_lowpt', 'electron_eb_ECALonly', 'electron_ee_ECALonly_lowpt', 'electron_ee_ECALonly' ), regressionKey_ecaltrk = cms.vstring( 'electron_eb_ECALTRK_lowpt', 'electron_eb_ECALTRK', 'electron_ee_ECALTRK_lowpt', 'electron_ee_ECALTRK' ), uncertaintyKey_ecalonly = cms.vstring( 'electron_eb_ECALonly_lowpt_var', 'electron_eb_ECALonly_var', 'electron_ee_ECALonly_lowpt_var', 'electron_ee_ECALonly_var' ), uncertaintyKey_ecaltrk = cms.vstring( 'electron_eb_ECALTRK_lowpt_var', 'electron_eb_ECALTRK_var', 'electron_ee_ECALTRK_lowpt_var', 'electron_ee_ECALTRK_var' ) ), epDiffSig_ECALTRKThr = cms.double(15.0), epSig_ECALTRKThr = cms.double(10.0), forceHighEnergyEcalTrainingIfSaturated = cms.bool(True), highEnergy_ECALTRKThr = cms.double(200.0), lowEnergy_ECALTRKThr = cms.double(50.0), lowEnergy_ECALonlyThr = cms.double(99999.0), modifierName = cms.string('EGRegressionModifierV2'), photon_config = cms.PSet( regressionKey_ecalonly = cms.vstring( 'photon_eb_ECALonly_lowpt', 'photon_eb_ECALonly', 'photon_ee_ECALonly_lowpt', 'photon_ee_ECALonly' ), uncertaintyKey_ecalonly = cms.vstring( 'photon_eb_ECALonly_lowpt_var', 'photon_eb_ECALonly_var', 'photon_ee_ECALonly_lowpt_var', 'photon_ee_ECALonly_var' ) ), rhoCollection = cms.InputTag("fixedGridRhoFastjetAllTmp") ) ) process.gedGsfElectronsTmp = cms.EDProducer("GEDGsfElectronProducer", ElecMVAFilesString = cms.vstring( 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml' ), MaxElePtForOnlyMVA = cms.double(50.0), PreSelectMVA = cms.double(-0.1), SoftElecMVAFilesString = cms.vstring('RecoEgamma/ElectronIdentification/data/TMVA_BDTSoftElectrons_7Feb2014.weights.xml'), TransientInitialStateEstimatorParameters = cms.PSet( propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), addPflowElectrons = cms.bool(True), ambClustersOverlapStrategy = cms.uint32(1), ambSortingStrategy = cms.uint32(1), applyAmbResolution = cms.bool(False), applyPreselection = cms.bool(True), barrelRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotTag = cms.InputTag("offlineBeamSpot"), checkHcalStatus = cms.bool(True), combinationRegressionWeightFile = cms.vstring(), combinationRegressionWeightLabels = cms.vstring('gedelectron_p4combination_offline'), combinationWeightsFromDB = cms.bool(True), crackCorrectionFunction = cms.string('EcalClusterCrackCorrection'), ctfTracksCheck = cms.bool(True), ctfTracksTag = cms.InputTag("generalTracks"), eMinBarrel = cms.double(0.095), eMinEndcaps = cms.double(0.0), ecalDrivenEcalEnergyFromClassBasedParameterization = cms.bool(False), ecalDrivenEcalErrorFromClassBasedParameterization = cms.bool(False), ecalRefinedRegressionWeightFiles = cms.vstring(), ecalRefinedRegressionWeightLabels = cms.vstring( 'gedelectron_EBCorrection_offline_v1', 'gedelectron_EECorrection_offline_v1', 'gedelectron_EBUncertainty_offline_v1', 'gedelectron_EEUncertainty_offline_v1' ), ecalWeightsFromDB = cms.bool(True), egmPFCandidatesTag = cms.InputTag("particleFlowEGamma"), endcapRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), etMinBarrel = cms.double(0.0), etMinEndcaps = cms.double(0.11), etMinHcal = cms.double(0.0), gedElectronMode = cms.bool(True), gsfElectronCoresTag = cms.InputTag("gedGsfElectronCores"), gsfPfRecTracksTag = cms.InputTag("pfTrackElec"), hOverEConeSize = cms.double(0.15), hOverEConeSizePflow = cms.double(0.15), hOverEPtMin = cms.double(0.0), hOverEPtMinPflow = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), intRadiusEcalBarrel = cms.double(3.0), intRadiusEcalEndcaps = cms.double(3.0), intRadiusHcal = cms.double(0.15), isBarrel = cms.bool(False), isBarrelPflow = cms.bool(False), isEndcaps = cms.bool(False), isEndcapsPflow = cms.bool(False), isFiducial = cms.bool(False), isFiducialPflow = cms.bool(False), jurassicWidth = cms.double(1.5), maxDeltaEtaBarrel = cms.double(0.02), maxDeltaEtaBarrelPflow = cms.double(999999999.0), maxDeltaEtaEndcaps = cms.double(0.02), maxDeltaEtaEndcapsPflow = cms.double(999999999.0), maxDeltaPhiBarrel = cms.double(0.15), maxDeltaPhiBarrelPflow = cms.double(999999999.0), maxDeltaPhiEndcaps = cms.double(0.15), maxDeltaPhiEndcapsPflow = cms.double(999999999.0), maxEOverPBarrel = cms.double(999999999.0), maxEOverPBarrelPflow = cms.double(999999999.0), maxEOverPEndcaps = cms.double(999999999.0), maxEOverPEndcapsPflow = cms.double(999999999.0), maxFbremBarrel = cms.double(999999999.0), maxFbremBarrelPflow = cms.double(999999999.0), maxFbremEndcaps = cms.double(999999999.0), maxFbremEndcapsPflow = cms.double(999999999.0), maxHBarrel = cms.double(0.0), maxHBarrelPflow = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHEndcapsPflow = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEBarrelPflow = cms.double(999999999.0), maxHOverEEndcaps = cms.double(0.15), maxHOverEEndcapsPflow = cms.double(999999999.0), maxSigmaIetaIetaBarrel = cms.double(999999999.0), maxSigmaIetaIetaBarrelPflow = cms.double(999999999.0), maxSigmaIetaIetaEndcaps = cms.double(999999999.0), maxSigmaIetaIetaEndcapsPflow = cms.double(999999999.0), maxTIP = cms.double(999999999.0), maxTIPPflow = cms.double(999999999.0), minEOverPBarrel = cms.double(0.0), minEOverPBarrelPflow = cms.double(0.0), minEOverPEndcaps = cms.double(0.0), minEOverPEndcapsPflow = cms.double(0.0), minMVA = cms.double(-0.4), minMVAPflow = cms.double(-0.4), minMvaByPassForIsolated = cms.double(-0.4), minMvaByPassForIsolatedPflow = cms.double(-0.4), minSCEtBarrel = cms.double(15.0), minSCEtBarrelPflow = cms.double(0.0), minSCEtEndcaps = cms.double(15.0), minSCEtEndcapsPflow = cms.double(0.0), outputEGMPFValueMap = cms.string(''), pfMvaTag = cms.InputTag(""), pflowGsfElectronsTag = cms.InputTag(""), previousGsfElectronsTag = cms.InputTag(""), pureTrackerDrivenEcalErrorFromSimpleParameterization = cms.bool(True), recHitFlagsToBeExcludedBarrel = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), recHitFlagsToBeExcludedEndcaps = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), recHitSeverityToBeExcludedBarrel = cms.vstring( 'kWeird', 'kBad', 'kTime' ), recHitSeverityToBeExcludedEndcaps = cms.vstring( 'kWeird', 'kBad', 'kTime' ), seedFromTEC = cms.bool(True), seedsTag = cms.InputTag("ecalDrivenElectronSeeds"), superClusterErrorFunction = cms.string('EcalClusterEnergyUncertaintyObjectSpecific'), trkIsol03Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), trkIsol04Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), useCombinationRegression = cms.bool(True), useEcalRegression = cms.bool(True), useGsfPfRecTracks = cms.bool(True), useIsolationValues = cms.bool(False), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False), vtxTag = cms.InputTag("offlinePrimaryVertices") ) process.gedPhotonCore = cms.EDProducer("GEDPhotonCoreProducer", gedPhotonCoreCollection = cms.string(''), pfEgammaCandidates = cms.InputTag("particleFlowEGamma"), pixelSeedProducer = cms.InputTag("electronMergedSeeds") ) process.gedPhotons = cms.EDProducer("GEDPhotonProducer", PFIsolationCalculatorSet = cms.PSet( ComponentName = cms.string('pfIsolationCalculator'), applyDzDxyVeto = cms.bool(True), applyMissHitPhVeto = cms.bool(False), applyPFPUVeto = cms.bool(True), applyVeto = cms.bool(True), checkClosestZVertex = cms.bool(True), coneDR = cms.double(0.3), deltaRVetoBarrel = cms.bool(True), deltaRVetoBarrelCharged = cms.double(0.02), deltaRVetoBarrelNeutrals = cms.double(-1.0), deltaRVetoBarrelPhotons = cms.double(-1.0), deltaRVetoEndcap = cms.bool(True), deltaRVetoEndcapCharged = cms.double(0.02), deltaRVetoEndcapNeutrals = cms.double(-1.0), deltaRVetoEndcapPhotons = cms.double(0.07), numberOfCrystalEndcapPhotons = cms.double(4.0), numberOfRings = cms.int32(1), particleType = cms.int32(1), rectangleDeltaEtaVetoBarrelCharged = cms.double(-1), rectangleDeltaEtaVetoBarrelNeutrals = cms.double(-1), rectangleDeltaEtaVetoBarrelPhotons = cms.double(0.015), rectangleDeltaEtaVetoEndcapCharged = cms.double(-1), rectangleDeltaEtaVetoEndcapNeutrals = cms.double(-1), rectangleDeltaEtaVetoEndcapPhotons = cms.double(-1), rectangleDeltaPhiVetoBarrelCharged = cms.double(-1), rectangleDeltaPhiVetoBarrelNeutrals = cms.double(-1), rectangleDeltaPhiVetoBarrelPhotons = cms.double(1.0), rectangleDeltaPhiVetoEndcapCharged = cms.double(-1), rectangleDeltaPhiVetoEndcapNeutrals = cms.double(-1), rectangleDeltaPhiVetoEndcapPhotons = cms.double(-1), rectangleVetoBarrel = cms.bool(True), rectangleVetoEndcap = cms.bool(False), ringSize = cms.double(0.3), useCrystalSize = cms.bool(True) ), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromRefinedSCRegression'), chargedHadronIsolation = cms.InputTag("egmPhotonIsolationCITK","h+-DR030-"), checkHcalStatus = cms.bool(True), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.5), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(0.94), minR9Endcap = cms.double(0.95), minSCEtBarrel = cms.double(10.0), minSCEtEndcap = cms.double(10.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), neutralHadronIsolation = cms.InputTag("egmPhotonIsolationCITK","h0-DR030-"), outputPhotonCollection = cms.string(''), pfCandidates = cms.InputTag("particleFlowTmp"), pfECALClusIsolation = cms.InputTag("photonEcalPFClusterIsolationProducer"), pfEgammaCandidates = cms.InputTag("particleFlowEGamma"), pfHCALClusIsolation = cms.InputTag("photonHcalPFClusterIsolationProducer"), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), photonIsolation = cms.InputTag("egmPhotonIsolationCITK","gamma-DR030-"), photonProducer = cms.InputTag("gedPhotonsTmp"), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), preshowerHits = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), reconstructionStep = cms.string('final'), regressionConfig = cms.PSet( eOverP_ECALTRKThr = cms.double(0.025), electron_config = cms.PSet( regressionKey_ecalonly = cms.vstring( 'electron_eb_ECALonly_lowpt', 'electron_eb_ECALonly', 'electron_ee_ECALonly_lowpt', 'electron_ee_ECALonly' ), regressionKey_ecaltrk = cms.vstring( 'electron_eb_ECALTRK_lowpt', 'electron_eb_ECALTRK', 'electron_ee_ECALTRK_lowpt', 'electron_ee_ECALTRK' ), uncertaintyKey_ecalonly = cms.vstring( 'electron_eb_ECALonly_lowpt_var', 'electron_eb_ECALonly_var', 'electron_ee_ECALonly_lowpt_var', 'electron_ee_ECALonly_var' ), uncertaintyKey_ecaltrk = cms.vstring( 'electron_eb_ECALTRK_lowpt_var', 'electron_eb_ECALTRK_var', 'electron_ee_ECALTRK_lowpt_var', 'electron_ee_ECALTRK_var' ) ), epDiffSig_ECALTRKThr = cms.double(15.0), epSig_ECALTRKThr = cms.double(10.0), forceHighEnergyEcalTrainingIfSaturated = cms.bool(True), highEnergy_ECALTRKThr = cms.double(200.0), lowEnergy_ECALTRKThr = cms.double(50.0), lowEnergy_ECALonlyThr = cms.double(99999.0), modifierName = cms.string('EGRegressionModifierV2'), photon_config = cms.PSet( regressionKey_ecalonly = cms.vstring( 'photon_eb_ECALonly_lowpt', 'photon_eb_ECALonly', 'photon_ee_ECALonly_lowpt', 'photon_ee_ECALonly' ), uncertaintyKey_ecalonly = cms.vstring( 'photon_eb_ECALonly_lowpt_var', 'photon_eb_ECALonly_var', 'photon_ee_ECALonly_lowpt_var', 'photon_ee_ECALonly_var' ) ), rhoCollection = cms.InputTag("fixedGridRhoFastjetAllTmp") ), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True), useRegression = cms.bool(True), valueMapPhotons = cms.string('valMapPFEgammaCandToPhoton') ) process.gedPhotonsTmp = cms.EDProducer("GEDPhotonProducer", PFIsolationCalculatorSet = cms.PSet( ComponentName = cms.string('pfIsolationCalculator'), applyDzDxyVeto = cms.bool(True), applyMissHitPhVeto = cms.bool(False), applyPFPUVeto = cms.bool(True), applyVeto = cms.bool(True), checkClosestZVertex = cms.bool(True), coneDR = cms.double(0.3), deltaRVetoBarrel = cms.bool(True), deltaRVetoBarrelCharged = cms.double(0.02), deltaRVetoBarrelNeutrals = cms.double(-1.0), deltaRVetoBarrelPhotons = cms.double(-1.0), deltaRVetoEndcap = cms.bool(True), deltaRVetoEndcapCharged = cms.double(0.02), deltaRVetoEndcapNeutrals = cms.double(-1.0), deltaRVetoEndcapPhotons = cms.double(0.07), numberOfCrystalEndcapPhotons = cms.double(4.0), numberOfRings = cms.int32(1), particleType = cms.int32(1), rectangleDeltaEtaVetoBarrelCharged = cms.double(-1), rectangleDeltaEtaVetoBarrelNeutrals = cms.double(-1), rectangleDeltaEtaVetoBarrelPhotons = cms.double(0.015), rectangleDeltaEtaVetoEndcapCharged = cms.double(-1), rectangleDeltaEtaVetoEndcapNeutrals = cms.double(-1), rectangleDeltaEtaVetoEndcapPhotons = cms.double(-1), rectangleDeltaPhiVetoBarrelCharged = cms.double(-1), rectangleDeltaPhiVetoBarrelNeutrals = cms.double(-1), rectangleDeltaPhiVetoBarrelPhotons = cms.double(1.0), rectangleDeltaPhiVetoEndcapCharged = cms.double(-1), rectangleDeltaPhiVetoEndcapNeutrals = cms.double(-1), rectangleDeltaPhiVetoEndcapPhotons = cms.double(-1), rectangleVetoBarrel = cms.bool(True), rectangleVetoEndcap = cms.bool(False), ringSize = cms.double(0.3), useCrystalSize = cms.bool(True) ), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromEcalEnergy'), checkHcalStatus = cms.bool(True), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.5), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(0.94), minR9Endcap = cms.double(0.95), minSCEtBarrel = cms.double(10.0), minSCEtEndcap = cms.double(10.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), outputPhotonCollection = cms.string(''), pfCandidates = cms.InputTag("particleFlowTmp"), pfEgammaCandidates = cms.InputTag("particleFlowEGamma"), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), photonProducer = cms.InputTag("gedPhotonCore"), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), preshowerHits = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), reconstructionStep = cms.string('tmp'), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True), useRegression = cms.bool(True), valueMapPhotons = cms.string('valMapPFEgammaCandToPhoton') ) process.gemRecHits = cms.EDProducer("GEMRecHitProducer", gemDigiLabel = cms.InputTag("muonGEMDigis"), recAlgo = cms.string('GEMRecHitStandardAlgo'), recAlgoConfig = cms.PSet( ) ) process.gemSegments = cms.EDProducer("GEMSegmentProducer", algo_name = cms.string('GEMSegmentAlgorithm'), algo_pset = cms.PSet( GEMDebug = cms.untracked.bool(True), 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) ), gemRecHitLabel = cms.InputTag("gemRecHits") ) process.generalConversionStepConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("generalConversionTrackProducer"), TrackProducer2 = cms.InputTag("conversionStepConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(3), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.generalConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('generalTracks'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(False), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(True), useTrajectory = cms.bool(False) ) process.generalConversionTrackProducerTmp = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('generalTracksBeforeMixing'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(False), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(True), useTrajectory = cms.bool(False) ) process.generalInOutOutInConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("inOutOutInConversionTrackMerger"), TrackProducer2 = cms.InputTag("generalConversionStepConversionTrackMerger"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(2), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.generalInOutOutInOldEGConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("inOutOutInOldEGConversionTrackMerger"), TrackProducer2 = cms.InputTag("generalConversionStepConversionTrackMerger"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(2), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.generalTracks = cms.EDProducer("DuplicateListMerger", candidateComponents = cms.InputTag("duplicateTrackCandidates","candidateMap"), candidateSource = cms.InputTag("duplicateTrackCandidates","candidates"), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), diffHitsCut = cms.int32(5), mergedMVAVals = cms.InputTag("duplicateTrackClassifier","MVAValues"), mergedSource = cms.InputTag("mergedDuplicateTracks"), originalMVAVals = cms.InputTag("preDuplicateMergingGeneralTracks","MVAValues"), originalSource = cms.InputTag("preDuplicateMergingGeneralTracks"), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder') ) process.generalV0Candidates = cms.EDProducer("V0Producer", beamSpot = cms.InputTag("offlineBeamSpot"), cosThetaXYCut = cms.double(0.998), cosThetaXYZCut = cms.double(-2.0), doKShorts = cms.bool(True), doLambdas = cms.bool(True), innerHitPosCut = cms.double(4.0), kShortMassCut = cms.double(0.07), lambdaMassCut = cms.double(0.05), mPiPiCut = cms.double(0.6), tkChi2Cut = cms.double(10.0), tkDCACut = cms.double(1.0), tkIPSigXYCut = cms.double(2.0), tkIPSigZCut = cms.double(-1.0), tkNHitsCut = cms.int32(3), tkPtCut = cms.double(999.0), trackRecoAlgorithm = cms.InputTag("generalTracks"), useRefTracks = cms.bool(True), useVertex = cms.bool(False), vertexFitter = cms.bool(True), vertices = cms.InputTag("offlinePrimaryVertices"), vtxChi2Cut = cms.double(6.63), vtxDecaySigXYCut = cms.double(15.0), vtxDecaySigXYZCut = cms.double(-1.0) ) process.ghostTrackBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('ghostTrackComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("ghostTrackVertexTagInfos")) ) process.ghostTrackVertexTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("secondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(False), 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(1), useTrackWeights = cms.bool(True), v0Filter = cms.PSet( k0sMassWindow = cms.double(0.05) ) ), vertexReco = cms.PSet( finder = cms.string('gtvr'), fitType = cms.string('RefitGhostTrackWithVertices'), maxFitChi2 = cms.double(10.0), mergeThreshold = cms.double(3.0), primcut = cms.double(2.0), seccut = cms.double(4.0) ), vertexSelection = cms.PSet( sortCriterium = cms.string('dist3dError') ) ) process.glbTrackQual = cms.EDProducer("GlobalTrackQualityProducer", BaseLabel = cms.string('GLB'), 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(2.5), 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(20.0), MinP = cms.double(2.5), MinPt = cms.double(1.0), Propagator = cms.string('SteppingHelixPropagatorAny'), 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) ), InputCollection = cms.InputTag("globalMuons"), InputLinksCollection = cms.InputTag("globalMuons"), MaxChi2 = cms.double(100000.0), RefitterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("csc2DRecHits"), Chi2CutCSC = cms.double(1.0), Chi2CutDT = cms.double(30.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt1DRecHits"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(10, 10), DYTupdator = cms.bool(True), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), TrackerSkipSection = cms.int32(-1), TrackerSkipSystem = cms.int32(-1) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), nSigma = cms.double(3.0) ) process.globalCombinedSeeds = cms.EDProducer("SeedCombiner", seedCollections = cms.VInputTag(cms.InputTag("globalSeedsFromTripletsWithVertices"), cms.InputTag("globalSeedsFromPairsWithVertices")) ) process.globalMixedSeeds = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('StandardHitPairGenerator'), SeedingLayers = cms.InputTag("MixedLayerPairs"), maxElement = cms.uint32(1000000) ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducerFromBeamSpot'), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedFromConsecutiveHitsCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.globalMuons = cms.EDProducer("GlobalMuonProducer", GLBTrajBuilderParameters = cms.PSet( GlbRefitterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), Chi2CutCSC = cms.double(150.0), Chi2CutDT = cms.double(10.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(20, 30), DYTupdator = cms.bool(False), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('GlbMuKFFitter'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), 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(2.5), 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(20.0), MinP = cms.double(2.5), MinPt = cms.double(1.0), Propagator = cms.string('SmartPropagatorRK'), 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('MuonRecHitBuilder'), MuonTrackingRegionBuilder = 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(""), 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("offlineBeamSpot"), input = cms.InputTag(""), maxRegions = cms.int32(1), precise = cms.bool(True), vertexCollection = cms.InputTag("") ), 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('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRK'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), TrackerPropagator = cms.string('SteppingHelixPropagatorAny'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), MuonCollectionLabel = cms.InputTag("standAloneMuons","UpdatedAtVtx"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(True), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ), TrackerCollectionLabel = cms.InputTag("generalTracks") ) process.globalPixelLessSeeds = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(5000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('StandardHitPairGenerator'), SeedingLayers = cms.InputTag("pixelLessLayerPairs4PixelLessTracking"), maxElement = cms.uint32(100000) ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducerFromBeamSpot'), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), originHalfLength = cms.double(40), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedFromConsecutiveHitsCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.globalPixelSeeds = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('StandardHitPairGenerator'), SeedingLayers = cms.InputTag("PixelLayerPairs") ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducerFromBeamSpot'), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedFromConsecutiveHitsCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.globalSETMuons = cms.EDProducer("GlobalMuonProducer", GLBTrajBuilderParameters = cms.PSet( GlbRefitterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), Chi2CutCSC = cms.double(150.0), Chi2CutDT = cms.double(10.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(20, 30), DYTupdator = cms.bool(False), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('GlbMuKFFitter'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), 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(2.5), 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(20.0), MinP = cms.double(2.5), MinPt = cms.double(1.0), Propagator = cms.string('SmartPropagatorRK'), 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('MuonRecHitBuilder'), MuonTrackingRegionBuilder = 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(""), 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("offlineBeamSpot"), input = cms.InputTag(""), maxRegions = cms.int32(1), precise = cms.bool(True), vertexCollection = cms.InputTag("") ), 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('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRK'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), TrackerPropagator = cms.string('SteppingHelixPropagatorAny'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate') ), MuonCollectionLabel = cms.InputTag("standAloneSETMuons","UpdatedAtVtx"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(True), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ), TrackerCollectionLabel = cms.InputTag("generalTracks") ) process.globalSeedsFromPairsWithVertices = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('StandardHitPairGenerator'), SeedingLayers = cms.InputTag("MixedLayerPairs"), maxElement = cms.uint32(1000000) ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalTrackingRegionWithVerticesProducer'), RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.2), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.9), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedFromConsecutiveHitsCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.globalSeedsFromTriplets = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('StandardHitTripletGenerator'), GeneratorPSet = cms.PSet( ComponentName = cms.string('PixelTripletHLTGenerator'), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(1000000), phiPreFiltering = cms.double(0.3), useBending = cms.bool(True), useFixedPreFiltering = cms.bool(False), useMultScattering = cms.bool(True) ), SeedingLayers = cms.InputTag("PixelLayerTriplets") ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducerFromBeamSpot'), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedFromConsecutiveHitsCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.globalTrackingRegionWithVertices = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.2), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.9), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.gmtStage2Digis = cms.EDProducer("L1TRawToDigi", FedIds = cms.vint32(1402), MinFeds = cms.uint32(1), Setup = cms.string('stage2::GMTSetup') ) process.gsfConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('electronGsfTracks'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(False), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(False), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(False), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.gsfElectronCores = cms.EDProducer("GsfElectronCoreProducer", ctfTracks = cms.InputTag("generalTracks"), ecalDrivenGsfElectronCoresTag = cms.InputTag("ecalDrivenGsfElectronCores"), gsfPfRecTracks = cms.InputTag("pfTrackElec"), gsfTracks = cms.InputTag("electronGsfTracks"), pfSuperClusterTrackMap = cms.InputTag("pfElectronTranslator","pf"), pfSuperClusters = cms.InputTag("pfElectronTranslator","pf"), pflowGsfElectronCoresTag = cms.InputTag("pfElectronTranslator","pf"), useGsfPfRecTracks = cms.bool(True) ) process.gsfElectrons = cms.EDProducer("GsfElectronProducer", ElecMVAFilesString = cms.vstring( 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml' ), PreSelectMVA = cms.double(-0.1), SoftElecMVAFilesString = cms.vstring('RecoEgamma/ElectronIdentification/data/TMVA_BDTSoftElectrons_7Feb2014.weights.xml'), TransientInitialStateEstimatorParameters = cms.PSet( propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), addPflowElectrons = cms.bool(True), ambClustersOverlapStrategy = cms.uint32(1), ambSortingStrategy = cms.uint32(1), applyAmbResolution = cms.bool(True), applyPreselection = cms.bool(True), barrelRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotTag = cms.InputTag("offlineBeamSpot"), checkHcalStatus = cms.bool(True), combinationRegressionWeightFile = cms.vstring(), combinationRegressionWeightLabels = cms.vstring(), combinationWeightsFromDB = cms.bool(True), crackCorrectionFunction = cms.string('EcalClusterCrackCorrection'), ctfTracksCheck = cms.bool(True), ctfTracksTag = cms.InputTag("generalTracks"), eMinBarrel = cms.double(0.095), eMinEndcaps = cms.double(0.0), ecalDrivenEcalEnergyFromClassBasedParameterization = cms.bool(True), ecalDrivenEcalErrorFromClassBasedParameterization = cms.bool(True), ecalRefinedRegressionWeightFiles = cms.vstring(), ecalRefinedRegressionWeightLabels = cms.vstring(), ecalWeightsFromDB = cms.bool(True), edIsolationValues = cms.PSet( edSumChargedHadronPt = cms.InputTag("elEDIsoValueCharged04"), edSumNeutralHadronEt = cms.InputTag("elEDIsoValueNeutral04"), edSumPhotonEt = cms.InputTag("elEDIsoValueGamma04") ), endcapRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), etMinBarrel = cms.double(0.0), etMinEndcaps = cms.double(0.11), etMinHcal = cms.double(0.0), gedElectronMode = cms.bool(False), gsfElectronCoresTag = cms.InputTag("gsfElectronCores"), gsfPfRecTracksTag = cms.InputTag("pfTrackElec"), hOverEConeSize = cms.double(0.15), hOverEConeSizePflow = cms.double(0.15), hOverEPtMin = cms.double(0.0), hOverEPtMinPflow = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), intRadiusBarrelTk = cms.double(0.015), intRadiusEcalBarrel = cms.double(3.0), intRadiusEcalEndcaps = cms.double(3.0), intRadiusEndcapTk = cms.double(0.015), intRadiusHcal = cms.double(0.15), isBarrel = cms.bool(False), isBarrelPflow = cms.bool(False), isEndcaps = cms.bool(False), isEndcapsPflow = cms.bool(False), isFiducial = cms.bool(False), isFiducialPflow = cms.bool(False), jurassicWidth = cms.double(1.5), maxDeltaEtaBarrel = cms.double(0.02), maxDeltaEtaBarrelPflow = cms.double(999999999.0), maxDeltaEtaEndcaps = cms.double(0.02), maxDeltaEtaEndcapsPflow = cms.double(999999999.0), maxDeltaPhiBarrel = cms.double(0.15), maxDeltaPhiBarrelPflow = cms.double(999999999.0), maxDeltaPhiEndcaps = cms.double(0.15), maxDeltaPhiEndcapsPflow = cms.double(999999999.0), maxDrbTk = cms.double(999999999.0), maxEOverPBarrel = cms.double(999999999.0), maxEOverPBarrelPflow = cms.double(999999999.0), maxEOverPEndcaps = cms.double(999999999.0), maxEOverPEndcapsPflow = cms.double(999999999.0), maxFbremBarrel = cms.double(999999999.0), maxFbremBarrelPflow = cms.double(999999999.0), maxFbremEndcaps = cms.double(999999999.0), maxFbremEndcapsPflow = cms.double(999999999.0), maxHBarrel = cms.double(0.0), maxHBarrelPflow = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHEndcapsPflow = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEBarrelPflow = cms.double(999999999.0), maxHOverEEndcaps = cms.double(0.15), maxHOverEEndcapsPflow = cms.double(999999999.0), maxSigmaIetaIetaBarrel = cms.double(999999999.0), maxSigmaIetaIetaBarrelPflow = cms.double(999999999.0), maxSigmaIetaIetaEndcaps = cms.double(999999999.0), maxSigmaIetaIetaEndcapsPflow = cms.double(999999999.0), maxTIP = cms.double(999999999.0), maxTIPPflow = cms.double(999999999.0), maxVtxDistTk = cms.double(0.2), minEOverPBarrel = cms.double(0.0), minEOverPBarrelPflow = cms.double(0.0), minEOverPEndcaps = cms.double(0.0), minEOverPEndcapsPflow = cms.double(0.0), minMVA = cms.double(-0.1), minMVAPflow = cms.double(-0.1), minMvaByPassForIsolated = cms.double(-0.1), minMvaByPassForIsolatedPflow = cms.double(-0.1), minSCEtBarrel = cms.double(4.0), minSCEtBarrelPflow = cms.double(0.0), minSCEtEndcaps = cms.double(4.0), minSCEtEndcapsPflow = cms.double(0.0), pfIsolationValues = cms.PSet( pfSumChargedHadronPt = cms.InputTag("elPFIsoValueCharged04"), pfSumNeutralHadronEt = cms.InputTag("elPFIsoValueNeutral04"), pfSumPhotonEt = cms.InputTag("elPFIsoValueGamma04") ), pfMvaTag = cms.InputTag("pfElectronTranslator","pf"), pflowGsfElectronsTag = cms.InputTag("pfElectronTranslator","pf"), previousGsfElectronsTag = cms.InputTag("ecalDrivenGsfElectrons"), ptMinTk = cms.double(0.7), pureTrackerDrivenEcalErrorFromSimpleParameterization = cms.bool(True), recHitFlagsToBeExcludedBarrel = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), recHitFlagsToBeExcludedEndcaps = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), recHitSeverityToBeExcludedBarrel = cms.vstring( 'kWeird', 'kBad', 'kTime' ), recHitSeverityToBeExcludedEndcaps = cms.vstring( 'kWeird', 'kBad', 'kTime' ), seedFromTEC = cms.bool(True), seedsTag = cms.InputTag("ecalDrivenElectronSeeds"), stripBarrelTk = cms.double(0.015), stripEndcapTk = cms.double(0.015), superClusterErrorFunction = cms.string('EcalClusterEnergyUncertaintyObjectSpecific'), useCombinationRegression = cms.bool(False), useEcalRegression = cms.bool(False), useGsfPfRecTracks = cms.bool(True), useIsolationValues = cms.bool(True), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False), vtxTag = cms.InputTag("offlinePrimaryVertices") ) process.gsfGeneralConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("generalConversionTrackProducer"), TrackProducer2 = cms.InputTag("gsfConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(-1), arbitratedMergedPreferCollection = cms.int32(2), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.gsfGeneralInOutOutInConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("generalInOutOutInConversionTrackMerger"), TrackProducer2 = cms.InputTag("gsfConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(-1), arbitratedMergedPreferCollection = cms.int32(2), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.gsfGeneralInOutOutInOldEGConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("generalInOutOutInOldEGConversionTrackMerger"), TrackProducer2 = cms.InputTag("gsfConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(-1), arbitratedMergedPreferCollection = cms.int32(2), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.gsfTrackTimeValueMapProducer = cms.EDProducer("TrackTimeValueMapProducer", associators = cms.VInputTag(cms.InputTag("quickTrackAssociatorByHits")), etaMax = cms.double(3.0), etaMaxForPtThreshold = cms.double(1.5), etaMin = cms.double(-1.0), pMin = cms.double(0.7), pileupSummaryInfo = cms.InputTag("addPileupInfo"), ptMin = cms.double(0.7), resolutionModels = cms.VPSet( cms.PSet( modelName = cms.string('ConfigurableFlatResolutionModel'), resolutionInNs = cms.double(0.03) ), cms.PSet( modelName = cms.string('PerfectResolutionModel') ) ), trackSrc = cms.InputTag("electronGsfTracks"), trackingParticleSrc = cms.InputTag("mix","MergedTrackTruth"), trackingVertexSrc = cms.InputTag("mix","MergedTrackTruth") ) process.gtDigis = cms.EDProducer("L1GlobalTriggerRawToDigi", ActiveBoardsMask = cms.uint32(65535), DaqGtFedId = cms.untracked.int32(813), DaqGtInputTag = cms.InputTag("rawDataMapperByLabel"), UnpackBxInEvent = cms.int32(-1), Verbosity = cms.untracked.int32(0) ) process.gtStage2Digis = cms.EDProducer("L1TRawToDigi", FedIds = cms.vint32(1404), MinFeds = cms.uint32(1), Setup = cms.string('stage2::GTSetup') ) process.hbhecollapse = cms.EDProducer("HBHEPlan1Combiner", algorithm = cms.PSet( Class = cms.string('SimplePlan1RechitCombiner') ), hbheInput = cms.InputTag("hbheprereco"), ignorePlan1Topology = cms.bool(False), usePlan1Mode = cms.bool(True) ) process.hbhecollapseMB = cms.EDProducer("HBHEPlan1Combiner", algorithm = cms.PSet( Class = cms.string('SimplePlan1RechitCombiner') ), hbheInput = cms.InputTag("hbheprerecoMB"), ignorePlan1Topology = cms.bool(False), usePlan1Mode = cms.bool(True) ) process.hbheplan1 = cms.EDProducer("HBHEPlan1Combiner", algorithm = cms.PSet( Class = cms.string('SimplePlan1RechitCombiner') ), hbheInput = cms.InputTag("hbheprereco"), ignorePlan1Topology = cms.bool(False), usePlan1Mode = cms.bool(True) ) process.hbheplan1MB = cms.EDProducer("HBHEPlan1Combiner", algorithm = cms.PSet( Class = cms.string('SimplePlan1RechitCombiner') ), hbheInput = cms.InputTag("hbheprerecoMB"), ignorePlan1Topology = cms.bool(False), usePlan1Mode = cms.bool(True) ) process.hbheprereco = cms.EDProducer("HBHEPhase1Reconstructor", algoConfigClass = cms.string(''), algorithm = cms.PSet( Class = cms.string('SimpleHBHEPhase1Algo'), activeBXs = cms.vint32(-1, 0, 1), applyPedConstraint = cms.bool(True), applyPulseJitter = cms.bool(False), applyTimeConstraint = cms.bool(True), applyTimeSlew = cms.bool(True), applyTimeSlewM3 = cms.bool(True), chiSqSwitch = cms.double(15.0), correctForPhaseContainment = cms.bool(True), correctionPhaseNS = cms.double(6.0), deltaChiSqThresh = cms.double(0.001), dynamicPed = cms.bool(True), firstSampleShift = cms.int32(0), fitTimes = cms.int32(1), meanPed = cms.double(0.0), meanTime = cms.double(0.0), nMaxItersMin = cms.int32(500), 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), ts4Min = cms.double(0.0), ts4Thresh = cms.double(0.0), ts4chi2 = cms.vdouble(15.0, 15.0), useM2 = cms.bool(False), useM3 = cms.bool(True), useMahi = cms.bool(True) ), digiLabelQIE11 = cms.InputTag("hcalDigis"), digiLabelQIE8 = cms.InputTag("hcalDigis"), 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, 2.55, 2.55), LeftSlopeThreshold = cms.vdouble(250, 500, 100000), LinearCut = cms.vdouble(-3, -0.054, -0.054), LinearThreshold = cms.vdouble(20, 100, 100000), MinimumChargeThreshold = cms.double(20), MinimumTS4TS5Threshold = cms.double(100), R45MinusOneRange = cms.double(0.2), R45PlusOneRange = cms.double(0.2), RMS8MaxCut = cms.vdouble(-13.5, -11.5, -11.5), RMS8MaxThreshold = cms.vdouble(20, 100, 100000), RightSlopeCut = cms.vdouble(5, 4.15, 4.15), RightSlopeSmallCut = cms.vdouble(1.08, 1.16, 1.16), RightSlopeSmallThreshold = cms.vdouble(150, 200, 100000), RightSlopeThreshold = cms.vdouble(250, 400, 100000), TS3TS4ChargeThreshold = cms.double(70), TS3TS4UpperChargeThreshold = cms.double(20), TS4TS5ChargeThreshold = cms.double(70), TS4TS5LowerCut = cms.vdouble( -1, -0.7, -0.5, -0.4, -0.3, 0.1 ), TS4TS5LowerThreshold = cms.vdouble( 100, 120, 160, 200, 300, 500 ), TS4TS5UpperCut = cms.vdouble(1, 0.8, 0.75, 0.72), TS4TS5UpperThreshold = cms.vdouble(70, 90, 100, 400), TS5TS6ChargeThreshold = cms.double(70), TS5TS6UpperChargeThreshold = cms.double(20), 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(True), setNegativeFlagsQIE11 = cms.bool(False), setNegativeFlagsQIE8 = cms.bool(True), setNoiseFlagsQIE11 = cms.bool(False), setNoiseFlagsQIE8 = cms.bool(True), setPulseShapeFlagsQIE11 = cms.bool(False), setPulseShapeFlagsQIE8 = cms.bool(True), sipmQNTStoSum = cms.int32(3), sipmQTSShift = cms.int32(0), tsFromDB = cms.bool(False) ) process.hbheprerecoMB = cms.EDProducer("HBHEPhase1Reconstructor", algoConfigClass = cms.string(''), algorithm = cms.PSet( Class = cms.string('SimpleHBHEPhase1Algo'), activeBXs = cms.vint32(-1, 0, 1), applyPedConstraint = cms.bool(True), applyPulseJitter = cms.bool(False), applyTimeConstraint = cms.bool(True), applyTimeSlew = cms.bool(True), applyTimeSlewM3 = cms.bool(True), chiSqSwitch = cms.double(15.0), correctForPhaseContainment = cms.bool(True), correctionPhaseNS = cms.double(6.0), deltaChiSqThresh = cms.double(0.001), dynamicPed = cms.bool(True), firstSampleShift = cms.int32(0), fitTimes = cms.int32(1), meanPed = cms.double(0.0), meanTime = cms.double(0.0), nMaxItersMin = cms.int32(500), 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), 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(False) ), digiLabelQIE11 = cms.InputTag("hcalDigis"), digiLabelQIE8 = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(False), 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, 2.55, 2.55), LeftSlopeThreshold = cms.vdouble(250, 500, 100000), LinearCut = cms.vdouble(-3, -0.054, -0.054), LinearThreshold = cms.vdouble(20, 100, 100000), MinimumChargeThreshold = cms.double(20), MinimumTS4TS5Threshold = cms.double(100), R45MinusOneRange = cms.double(0.2), R45PlusOneRange = cms.double(0.2), RMS8MaxCut = cms.vdouble(-13.5, -11.5, -11.5), RMS8MaxThreshold = cms.vdouble(20, 100, 100000), RightSlopeCut = cms.vdouble(5, 4.15, 4.15), RightSlopeSmallCut = cms.vdouble(1.08, 1.16, 1.16), RightSlopeSmallThreshold = cms.vdouble(150, 200, 100000), RightSlopeThreshold = cms.vdouble(250, 400, 100000), TS3TS4ChargeThreshold = cms.double(70), TS3TS4UpperChargeThreshold = cms.double(20), TS4TS5ChargeThreshold = cms.double(70), TS4TS5LowerCut = cms.vdouble( -1, -0.7, -0.5, -0.4, -0.3, 0.1 ), TS4TS5LowerThreshold = cms.vdouble( 100, 120, 160, 200, 300, 500 ), TS4TS5UpperCut = cms.vdouble(1, 0.8, 0.75, 0.72), TS4TS5UpperThreshold = cms.vdouble(70, 90, 100, 400), TS5TS6ChargeThreshold = cms.double(70), TS5TS6UpperChargeThreshold = cms.double(20), 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(True), setPulseShapeFlagsQIE11 = cms.bool(False), setPulseShapeFlagsQIE8 = cms.bool(False), sipmQNTStoSum = cms.int32(3), sipmQTSShift = cms.int32(0), tsFromDB = cms.bool(False) ) process.hbhereco = cms.EDProducer("HBHEIsolatedNoiseReflagger", EBThreshold = cms.double(0.07), EEThreshold = cms.double(0.3), EcalAcceptSeverityLevel = cms.uint32(3), HBThreshold = cms.double(0.7), HEDThreshold = cms.double(0.8), HESThreshold = cms.double(0.8), HcalAcceptSeverityLevel = cms.uint32(9), LooseDiHitEne = cms.double(50.0), LooseEcalIsol = cms.double(0.08), LooseHPDEne1 = cms.double(20.0), LooseHPDEne2 = cms.double(80.0), LooseHPDHits1 = cms.int32(6), LooseHPDHits2 = cms.int32(3), LooseHcalIsol = cms.double(0.08), LooseMonoHitEne = cms.double(35.0), LooseRBXEne1 = cms.double(30.0), LooseRBXEne2 = cms.double(160.0), LooseRBXHits1 = cms.int32(14), LooseRBXHits2 = cms.int32(6), LooseTrackIsol = cms.double(0.1), MinValidTrackNHits = cms.int32(5), MinValidTrackPt = cms.double(0.3), MinValidTrackPtBarrel = cms.double(0.9), RBXEneThreshold = cms.double(500.0), TightDiHitEne = cms.double(15.0), TightEcalIsol = cms.double(0.04), TightHPDEne1 = cms.double(10.0), TightHPDEne2 = cms.double(30.0), TightHPDHits1 = cms.int32(6), TightHPDHits2 = cms.int32(3), TightHcalIsol = cms.double(0.04), TightMonoHitEne = cms.double(15.0), TightRBXEne1 = cms.double(25.0), TightRBXEne2 = cms.double(60.0), TightRBXHits1 = cms.int32(12), TightRBXHits2 = cms.int32(7), TightTrackIsol = cms.double(0.05), UseAllCombinedRechits = cms.bool(True), UseEcalRecoveredHits = cms.bool(False), UseHcalRecoveredHits = cms.bool(True), debug = cms.untracked.bool(False), ebInput = cms.InputTag("ecalRecHit","EcalRecHitsEB"), eeInput = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hbheInput = cms.InputTag("hbheprereco"), trackExtrapolationInput = cms.InputTag("trackExtrapolator") ) process.hbherecoMB = cms.EDProducer("HBHEPhase1Reconstructor", algoConfigClass = cms.string(''), algorithm = cms.PSet( Class = cms.string('SimpleHBHEPhase1Algo'), activeBXs = cms.vint32(-1, 0, 1), applyPedConstraint = cms.bool(True), applyPulseJitter = cms.bool(False), applyTimeConstraint = cms.bool(True), applyTimeSlew = cms.bool(True), applyTimeSlewM3 = cms.bool(True), chiSqSwitch = cms.double(15.0), correctForPhaseContainment = cms.bool(True), correctionPhaseNS = cms.double(6.0), deltaChiSqThresh = cms.double(0.001), dynamicPed = cms.bool(True), firstSampleShift = cms.int32(0), fitTimes = cms.int32(1), meanPed = cms.double(0.0), meanTime = cms.double(0.0), nMaxItersMin = cms.int32(500), 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), 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(False) ), digiLabelQIE11 = cms.InputTag("hcalDigis"), digiLabelQIE8 = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(False), 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, 2.55, 2.55), LeftSlopeThreshold = cms.vdouble(250, 500, 100000), LinearCut = cms.vdouble(-3, -0.054, -0.054), LinearThreshold = cms.vdouble(20, 100, 100000), MinimumChargeThreshold = cms.double(20), MinimumTS4TS5Threshold = cms.double(100), R45MinusOneRange = cms.double(0.2), R45PlusOneRange = cms.double(0.2), RMS8MaxCut = cms.vdouble(-13.5, -11.5, -11.5), RMS8MaxThreshold = cms.vdouble(20, 100, 100000), RightSlopeCut = cms.vdouble(5, 4.15, 4.15), RightSlopeSmallCut = cms.vdouble(1.08, 1.16, 1.16), RightSlopeSmallThreshold = cms.vdouble(150, 200, 100000), RightSlopeThreshold = cms.vdouble(250, 400, 100000), TS3TS4ChargeThreshold = cms.double(70), TS3TS4UpperChargeThreshold = cms.double(20), TS4TS5ChargeThreshold = cms.double(70), TS4TS5LowerCut = cms.vdouble( -1, -0.7, -0.5, -0.4, -0.3, 0.1 ), TS4TS5LowerThreshold = cms.vdouble( 100, 120, 160, 200, 300, 500 ), TS4TS5UpperCut = cms.vdouble(1, 0.8, 0.75, 0.72), TS4TS5UpperThreshold = cms.vdouble(70, 90, 100, 400), TS5TS6ChargeThreshold = cms.double(70), TS5TS6UpperChargeThreshold = cms.double(20), 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(True), setPulseShapeFlagsQIE11 = cms.bool(False), setPulseShapeFlagsQIE8 = cms.bool(False), sipmQNTStoSum = cms.int32(3), sipmQTSShift = cms.int32(0), tsFromDB = cms.bool(False) ) process.hcalDigis = 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("rawDataMapperByLabel"), UnpackCalib = cms.untracked.bool(True), UnpackTTP = cms.untracked.bool(True), 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.hcalnoise = cms.EDProducer("HcalNoiseInfoProducer", HcalAcceptSeverityLevel = cms.uint32(9), HcalRecHitFlagsToBeExcluded = cms.vint32( 11, 12, 13, 14, 15, 27 ), TS4TS5EnergyThreshold = cms.double(50), TS4TS5LowerCut = cms.vdouble( -1, -0.7, -0.4, -0.2, -0.08, 0, 0.1 ), TS4TS5LowerThreshold = cms.vdouble( 100, 120, 150, 200, 300, 400, 500 ), TS4TS5UpperCut = cms.vdouble(1, 0.8, 0.75, 0.72, 0.72), TS4TS5UpperThreshold = cms.vdouble(70, 90, 100, 400, 4000), calibdigiHBHEthreshold = cms.double(15), calibdigiHBHEtimeslices = cms.vint32(3, 4, 5, 6), calibdigiHFthreshold = cms.double(-999), calibdigiHFtimeslices = cms.vint32( 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 ), caloTowerCollName = cms.string('towerMaker'), digiCollName = cms.string('hcalDigis'), fillCaloTowers = cms.bool(True), fillDigis = cms.bool(True), fillLaserMonitor = cms.bool(True), fillRecHits = cms.bool(True), fillTracks = cms.bool(True), hlMaxHPDEMF = cms.double(-9999), hlMaxRBXEMF = cms.double(0.01), jetCollName = cms.string('ak4PFJets'), lMaxHighEHitTime = cms.double(9999), lMaxLowEHitTime = cms.double(9999), lMaxRatio = cms.double(999), lMinHPDHits = cms.int32(17), lMinHPDNoOtherHits = cms.int32(10), lMinHighEHitTime = cms.double(-9999), lMinLowEHitTime = cms.double(-9999), lMinRBXHits = cms.int32(999), lMinRatio = cms.double(-999), lMinZeros = cms.int32(10), lRBXRecHitR45Cuts = cms.vdouble( 0, 1, 0, -0.5, 0, 0, 1, -0.5 ), laserMonCBoxList = cms.vint32( 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5 ), laserMonIEtaList = cms.vint32( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ), laserMonIPhiList = cms.vint32( 23, 22, 21, 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 ), laserMonSamples = cms.uint32(4), laserMonTSEnd = cms.int32(-1), laserMonTSStart = cms.int32(0), lasermonDigis = cms.InputTag("hcalDigis","LASERMON"), maxCaloTowerIEta = cms.int32(20), maxNHF = cms.double(0.9), maxProblemRBXs = cms.int32(72), maxTrackEta = cms.double(2), maxjetindex = cms.int32(0), minEEMF = cms.double(50), minERatio = cms.double(50), minEZeros = cms.double(10), minHighHitE = cms.double(25), minLowHitE = cms.double(10), minR45HitE = cms.double(5), minRecHitE = cms.double(1.5), minTrackPt = cms.double(1), pMaxHPDEMF = cms.double(-0.02), pMaxHighEHitTime = cms.double(5), pMaxLowEHitTime = cms.double(6), pMaxRBXEMF = cms.double(0.02), pMaxRatio = cms.double(0.85), pMinE = cms.double(40), pMinEEMF = cms.double(10), pMinERatio = cms.double(25), pMinEZeros = cms.double(5), pMinHPDHits = cms.int32(10), pMinHPDNoOtherHits = cms.int32(7), pMinHighEHitTime = cms.double(-4), pMinLowEHitTime = cms.double(-6), pMinRBXHits = cms.int32(20), pMinRBXRechitR45Count = cms.int32(1), pMinRBXRechitR45EnergyFraction = cms.double(0.1), pMinRBXRechitR45Fraction = cms.double(0.1), pMinRatio = cms.double(0.75), pMinZeros = cms.int32(4), recHitCollName = cms.string('hbhereco'), tMaxHighEHitTime = cms.double(6), tMaxLowEHitTime = cms.double(9999), tMaxRatio = cms.double(999), tMinHPDHits = cms.int32(16), tMinHPDNoOtherHits = cms.int32(9), tMinHighEHitTime = cms.double(-7), tMinLowEHitTime = cms.double(-9999), tMinRBXHits = cms.int32(50), tMinRatio = cms.double(-999), tMinZeros = cms.int32(8), tRBXRecHitR45Cuts = cms.vdouble( 0, 1, 0, -0.2, 0, 0, 1, -0.2 ), trackCollName = cms.string('generalTracks') ) process.hfEMClusters = cms.EDProducer("HFEMClusterProducer", correctionType = cms.int32(1), forcePulseFlagMC = cms.bool(False), hits = cms.InputTag("hfreco"), maximumRenergy = cms.double(50), maximumSL = cms.double(98), minTowerEnergy = cms.double(4.0), seedThresholdET = cms.double(5.0), usePMTFlag = cms.bool(True), usePulseFlag = cms.bool(True) ) process.hfRecoEcalCandidate = cms.EDProducer("HFRecoEcalCandidateProducer", Correct = cms.bool(True), HFDBvector = cms.vdouble( 1.0, 1.0, 0.899, 0.994, 0.958, 0.942, 0.943, 0.96, 0.928, 0.922, 0.896, 0.812, 1.0, 1.0, 0.82, 0.917, 0.952, 0.929, 0.975, 0.984, 1.012, 0.971, 1.016, 0.938, 1.0, 1.0, 0.0, 0.0, -0.0036, -0.0087, -0.0049, -0.0161, -0.0072, -0.0033, -0.0066, -0.0062, -0.0045, -0.009, 0.0, 0.0, -0.0056, -0.0024, -0.0064, -0.0063, -0.0078, -0.0079, -0.0075, -0.0074, 0.0009, -0.018, 0.0, 0.0, 1.0, 1.0, 1.0565, 1.0432, 1.0714, 1.114, 1.0908, 1.0576, 1.0821, 1.0807, 1.0885, 1.1783, 1.0, 1.0, 1.157, 1.0631, 1.0401, 1.0803, 1.0506, 1.0491, 1.0235, 1.0643, 0.991, 1.0489, 1.0, 1.0 ), HFDBversion = cms.int32(1), VertexCollection = cms.InputTag("offlinePrimaryVertices"), e1e9Cut = cms.vdouble(-1, 99), e9e25Cut = cms.double(0.94), eCOREe9Cut = cms.vdouble(-1, 99), eSeLCut = cms.vdouble(-1, 99), hfclusters = cms.InputTag("hfEMClusters"), intercept2DCut = cms.double(0.815), intercept2DSlope = cms.double(0.475) ) process.hfprereco = cms.EDProducer("HFPreReconstructor", digiLabel = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(False), forceSOI = cms.int32(-1), soiShift = cms.int32(0), sumAllTimeSlices = cms.bool(False), tsFromDB = cms.bool(False) ) process.hfprerecoMB = cms.EDProducer("HFPreReconstructor", digiLabel = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(False), forceSOI = cms.int32(-1), soiShift = cms.int32(0), sumAllTimeSlices = cms.bool(False), tsFromDB = cms.bool(False) ) process.hfreco = cms.EDProducer("HFPhase1Reconstructor", PETstat = cms.PSet( HcalAcceptSeverityLevel = cms.int32(9), longETParams = cms.vdouble( 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 ), 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 ), longEnergyParams = cms.vdouble( 40, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100 ), 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 ), shortEnergyParams = cms.vdouble( 40, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100 ), 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 ), 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, 0.0164905, 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 ), 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, 0.0164905, 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 ), minChargeForOvershoot = cms.double(10000000000.0), minChargeForUndershoot = cms.double(10000000000.0), 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(True), inputLabel = cms.InputTag("hfprereco"), setNoiseFlags = cms.bool(True), useChannelQualityFromDB = cms.bool(True) ) process.hfrecoMB = cms.EDProducer("HFPhase1Reconstructor", PETstat = cms.PSet( HcalAcceptSeverityLevel = cms.int32(9), longETParams = cms.vdouble( 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 ), 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 ), longEnergyParams = cms.vdouble( 40, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100 ), 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 ), shortEnergyParams = cms.vdouble( 40, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, 100 ), 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 ), 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, 0.0164905, 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 ), 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, 0.0164905, 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('HFSimpleTimeCheck'), 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 ), minChargeForOvershoot = cms.double(10000000000.0), minChargeForUndershoot = cms.double(10000000000.0), rejectAllFailures = cms.bool(False), 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(True), inputLabel = cms.InputTag("hfprerecoMB"), setNoiseFlags = cms.bool(False), useChannelQualityFromDB = cms.bool(True) ) process.hgcalDigis = cms.EDProducer("HGCalRawToDigiFake", bhDigis = cms.InputTag("simHGCalUnsuppressedDigis","HEback"), eeDigis = cms.InputTag("simHGCalUnsuppressedDigis","EE"), fhDigis = cms.InputTag("simHGCalUnsuppressedDigis","HEfront") ) process.hgcalLayerClusters = cms.EDProducer("HGCalLayerClusterProducer", HGCBHInput = cms.InputTag("HGCalRecHit","HGCHEBRecHits"), HGCEEInput = cms.InputTag("HGCalRecHit","HGCEERecHits"), HGCFHInput = cms.InputTag("HGCalRecHit","HGCHEFRecHits"), dEdXweights = cms.vdouble( 0.0, 8.603, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.0675, 8.9515, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 10.135, 11.682, 13.654, 13.654, 13.654, 13.654, 13.654, 13.654, 13.654, 38.2005, 55.0265, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 49.871, 62.005, 83.1675, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 92.196, 46.098 ), deltac = cms.vdouble(2, 2, 5), dependSensor = cms.bool(True), detector = cms.string('all'), doSharing = cms.bool(False), ecut = cms.double(3), fcPerEle = cms.double(0.00016020506), fcPerMip = cms.vdouble(1.25, 2.57, 3.88), kappa = cms.double(9), noiseMip = cms.PSet( refToPSet_ = cms.string('HGCAL_noise_MIP') ), noises = cms.PSet( refToPSet_ = cms.string('HGCAL_noises') ), thicknessCorrection = cms.vdouble(1.132, 1.092, 1.084), verbosity = cms.untracked.uint32(3) ) process.hgcalMultiClusters = cms.EDProducer("HGCalMultiClusterProducer", HGCBHInput = cms.InputTag("HGCalRecHit","HGCHEBRecHits"), HGCEEInput = cms.InputTag("HGCalRecHit","HGCEERecHits"), HGCFHInput = cms.InputTag("HGCalRecHit","HGCHEFRecHits"), HGCLayerClusters = cms.InputTag("hgcalLayerClusters"), HGCLayerClustersSharing = cms.InputTag("hgcalLayerClusters","sharing"), doSharing = cms.bool(False), minClusters = cms.uint32(3), multiclusterRadii = cms.vdouble(2, 5, 5), verbosity = cms.untracked.uint32(3) ) process.hgcalTrackCollection = cms.EDProducer("HGCalTrackCollectionProducer", DPtOverPtCuts_byTrackAlgo = cms.vdouble( 10.0, 10.0, 10.0, 10.0, 10.0, 5.0 ), NHitCuts_byTrackAlgo = cms.vuint32( 3, 3, 3, 3, 3, 32700 ), debug = cms.bool(False), hgcalGeometryNames = cms.PSet( HGC_ECAL = cms.string('HGCalEESensitive') ), src = cms.InputTag("pfTrack"), useIterativeTracking = cms.bool(True) ) process.hiCentrality = cms.EDProducer("CentralityProducer", TrackQuality = cms.string('highPurity'), UseQuality = cms.bool(True), doPixelCut = cms.bool(True), hfEtaCut = cms.double(4), lowGainZDC = cms.bool(True), midRapidityRange = cms.double(1), produceETmidRapidity = cms.bool(True), produceEcalhits = cms.bool(True), produceHFhits = cms.bool(True), produceHFtowers = cms.bool(True), producePixelTracks = cms.bool(True), producePixelhits = cms.bool(True), produceTracks = cms.bool(True), produceZDChits = cms.bool(True), reUseCentrality = cms.bool(False), srcEBhits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), srcEEhits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), srcHFhits = cms.InputTag("hfreco"), srcPixelTracks = cms.InputTag("hiConformalPixelTracks"), srcPixelhits = cms.InputTag("siPixelRecHits"), srcReUse = cms.InputTag("hiCentrality"), srcTowers = cms.InputTag("towerMaker"), srcTracks = cms.InputTag("generalTracks"), srcVertex = cms.InputTag("offlinePrimaryVertices"), srcZDChits = cms.InputTag("zdcreco"), trackEtaCut = cms.double(2), trackPtCut = cms.double(1) ) process.hiClusterCompatibility = cms.EDProducer("ClusterCompatibilityProducer", inputTag = cms.InputTag("siPixelRecHits"), maxZ = cms.double(40.05), minZ = cms.double(-40.0), zStep = cms.double(0.2) ) process.hiConformalPixelFilter = cms.EDProducer("HIPixelTrackFilterProducer", VertexCollection = cms.InputTag("hiSelectedPixelVertex"), chi2 = cms.double(80.0), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), lipMax = cms.double(999.0), nSigmaLipMaxTolerance = cms.double(14.0), nSigmaTipMaxTolerance = cms.double(999.0), ptMax = cms.double(999999), ptMin = cms.double(0.25), tipMax = cms.double(999.0), useClusterShape = cms.bool(False) ) process.hiConformalPixelTracks = cms.EDProducer("PixelTrackProducer", Cleaner = cms.string('pixelTrackCleanerBySharedHits'), Filter = cms.InputTag("hiConformalPixelTracksPhase1Filter"), Fitter = cms.InputTag("pixelFitterByConformalMappingAndLine"), SeedingHitSets = cms.InputTag("hiConformalPixelTracksPhase1HitQuadrupletsCA"), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_hiConformalPixelTracksPhase1HitQuadrupletsCA__RECO') ) process.hiConformalPixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag(""), layerPairs = cms.vuint32(0), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("PixelLayerTriplets"), trackingRegions = cms.InputTag("hiTrackingRegionWithVertex"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.hiConformalPixelTracksHitTriplets = cms.EDProducer("PixelTripletHLTEDProducer", SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), doublets = cms.InputTag("hiConformalPixelTracksHitDoublets"), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(5000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_hiConformalPixelTracksHitDoublets__RECO'), 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.hiConformalPixelTracksPhase1Filter = cms.EDProducer("HIPixelTrackFilterProducer", VertexCollection = cms.InputTag("offlinePrimaryVertices"), chi2 = cms.double(999.9), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), lipMax = cms.double(999.0), nSigmaLipMaxTolerance = cms.double(999.9), nSigmaTipMaxTolerance = cms.double(999.0), ptMax = cms.double(999999), ptMin = cms.double(0.3), tipMax = cms.double(999.0), useClusterShape = cms.bool(False) ) process.hiConformalPixelTracksPhase1HitDoubletsCA = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1, 2), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("hiConformalPixelTracksPhase1SeedLayers"), trackingRegions = cms.InputTag("hiConformalPixelTracksPhase1TrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.hiConformalPixelTracksPhase1HitQuadrupletsCA = cms.EDProducer("CAHitQuadrupletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0.2), CAThetaCut = cms.double(0.0012), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), doublets = cms.InputTag("hiConformalPixelTracksPhase1HitDoubletsCA"), 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), value1 = cms.double(200), value2 = cms.double(50) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_hiConformalPixelTracksPhase1HitDoubletsCA__RECO'), useBendingCorrection = cms.bool(True) ) process.hiConformalPixelTracksPhase1SeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), 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.hiConformalPixelTracksPhase1TrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("offlinePrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(3.0), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.2), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.3), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(3.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.hiFJGridEmptyAreaCalculator = cms.EDProducer("HiFJGridEmptyAreaCalculator", CentralityBinSrc = cms.InputTag("centralityBin","HFtowers"), bandWidth = cms.double(0.2), doCentrality = cms.bool(True), gridWidth = cms.double(0.05), hiBinCut = cms.int32(100), jetSource = cms.InputTag("kt4PFJetsForRho"), keepGridInfo = cms.bool(False), mapEtaEdges = cms.InputTag("hiFJRhoProducer","mapEtaEdges"), mapToRho = cms.InputTag("hiFJRhoProducer","mapToRho"), mapToRhoM = cms.InputTag("hiFJRhoProducer","mapToRhoM"), pfCandSource = cms.InputTag("particleFlow") ) process.hiFJRhoProducer = cms.EDProducer("HiFJRhoProducer", etaMaxExcl = cms.double(2.0), etaMaxExcl2 = cms.double(3.0), etaRanges = cms.vdouble( -5.0, -3.0, -2.1, -1.3, 1.3, 2.1, 3.0, 5.0 ), jetSource = cms.InputTag("kt4PFJetsForRho"), nExcl = cms.int32(2), nExcl2 = cms.int32(1), ptMinExcl = cms.double(20.0), ptMinExcl2 = cms.double(20.0) ) process.hiFilter = cms.EDProducer("HIPixelTrackFilterProducer", VertexCollection = cms.InputTag("hiSelectedPixelVertex"), chi2 = cms.double(1000), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), lipMax = cms.double(0.3), nSigmaLipMaxTolerance = cms.double(0), nSigmaTipMaxTolerance = cms.double(6), ptMax = cms.double(999999), ptMin = cms.double(1.5), tipMax = cms.double(0), useClusterShape = cms.bool(False) ) process.hiProtoTrackFilter = cms.EDProducer("HIProtoTrackFilterProducer", beamSpot = cms.InputTag("offlineBeamSpot"), chi2 = cms.double(1000), doVariablePtMin = cms.bool(True), ptMin = cms.double(1), siPixelRecHits = cms.InputTag("siPixelRecHits"), tipMax = cms.double(1) ) process.hiTrackingRegionFromClusterVtx = cms.EDProducer("HITrackingRegionForPrimaryVtxEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("hiPixelClusterVertex"), beamSpot = cms.InputTag("offlineBeamSpot"), directionXCoord = cms.double(1), directionYCoord = cms.double(1), directionZCoord = cms.double(0), doVariablePtMin = cms.bool(True), fixedError = cms.double(3), nSigmaZ = cms.double(3), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.7), siPixelRecHits = cms.InputTag("siPixelRecHits"), sigmaZVertex = cms.double(3), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.hiTrackingRegionWithVertex = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("hiSelectedPixelVertex"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(3.0), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.2), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(1.5), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(3.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.highPtTripletStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorHighPtTripletStep_Phase1') ), qualityCuts = cms.vdouble(-0.9, -0.3, 0.85), src = cms.InputTag("highPtTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.highPtTripletStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("lowPtQuadStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("lowPtQuadStep","QualityMasks"), trajectories = cms.InputTag("lowPtQuadStepTracks") ) process.highPtTripletStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("highPtTripletStepSeedLayers"), trackingRegions = cms.InputTag("highPtTripletStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.highPtTripletStepHitTriplets = cms.EDProducer("CAHitTripletEDProducer", CAHardPtCut = cms.double(0.3), CAPhiCut = cms.double(0.07), CAThetaCut = cms.double(0.004), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("highPtTripletStepHitDoublets"), extraHitRPhitolerance = cms.double(0.032), maxChi2 = cms.PSet( enabled = cms.bool(True), pt1 = cms.double(0.8), pt2 = cms.double(8), value1 = cms.double(100), value2 = cms.double(6) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_highPtTripletStepHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.highPtTripletStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("lowPtQuadStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("lowPtQuadStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("lowPtQuadStepTracks") ) process.highPtTripletStepSeedClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("initialStepSeedClusterMask"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("highPtTripletStepSeeds") ) process.highPtTripletStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("highPtTripletStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("highPtTripletStepClusters") ), 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', 'BPix1+BPix3+FPix1_pos', 'BPix1+BPix3+FPix1_neg', 'BPix2+FPix1_pos+FPix2_pos', 'BPix2+FPix1_neg+FPix2_neg', 'BPix1+FPix1_pos+FPix2_pos', 'BPix1+FPix1_neg+FPix2_neg', 'BPix1+BPix2+FPix2_pos', 'BPix1+BPix2+FPix2_neg', 'FPix1_pos+FPix2_pos+FPix3_pos', 'FPix1_neg+FPix2_neg+FPix3_neg', 'BPix1+FPix2_pos+FPix3_pos', 'BPix1+FPix2_neg+FPix3_neg', 'BPix1+FPix1_pos+FPix3_pos', 'BPix1+FPix1_neg+FPix3_neg' ) ) process.highPtTripletStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_highPtTripletStepHitTriplets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("highPtTripletStepHitTriplets") ) process.highPtTripletStepSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("highPtTripletStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(2.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.7, 4.0), d0_par2 = cms.vdouble(0.6, 4.0), dz_par1 = cms.vdouble(0.8, 4.0), dz_par2 = cms.vdouble(0.6, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(3), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('highPtTripletStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.002), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.6, 4.0), d0_par2 = cms.vdouble(0.5, 4.0), dz_par1 = cms.vdouble(0.7, 4.0), dz_par2 = cms.vdouble(0.6, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('highPtTripletStepTight'), preFilterName = cms.string('highPtTripletStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.002), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.8), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.6, 4.0), d0_par2 = cms.vdouble(0.45, 4.0), dz_par1 = cms.vdouble(0.7, 4.0), dz_par2 = cms.vdouble(0.55, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(4), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(4), nSigmaZ = cms.double(4.0), name = cms.string('highPtTripletStep'), preFilterName = cms.string('highPtTripletStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.highPtTripletStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('highPtTripletStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("highPtTripletStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("highPtTripletStepSeeds"), useHitsSplitting = cms.bool(True) ) process.highPtTripletStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.02), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.7), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.highPtTripletStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('highPtTripletStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("highPtTripletStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.horeco = cms.EDProducer("HcalHitReconstructor", Subdetector = cms.string('HO'), correctForPhaseContainment = cms.bool(True), correctForTimeslew = cms.bool(True), correctTiming = cms.bool(True), correctionPhaseNS = cms.double(13.0), dataOOTCorrectionCategory = cms.string('Data'), dataOOTCorrectionName = cms.string(''), digiLabel = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(True), firstAuxTS = cms.int32(4), firstSample = cms.int32(4), 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(True), setNegativeFlags = cms.bool(False), setNoiseFlags = cms.bool(True), setPulseShapeFlags = cms.bool(False), setSaturationFlags = cms.bool(True), setTimingTrustFlags = cms.bool(False), tsFromDB = cms.bool(True), useLeakCorrection = cms.bool(False) ) process.horecoMB = cms.EDProducer("HcalSimpleReconstructor", Subdetector = cms.string('HO'), correctForPhaseContainment = cms.bool(True), correctForTimeslew = cms.bool(True), correctionPhaseNS = cms.double(13), digiLabel = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(False), firstSample = cms.int32(4), samplesToAdd = cms.int32(4), tsFromDB = cms.bool(True) ) process.hpsPFTauChargedIsoPtSum = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.5), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauChargedIsoPtSumdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.3), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByDeadECALElectronRejection = cms.EDProducer("PFRecoTauDiscriminationAgainstElectronDeadECAL", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), dR = cms.double(0.08), minStatus = cms.uint32(12) ) process.hpsPFTauDiscriminationByDecayModeFinding = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection", PFTauProducer = cms.InputTag("hpsPFTauProducer"), 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(1.3, min(1.3*sqrt(pt/100.), 4.2))'), minMass = cms.double(0.3), 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(1.2, min(1.2*sqrt(pt/100.), 4.0))'), maxPi0Mass = cms.double(0.2), minMass = cms.double(0.4), minPi0Mass = cms.double(0.05), 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(False), phi = cms.bool(False) ), maxMass = cms.string('1.5'), minMass = cms.double(0.8), nCharged = cms.uint32(3), nChargedPFCandsMin = cms.uint32(1), nPiZeros = cms.uint32(0), nTracksMin = cms.uint32(2) ) ), matchingCone = cms.double(0.5), minPixelHits = cms.int32(1), minTauPt = cms.double(0.0), requireTauChargedHadronsToBeChargedPFCands = cms.bool(True) ) process.hpsPFTauDiscriminationByDecayModeFindingNewDMs = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection", PFTauProducer = cms.InputTag("hpsPFTauProducer"), 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(1.3, min(1.3*sqrt(pt/100.), 4.2))'), minMass = cms.double(0.3), 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(1.2, min(1.2*sqrt(pt/100.), 4.0))'), maxPi0Mass = cms.double(0.2), minMass = cms.double(0.4), minPi0Mass = cms.double(0.05), 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(False), phi = cms.bool(False) ), 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(False), phi = cms.bool(False) ), maxMass = cms.string('max(1.2, min(1.2*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(False), phi = cms.bool(False) ), maxMass = cms.string('1.5'), minMass = cms.double(0.8), 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(1), minTauPt = cms.double(0.0), requireTauChargedHadronsToBeChargedPFCands = cms.bool(False) ) process.hpsPFTauDiscriminationByDecayModeFindingOldDMs = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection", PFTauProducer = cms.InputTag("hpsPFTauProducer"), 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(1.3, min(1.3*sqrt(pt/100.), 4.2))'), minMass = cms.double(0.3), 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(1.2, min(1.2*sqrt(pt/100.), 4.0))'), maxPi0Mass = cms.double(0.2), minMass = cms.double(0.4), minPi0Mass = cms.double(0.05), 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(False), phi = cms.bool(False) ), maxMass = cms.string('1.5'), minMass = cms.double(0.8), nCharged = cms.uint32(3), nChargedPFCandsMin = cms.uint32(1), nPiZeros = cms.uint32(0), nTracksMin = cms.uint32(2) ) ), matchingCone = cms.double(0.5), minPixelHits = cms.int32(1), minTauPt = cms.double(0.0), requireTauChargedHadronsToBeChargedPFCands = cms.bool(True) ) process.hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1'), mvaOpt = cms.string('DBoldDMwLT'), srcChargedIsoPtSum = cms.InputTag("hpsPFTauChargedIsoPtSumdR03"), srcFootprintCorrection = cms.InputTag("hpsPFTauFootprintCorrectiondR03"), srcNeutralIsoPtSum = cms.InputTag("hpsPFTauNeutralIsoPtSumdR03"), srcPUcorrPtSum = cms.InputTag("hpsPFTauPUcorrPtSumdR03"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("hpsPFTauPhotonPtSumOutsideSignalConedR03"), srcTauTransverseImpactParameters = cms.InputTag("hpsPFTauTransverseImpactParameters"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1'), mvaOpt = cms.string('DBnewDMwLT'), srcChargedIsoPtSum = cms.InputTag("hpsPFTauChargedIsoPtSum"), srcFootprintCorrection = cms.InputTag("hpsPFTauFootprintCorrection"), srcNeutralIsoPtSum = cms.InputTag("hpsPFTauNeutralIsoPtSum"), srcPUcorrPtSum = cms.InputTag("hpsPFTauPUcorrPtSum"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("hpsPFTauPhotonPtSumOutsideSignalCone"), srcTauTransverseImpactParameters = cms.InputTag("hpsPFTauTransverseImpactParameters"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1'), mvaOpt = cms.string('DBoldDMwLTwGJ'), srcChargedIsoPtSum = cms.InputTag("hpsPFTauChargedIsoPtSum"), srcFootprintCorrection = cms.InputTag("hpsPFTauFootprintCorrection"), srcNeutralIsoPtSum = cms.InputTag("hpsPFTauNeutralIsoPtSum"), srcPUcorrPtSum = cms.InputTag("hpsPFTauPUcorrPtSum"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("hpsPFTauPhotonPtSumOutsideSignalCone"), srcTauTransverseImpactParameters = cms.InputTag("hpsPFTauTransverseImpactParameters"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1'), mvaOpt = cms.string('PWoldDMwLT'), srcChargedIsoPtSum = cms.InputTag("hpsPFTauChargedIsoPtSumdR03"), srcFootprintCorrection = cms.InputTag("hpsPFTauFootprintCorrectiondR03"), srcNeutralIsoPtSum = cms.InputTag("hpsPFTauNeutralIsoPtSumWeightdR03"), srcPUcorrPtSum = cms.InputTag("hpsPFTauPUcorrPtSumdR03"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("hpsPFTauPhotonPtSumOutsideSignalConedR03"), srcTauTransverseImpactParameters = cms.InputTag("hpsPFTauTransverseImpactParameters"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1'), mvaOpt = cms.string('PWnewDMwLT'), srcChargedIsoPtSum = cms.InputTag("hpsPFTauChargedIsoPtSum"), srcFootprintCorrection = cms.InputTag("hpsPFTauFootprintCorrection"), srcNeutralIsoPtSum = cms.InputTag("hpsPFTauNeutralIsoPtSumWeight"), srcPUcorrPtSum = cms.InputTag("hpsPFTauPUcorrPtSum"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("hpsPFTauPhotonPtSumOutsideSignalCone"), srcTauTransverseImpactParameters = cms.InputTag("hpsPFTauTransverseImpactParameters"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw = cms.EDProducer("PFRecoTauDiscriminationByMVAIsolationRun2", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), mvaName = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1'), mvaOpt = cms.string('PWoldDMwLT'), srcChargedIsoPtSum = cms.InputTag("hpsPFTauChargedIsoPtSum"), srcFootprintCorrection = cms.InputTag("hpsPFTauFootprintCorrection"), srcNeutralIsoPtSum = cms.InputTag("hpsPFTauNeutralIsoPtSumWeight"), srcPUcorrPtSum = cms.InputTag("hpsPFTauPUcorrPtSum"), srcPhotonPtSumOutsideSignalCone = cms.InputTag("hpsPFTauPhotonPtSumOutsideSignalCone"), srcTauTransverseImpactParameters = cms.InputTag("hpsPFTauTransverseImpactParameters"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByLooseChargedIsolation = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), customOuterCone = cms.double(0.3), deltaBetaFactor = cms.string('0.0720'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByLooseElectronRejection = cms.EDProducer("PFRecoTauDiscriminationAgainstElectron", ApplyCut_BremCombined = cms.bool(False), ApplyCut_BremsRecoveryEOverPLead = cms.bool(False), ApplyCut_EOverPLead = cms.bool(False), ApplyCut_EcalCrackCut = cms.bool(False), ApplyCut_ElectronPreID = cms.bool(False), ApplyCut_ElectronPreID_2D = cms.bool(False), ApplyCut_EmFraction = cms.bool(False), ApplyCut_Hcal3x3OverPLead = cms.bool(False), ApplyCut_HcalMaxOverPLead = cms.bool(False), ApplyCut_HcalTotOverPLead = cms.bool(False), ApplyCut_PFElectronMVA = cms.bool(True), BremCombined_Fraction = cms.double(0.99), BremCombined_HOP = cms.double(0.1), BremCombined_Mass = cms.double(0.55), BremCombined_StripSize = cms.double(0.03), BremsRecoveryEOverPLead_maxValue = cms.double(1.8), BremsRecoveryEOverPLead_minValue = cms.double(0.8), EOverPLead_maxValue = cms.double(1.8), EOverPLead_minValue = cms.double(0.8), ElecPreID0_EOverPLead_maxValue = cms.double(0.95), ElecPreID0_HOverPLead_minValue = cms.double(0.05), ElecPreID1_EOverPLead_maxValue = cms.double(0.8), ElecPreID1_HOverPLead_minValue = cms.double(0.15), EmFraction_maxValue = cms.double(0.9), Hcal3x3OverPLead_minValue = cms.double(0.1), HcalMaxOverPLead_minValue = cms.double(0.1), HcalTotOverPLead_minValue = cms.double(0.1), PFElectronMVA_maxValue = cms.double(0.6), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ) ) process.hpsPFTauDiscriminationByLooseIsolation = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ), preIso = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByLooseChargedIsolation"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(True), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.38'), 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(0.5), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByLooseIsolationDBSumPtCorr = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ), preIso = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByLooseChargedIsolation"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.0729'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff80'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff80'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw") ) process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff80'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff80'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff80'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw") ) process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff80'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw") ) process.hpsPFTauDiscriminationByLooseMuonRejection3 = cms.EDProducer("PFRecoTauDiscriminationAgainstMuon2", HoPMin = cms.double(0.2), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ), dRmuonMatch = cms.double(0.3), dRmuonMatchLimitedToJetArea = cms.bool(False), discriminatorOption = cms.string('custom'), doCaloMuonVeto = cms.bool(True), 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("muons"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByLoosePileupWeightedIsolation3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(True), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByMVA6LooseElectronRejection = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet( cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(2), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(5), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(7), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(8), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(10), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(13), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff96'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(15), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff96'), variable = cms.string('pt') ) ), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection") ) process.hpsPFTauDiscriminationByMVA6MediumElectronRejection = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet( cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(2), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(5), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(7), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(8), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(10), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(13), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff91'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(15), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff91'), variable = cms.string('pt') ) ), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection") ) process.hpsPFTauDiscriminationByMVA6TightElectronRejection = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet( cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(2), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(5), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(7), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(8), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(10), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(13), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff85'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(15), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff85'), variable = cms.string('pt') ) ), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection") ) process.hpsPFTauDiscriminationByMVA6VLooseElectronRejection = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet( cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(2), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(5), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(7), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(8), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(10), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(13), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff99'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(15), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff99'), variable = cms.string('pt') ) ), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection") ) process.hpsPFTauDiscriminationByMVA6VTightElectronRejection = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet( cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(2), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(5), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(7), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(8), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(10), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(13), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff79'), variable = cms.string('pt') ), cms.PSet( category = cms.uint32(15), cut = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff79'), variable = cms.string('pt') ) ), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByMVA6rawElectronRejection") ) process.hpsPFTauDiscriminationByMVA6rawElectronRejection = cms.EDProducer("PFRecoTauDiscriminationAgainstElectronMVA6", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), method = cms.string('BDTG'), minMVANoEleMatchWOgWOgsfBL = cms.double(0.0), minMVANoEleMatchWOgWOgsfEC = cms.double(0.0), minMVANoEleMatchWgWOgsfBL = cms.double(0.0), minMVANoEleMatchWgWOgsfEC = cms.double(0.0), minMVAWOgWgsfBL = cms.double(0.0), minMVAWOgWgsfEC = cms.double(0.0), minMVAWgWgsfBL = cms.double(0.0), minMVAWgWgsfEC = cms.double(0.0), mvaName_NoEleMatch_wGwoGSF_BL = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL'), mvaName_NoEleMatch_wGwoGSF_EC = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC'), mvaName_NoEleMatch_woGwoGSF_BL = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL'), mvaName_NoEleMatch_woGwoGSF_EC = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC'), mvaName_wGwGSF_BL = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL'), mvaName_wGwGSF_EC = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC'), mvaName_woGwGSF_BL = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL'), mvaName_woGwGSF_EC = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC'), returnMVA = cms.bool(True), srcGsfElectrons = cms.InputTag("gedGsfElectrons"), usePhiAtEcalEntranceExtrapolation = cms.bool(False) ) process.hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), customOuterCone = cms.double(0.3), deltaBetaFactor = cms.string('0.0720'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByMediumElectronRejection = cms.EDProducer("PFRecoTauDiscriminationAgainstElectron", ApplyCut_BremCombined = cms.bool(False), ApplyCut_BremsRecoveryEOverPLead = cms.bool(False), ApplyCut_EOverPLead = cms.bool(False), ApplyCut_EcalCrackCut = cms.bool(True), ApplyCut_ElectronPreID = cms.bool(False), ApplyCut_ElectronPreID_2D = cms.bool(False), ApplyCut_EmFraction = cms.bool(False), ApplyCut_Hcal3x3OverPLead = cms.bool(False), ApplyCut_HcalMaxOverPLead = cms.bool(False), ApplyCut_HcalTotOverPLead = cms.bool(False), ApplyCut_PFElectronMVA = cms.bool(True), BremCombined_Fraction = cms.double(0.99), BremCombined_HOP = cms.double(0.1), BremCombined_Mass = cms.double(0.55), BremCombined_StripSize = cms.double(0.03), BremsRecoveryEOverPLead_maxValue = cms.double(1.8), BremsRecoveryEOverPLead_minValue = cms.double(0.8), EOverPLead_maxValue = cms.double(1.8), EOverPLead_minValue = cms.double(0.8), ElecPreID0_EOverPLead_maxValue = cms.double(0.95), ElecPreID0_HOverPLead_minValue = cms.double(0.05), ElecPreID1_EOverPLead_maxValue = cms.double(0.8), ElecPreID1_HOverPLead_minValue = cms.double(0.15), EmFraction_maxValue = cms.double(0.9), Hcal3x3OverPLead_minValue = cms.double(0.1), HcalMaxOverPLead_minValue = cms.double(0.1), HcalTotOverPLead_minValue = cms.double(0.1), PFElectronMVA_maxValue = cms.double(-0.1), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ) ) process.hpsPFTauDiscriminationByMediumIsolation = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ), preIso = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByMediumChargedIsolation"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(True), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.38'), 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(0.5), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.8), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByMediumIsolationDBSumPtCorr = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ), preIso = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByMediumChargedIsolation"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2739'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.8), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff70'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff70'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw") ) process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff70'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff70'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff70'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw") ) process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff70'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw") ) process.hpsPFTauDiscriminationByMediumPileupWeightedIsolation3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(True), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(True), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByRawPileupWeightedIsolation3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(True), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(0.8), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(0.8), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), customOuterCone = cms.double(0.3), deltaBetaFactor = cms.string('0.0720'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(0.8), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByTightElectronRejection = cms.EDProducer("PFRecoTauDiscriminationAgainstElectron", ApplyCut_BremCombined = cms.bool(True), ApplyCut_BremsRecoveryEOverPLead = cms.bool(False), ApplyCut_EOverPLead = cms.bool(False), ApplyCut_EcalCrackCut = cms.bool(True), ApplyCut_ElectronPreID = cms.bool(False), ApplyCut_ElectronPreID_2D = cms.bool(False), ApplyCut_EmFraction = cms.bool(False), ApplyCut_Hcal3x3OverPLead = cms.bool(False), ApplyCut_HcalMaxOverPLead = cms.bool(False), ApplyCut_HcalTotOverPLead = cms.bool(False), ApplyCut_PFElectronMVA = cms.bool(True), BremCombined_Fraction = cms.double(0.99), BremCombined_HOP = cms.double(0.1), BremCombined_Mass = cms.double(0.55), BremCombined_StripSize = cms.double(0.03), BremsRecoveryEOverPLead_maxValue = cms.double(1.8), BremsRecoveryEOverPLead_minValue = cms.double(0.8), EOverPLead_maxValue = cms.double(1.8), EOverPLead_minValue = cms.double(0.8), ElecPreID0_EOverPLead_maxValue = cms.double(0.95), ElecPreID0_HOverPLead_minValue = cms.double(0.05), ElecPreID1_EOverPLead_maxValue = cms.double(0.8), ElecPreID1_HOverPLead_minValue = cms.double(0.15), EmFraction_maxValue = cms.double(0.9), Hcal3x3OverPLead_minValue = cms.double(0.1), HcalMaxOverPLead_minValue = cms.double(0.1), HcalTotOverPLead_minValue = cms.double(0.1), PFElectronMVA_maxValue = cms.double(-0.1), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ) ) process.hpsPFTauDiscriminationByTightIsolation = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ), preIso = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByTightChargedIsolation"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(True), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.38'), 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(0.5), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByTightIsolationDBSumPtCorr = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ), preIso = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByTightChargedIsolation"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(1.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff60'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff60'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw") ) process.hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff60'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff60'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff60'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw") ) process.hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff60'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw") ) process.hpsPFTauDiscriminationByTightMuonRejection3 = cms.EDProducer("PFRecoTauDiscriminationAgainstMuon2", HoPMin = cms.double(0.2), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ), dRmuonMatch = cms.double(0.3), dRmuonMatchLimitedToJetArea = cms.bool(False), discriminatorOption = cms.string('custom'), doCaloMuonVeto = cms.bool(True), 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(0), maxNumberOfMatches = cms.int32(1), minPtMatchedMuon = cms.double(5.0), srcMuons = cms.InputTag("muons"), verbosity = cms.int32(0) ) process.hpsPFTauDiscriminationByTightPileupWeightedIsolation3Hits = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(True), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(True), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(True), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(0.8), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff90'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff90'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw") ) process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff90'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff90'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff90'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw") ) process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff90'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw") ) process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff50'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff50'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw") ) process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff50'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff50'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff50'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw") ) process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff50'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw") ) process.hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff95'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff40'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff40'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw") ) process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff40'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw") ) process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff40'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw") ) process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff40'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw") ) process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), key = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw","category"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet(cms.PSet( category = cms.uint32(0), cut = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff40'), variable = cms.string('pt') )), mvaOutput_normalization = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), toMultiplex = cms.InputTag("hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw") ) process.hpsPFTauFootprintCorrection = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.5), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawFootprintCorrection = cms.bool(True), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauFootprintCorrectiondR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.3), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawFootprintCorrection = cms.bool(True), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauNeutralIsoPtSum = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.5), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauNeutralIsoPtSumWeight = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), 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(0.5), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauNeutralIsoPtSumWeightdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(True), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(True), 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(0.3), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauNeutralIsoPtSumdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.3), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauPUcorrPtSum = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), 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(0.5), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(True), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauPUcorrPtSumdR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), 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(0.3), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(True), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauPhotonPtSumOutsideSignalCone = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.5), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawPhotonSumPt_outsideSignalCone = cms.bool(True), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauPhotonPtSumOutsideSignalConedR03 = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("hpsPFTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), cut = cms.double(0.5) ) ), 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(0.3), deltaBetaFactor = cms.string('0.2000'), deltaBetaPUTrackPtCutOverride = cms.double(0.5), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(2.5), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), qualityCuts = cms.PSet( isolationQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.2), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.03), minGammaEt = cms.double(1.0), 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("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawPhotonSumPt_outsideSignalCone = cms.bool(True), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.hpsPFTauPrimaryVertexProducer = cms.EDProducer("PFTauPrimaryVertexProducer", Algorithm = cms.int32(0), ElectronTag = cms.InputTag(""), MuonTag = cms.InputTag(""), PFTauTag = cms.InputTag("hpsPFTauProducer"), PVTag = cms.InputTag("offlinePrimaryVertices"), RemoveElectronTracks = cms.bool(False), RemoveMuonTracks = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), cut = cms.string('pt > 18.0 & abs(eta) < 2.4'), discriminators = cms.VPSet(cms.PSet( discriminator = cms.InputTag("hpsPFTauDiscriminationByDecayModeFindingNewDMs"), selectionCut = cms.double(0.5) )), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), useBeamSpot = cms.bool(True), useSelectedTaus = cms.bool(False) ) process.hpsPFTauProducer = cms.EDProducer("RecoTauPiZeroUnembedder", src = cms.InputTag("hpsPFTauProducerSansRefs") ) process.hpsPFTauProducerSansRefs = cms.EDProducer("RecoTauCleaner", cleaners = cms.VPSet( cms.PSet( name = cms.string('Charge'), nprongs = cms.vuint32(1, 3), passForCharge = cms.int32(1), plugin = cms.string('RecoTauChargeCleanerPlugin'), selectionFailValue = cms.double(0) ), cms.PSet( name = cms.string('HPS_Select'), plugin = cms.string('RecoTauDiscriminantCleanerPlugin'), src = cms.InputTag("hpsSelectionDiscriminator") ), 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()') ) ), src = cms.InputTag("combinatoricRecoTaus") ) process.hpsPFTauSecondaryVertexProducer = cms.EDProducer("PFTauSecondaryVertexProducer", PFTauTag = cms.InputTag("hpsPFTauProducer") ) process.hpsPFTauTransverseImpactParameters = cms.EDProducer("PFTauTransverseImpactParameters", PFTauPVATag = cms.InputTag("hpsPFTauPrimaryVertexProducer"), PFTauSVATag = cms.InputTag("hpsPFTauSecondaryVertexProducer"), PFTauTag = cms.InputTag("hpsPFTauProducer"), useFullCalculation = cms.bool(True) ) process.hpsSelectionDiscriminator = cms.EDProducer("PFRecoTauDiscriminationByHPSSelection", PFTauProducer = cms.InputTag("combinatoricRecoTaus"), 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(1.3, min(1.3*sqrt(pt/100.), 4.2))'), minMass = cms.double(0.3), 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(1.2, min(1.2*sqrt(pt/100.), 4.0))'), maxPi0Mass = cms.double(0.2), minMass = cms.double(0.4), minPi0Mass = cms.double(0.05), 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(False), phi = cms.bool(False) ), 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(False), phi = cms.bool(False) ), maxMass = cms.string('max(1.2, min(1.2*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(False), phi = cms.bool(False) ), maxMass = cms.string('1.5'), minMass = cms.double(0.8), 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(1), minTauPt = cms.double(0.0), requireTauChargedHadronsToBeChargedPFCands = cms.bool(False) ) process.hybridSuperClusters = cms.EDProducer("UnifiedSCCollectionProducer", bcCollection = cms.string('hybridBarrelBasicClusters'), bcCollectionUncleanOnly = cms.string('uncleanOnlyHybridBarrelBasicClusters'), cleanBcCollection = cms.InputTag("cleanedHybridSuperClusters","hybridBarrelBasicClusters"), cleanScCollection = cms.InputTag("cleanedHybridSuperClusters"), scCollection = cms.string(''), scCollectionUncleanOnly = cms.string('uncleanOnlyHybridSuperClusters'), uncleanBcCollection = cms.InputTag("uncleanedHybridSuperClusters","hybridBarrelBasicClusters"), uncleanScCollection = cms.InputTag("uncleanedHybridSuperClusters") ) process.ic5JetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("iterativeCone5CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.impactParameterMVABJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('impactParameterMVAComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.impactParameterTagInfos = 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("ak4JetTracksAssociatorAtVertexPF"), maximumChiSquared = cms.double(5.0), maximumLongitudinalImpactParameter = cms.double(17.0), maximumTransverseImpactParameter = cms.double(0.2), minimumNumberOfHits = cms.int32(8), minimumNumberOfPixelHits = cms.int32(2), minimumTransverseMomentum = cms.double(1.0), primaryVertex = cms.InputTag("offlinePrimaryVertices"), useTrackQuality = cms.bool(False) ) process.inOutConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('ckfInOutTracksFromConversions'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(True), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.inOutOldEGConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('ckfInOutTracksFromOldEGConversions'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(True), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.inOutOutInConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("inOutConversionTrackProducer"), TrackProducer2 = cms.InputTag("outInConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(3), arbitratedMergedEcalGeneralPreferCollection = cms.int32(3), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.inOutOutInOldEGConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("inOutOldEGConversionTrackProducer"), TrackProducer2 = cms.InputTag("outInOldEGConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(3), arbitratedMergedEcalGeneralPreferCollection = cms.int32(3), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.inclusiveCandidateSecondaryVertices = cms.EDProducer("CandidateVertexMerger", maxFraction = cms.double(0.2), minSignificance = cms.double(10.0), secondaryVertices = cms.InputTag("candidateVertexArbitrator") ) process.inclusiveCandidateSecondaryVerticesCvsL = cms.EDProducer("CandidateVertexMerger", maxFraction = cms.double(0.2), minSignificance = cms.double(10.0), secondaryVertices = cms.InputTag("candidateVertexArbitratorCvsL") ) process.inclusiveCandidateVertexFinder = cms.EDProducer("InclusiveCandidateVertexFinder", beamSpot = cms.InputTag("offlineBeamSpot"), clusterizer = cms.PSet( clusterMaxDistance = cms.double(0.05), clusterMaxSignificance = cms.double(4.5), clusterMinAngleCosine = cms.double(0.5), distanceRatio = cms.double(20), maxTimeSignificance = cms.double(3.5), seedMax3DIPSignificance = cms.double(9999), seedMax3DIPValue = cms.double(9999), seedMin3DIPSignificance = cms.double(1.2), seedMin3DIPValue = cms.double(0.005) ), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxNTracks = cms.uint32(30), maximumLongitudinalImpactParameter = cms.double(0.3), maximumTimeSignificance = cms.double(3), minHits = cms.uint32(999), minPt = cms.double(999.0), primaryVertices = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("particleFlow"), 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), seccut = cms.double(3), smoothing = cms.bool(True) ) ) process.inclusiveCandidateVertexFinderCvsL = cms.EDProducer("InclusiveCandidateVertexFinder", beamSpot = cms.InputTag("offlineBeamSpot"), clusterizer = cms.PSet( clusterMaxDistance = cms.double(0.05), clusterMaxSignificance = cms.double(4.5), clusterMinAngleCosine = cms.double(0.5), distanceRatio = cms.double(20), maxTimeSignificance = cms.double(3.5), seedMax3DIPSignificance = cms.double(9999), seedMax3DIPValue = cms.double(9999), seedMin3DIPSignificance = cms.double(1.2), seedMin3DIPValue = cms.double(0.005) ), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxNTracks = cms.uint32(30), maximumLongitudinalImpactParameter = cms.double(0.3), maximumTimeSignificance = cms.double(3), minHits = cms.uint32(999), minPt = cms.double(999.0), primaryVertices = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("particleFlow"), useDirectVertexFitter = cms.bool(True), useVertexReco = cms.bool(True), vertexMinAngleCosine = cms.double(0.95), vertexMinDLen2DSig = cms.double(1.25), vertexMinDLenSig = cms.double(0.25), vertexReco = cms.PSet( finder = cms.string('avr'), primcut = cms.double(1), seccut = cms.double(3), smoothing = cms.bool(True) ) ) process.inclusiveCandidateVertexFinderDefault = cms.EDProducer("InclusiveCandidateVertexFinder", beamSpot = cms.InputTag("offlineBeamSpot"), clusterizer = cms.PSet( clusterMaxDistance = cms.double(0.05), clusterMaxSignificance = cms.double(4.5), clusterMinAngleCosine = cms.double(0.5), distanceRatio = cms.double(20), maxTimeSignificance = cms.double(3.5), seedMax3DIPSignificance = cms.double(9999), seedMax3DIPValue = cms.double(9999), seedMin3DIPSignificance = cms.double(1.2), seedMin3DIPValue = cms.double(0.005) ), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxNTracks = cms.uint32(30), maximumLongitudinalImpactParameter = cms.double(0.3), maximumTimeSignificance = cms.double(3), minHits = cms.uint32(0), minPt = cms.double(0.8), primaryVertices = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("particleFlow"), 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), seccut = cms.double(3), smoothing = cms.bool(True) ) ) process.inclusiveSecondaryVertexFinderFilteredNegativeTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("bToCharmDecayVertexMerged"), extSVDeltaRToJet = cms.double(-0.4), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(True), usePVError = cms.bool(True), vertexCuts = cms.PSet( distSig2dMax = cms.double(-2.0), distSig2dMin = cms.double(-99999.9), distSig3dMax = cms.double(99999.9), distSig3dMin = cms.double(-99999.9), distVal2dMax = cms.double(-0.01), distVal2dMin = cms.double(-2.5), 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.inclusiveSecondaryVertexFinderFilteredTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("bToCharmDecayVertexMerged"), extSVDeltaRToJet = cms.double(0.4), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), 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.inclusiveSecondaryVertexFinderNegativeTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveSecondaryVertices"), extSVDeltaRToJet = cms.double(-0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(True), usePVError = cms.bool(True), vertexCuts = cms.PSet( distSig2dMax = cms.double(-2.0), distSig2dMin = cms.double(-99999.9), distSig3dMax = cms.double(99999.9), distSig3dMin = cms.double(-99999.9), distVal2dMax = cms.double(-0.01), distVal2dMin = cms.double(-2.5), 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.inclusiveSecondaryVertexFinderTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveSecondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), 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.inclusiveSecondaryVertices = cms.EDProducer("VertexMerger", maxFraction = cms.double(0.2), minSignificance = cms.double(10.0), secondaryVertices = cms.InputTag("trackVertexArbitrator") ) process.inclusiveVertexFinder = cms.EDProducer("InclusiveVertexFinder", beamSpot = cms.InputTag("offlineBeamSpot"), clusterizer = cms.PSet( clusterMaxDistance = cms.double(0.05), clusterMaxSignificance = cms.double(4.5), clusterMinAngleCosine = cms.double(0.5), distanceRatio = cms.double(20), maxTimeSignificance = cms.double(3.5), seedMax3DIPSignificance = cms.double(9999), seedMax3DIPValue = cms.double(9999), seedMin3DIPSignificance = cms.double(1.2), seedMin3DIPValue = cms.double(0.005) ), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxNTracks = cms.uint32(30), maximumLongitudinalImpactParameter = cms.double(0.3), maximumTimeSignificance = cms.double(3), minHits = cms.uint32(999), minPt = cms.double(999.0), primaryVertices = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), 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), seccut = cms.double(3), smoothing = cms.bool(True) ) ) process.inclusiveVertexFinderDefault = cms.EDProducer("InclusiveVertexFinder", beamSpot = cms.InputTag("offlineBeamSpot"), clusterizer = cms.PSet( clusterMaxDistance = cms.double(0.05), clusterMaxSignificance = cms.double(4.5), clusterMinAngleCosine = cms.double(0.5), distanceRatio = cms.double(20), maxTimeSignificance = cms.double(3.5), seedMax3DIPSignificance = cms.double(9999), seedMax3DIPValue = cms.double(9999), seedMin3DIPSignificance = cms.double(1.2), seedMin3DIPValue = cms.double(0.005) ), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxNTracks = cms.uint32(30), maximumLongitudinalImpactParameter = cms.double(0.3), maximumTimeSignificance = cms.double(3), minHits = cms.uint32(8), minPt = cms.double(0.8), primaryVertices = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), 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), seccut = cms.double(3), smoothing = cms.bool(True) ) ) process.initialStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorInitialStep_Phase1') ), qualityCuts = cms.vdouble(-0.9, -0.5, 0.2), src = cms.InputTag("initialStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.initialStepClassifier1 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter0_13TeV') ), qualityCuts = cms.vdouble(-0.9, -0.8, -0.7), src = cms.InputTag("initialStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.initialStepClassifier2 = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter3_13TeV') ), qualityCuts = cms.vdouble(-0.5, 0.0, 0.5), src = cms.InputTag("initialStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.initialStepClassifier3 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorLowPtTripletStep_Phase1') ), qualityCuts = cms.vdouble(-0.8, -0.4, 0.5), src = cms.InputTag("initialStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.initialStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1, 2), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("initialStepSeedLayers"), trackingRegions = cms.InputTag("initialStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.initialStepHitDoubletsPreSplitting = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheckPreSplitting"), layerPairs = cms.vuint32(0, 1, 2), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("initialStepSeedLayersPreSplitting"), trackingRegions = cms.InputTag("initialStepTrackingRegionsPreSplitting"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.initialStepHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0.2), CAThetaCut = cms.double(0.0012), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("initialStepHitDoublets"), 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), value1 = cms.double(200), value2 = cms.double(50) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_initialStepHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.initialStepHitQuadrupletsPreSplitting = cms.EDProducer("CAHitQuadrupletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0.2), CAThetaCut = cms.double(0.0012), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCachePreSplitting"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("initialStepHitDoubletsPreSplitting"), 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), value1 = cms.double(200), value2 = cms.double(50) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_initialStepHitDoubletsPreSplitting__RECO'), useBendingCorrection = cms.bool(True) ) process.initialStepHitTriplets = cms.EDProducer("PixelTripletHLTEDProducer", SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("initialStepHitDoublets"), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_initialStepHitDoublets__RECO'), 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.initialStepHitTripletsPreSplitting = cms.EDProducer("PixelTripletHLTEDProducer", SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCachePreSplitting"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("initialStepHitDoubletsPreSplitting"), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_initialStepHitDoubletsPreSplitting__RECO'), 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.initialStepSeedClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("pixelLessStepClusters"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("initialStepSeeds") ) process.initialStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle') ), 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.initialStepSeedLayersPreSplitting = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHitsPreSplitting'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHitsPreSplitting'), TTRHBuilder = cms.string('WithTrackAngle') ), 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.initialStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(False), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(False) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_initialStepHitQuadruplets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("initialStepHitQuadruplets") ) process.initialStepSeedsPreSplitting = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_initialStepHitQuadrupletsPreSplitting__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("initialStepHitQuadrupletsPreSplitting") ) process.initialStepSelector = cms.EDProducer("MultiTrackSelector", GBRForestLabel = cms.string('MVASelectorIter0'), beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("initialStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.55, 4.0), d0_par2 = cms.vdouble(0.55, 4.0), dz_par1 = cms.vdouble(0.65, 4.0), dz_par2 = cms.vdouble(0.45, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(0), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('initialStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('initialStepTight'), preFilterName = cms.string('initialStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('QualityMasks'), preFilterName = cms.string('initialStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useAnyMVA = cms.bool(False), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.initialStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("initialStepSeeds"), useHitsSplitting = cms.bool(True) ) process.initialStepTrackCandidatesPreSplitting = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEventPreSplitting"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('initialStepTrajectoryBuilderPreSplitting') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("initialStepSeedsPreSplitting"), useHitsSplitting = cms.bool(True) ) process.initialStepTrackRefsForJets = cms.EDProducer("ChargedRefCandidateProducer", particleType = cms.string('pi+'), src = cms.InputTag("initialStepTracks") ) process.initialStepTrackRefsForJetsPreSplitting = cms.EDProducer("ChargedRefCandidateProducer", particleType = cms.string('pi+'), src = cms.InputTag("initialStepTracksPreSplitting") ) process.initialStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionFromBeamSpotEDProducer", RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), nSigmaZ = cms.double(4), originHalfLength = cms.double(0), originRadius = cms.double(0.02), precise = cms.bool(True), ptMin = cms.double(0.5), useMultipleScattering = cms.bool(False) ) ) process.initialStepTrackingRegionsPreSplitting = cms.EDProducer("GlobalTrackingRegionFromBeamSpotEDProducer", RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), nSigmaZ = cms.double(4), originHalfLength = cms.double(0), originRadius = cms.double(0.02), precise = cms.bool(True), ptMin = cms.double(0.5), useMultipleScattering = cms.bool(False) ) ) process.initialStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('initialStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("initialStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.initialStepTracksPreSplitting = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('initialStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEventPreSplitting"), NavigationSchool = cms.string(''), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("initialStepTrackCandidatesPreSplitting"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.interestingEcalDetIdEB = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("hybridSuperClusters","hybridBarrelBasicClusters"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdEBU = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("hybridSuperClusters","uncleanOnlyHybridBarrelBasicClusters"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdEE = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("multi5x5SuperClusters","multi5x5EndcapBasicClusters"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdOOTPFEB = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowSuperClusterOOTECAL","particleFlowBasicClusterOOTECALBarrel"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdOOTPFEE = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowSuperClusterOOTECAL","particleFlowBasicClusterOOTECALEndcap"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdOOTPFES = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowSuperClusterOOTECAL","particleFlowBasicClusterOOTECALPreshower"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(False), keepNextToDead = cms.bool(False), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), severityLevel = cms.int32(-1) ) process.interestingEcalDetIdPFEB = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALBarrel"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdPFEE = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALEndcap"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdPFES = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALPreshower"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(False), keepNextToDead = cms.bool(False), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), severityLevel = cms.int32(-1) ) process.interestingEcalDetIdRefinedEB = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowEGamma","EBEEClusters"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdRefinedEE = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowEGamma","EBEEClusters"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), severityLevel = cms.int32(1) ) process.interestingEcalDetIdRefinedES = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("particleFlowEGamma","ESClusters"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(False), keepNextToDead = cms.bool(False), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), severityLevel = cms.int32(-1) ) process.interestingEleIsoDetId = cms.EDProducer("EleIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("gedGsfElectrons"), energyCut = cms.double(0.04), etCandCut = cms.double(0.0), etCut = cms.double(0), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB") ) process.interestingGamIsoDetId = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("photons"), energyCut = cms.double(0.04), etCandCut = cms.double(0.0), etCut = cms.double(0), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB") ) process.interestingGamIsoDetIdEB = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("photons"), energyCut = cms.double(0.095), etCandCut = cms.double(0.0), etCut = cms.double(0), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB") ) process.interestingGamIsoDetIdEE = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("photons"), energyCut = cms.double(0.0), etCandCut = cms.double(0.0), etCut = cms.double(0.11), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE") ) process.interestingGedEgammaIsoESDetId = cms.EDProducer("EgammaIsoESDetIdCollectionProducer", ecalPFClustersLabel = cms.InputTag("particleFlowClusterECALRemade"), eeClusToESMapLabel = cms.InputTag("particleFlowClusterECALRemade"), elesLabel = cms.InputTag("gedGsfElectrons"), interestingDetIdCollection = cms.string(''), maxDR = cms.double(0.4), minEleEt = cms.double(20), minPhoEt = cms.double(20), minSCEt = cms.double(500), phosLabel = cms.InputTag("gedPhotons"), superClustersLabel = cms.InputTag("particleFlowEGamma") ) process.interestingGedEgammaIsoHCALDetId = cms.EDProducer("EgammaIsoHcalDetIdCollectionProducer", elesLabel = cms.InputTag("gedGsfElectrons"), hitSelection = cms.PSet( maxDIEta = cms.int32(5), maxDIPhi = cms.int32(5), minEnergyHB = cms.double(0.8), minEnergyHEDefault = cms.double(0.2), minEnergyHEDepth1 = cms.double(0.1) ), interestingDetIdCollection = cms.string(''), minEleEt = cms.double(20), minPhoEt = cms.double(20), minSCEt = cms.double(20), phosLabel = cms.InputTag("gedPhotons"), recHitsLabel = cms.InputTag("hbhereco"), superClustersLabel = cms.InputTag("particleFlowEGamma") ) process.interestingGedEleIsoDetIdEB = cms.EDProducer("EleIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("gedGsfElectrons"), energyCut = cms.double(0.095), etCandCut = cms.double(0.0), etCut = cms.double(0), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB") ) process.interestingGedEleIsoDetIdEE = cms.EDProducer("EleIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("gedGsfElectrons"), energyCut = cms.double(0.0), etCandCut = cms.double(0.0), etCut = cms.double(0.11), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE") ) process.interestingGedGamIsoDetIdEB = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("gedPhotons"), energyCut = cms.double(0.095), etCandCut = cms.double(0.0), etCut = cms.double(0), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB") ) process.interestingGedGamIsoDetIdEE = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("gedPhotons"), energyCut = cms.double(0.0), etCandCut = cms.double(0.0), etCut = cms.double(0.11), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE") ) process.interestingOotEgammaIsoESDetId = cms.EDProducer("EgammaIsoESDetIdCollectionProducer", ecalPFClustersLabel = cms.InputTag("particleFlowClusterOOTECAL"), eeClusToESMapLabel = cms.InputTag("particleFlowClusterOOTECAL"), elesLabel = cms.InputTag(""), interestingDetIdCollection = cms.string(''), maxDR = cms.double(0.4), minEleEt = cms.double(20), minPhoEt = cms.double(20), minSCEt = cms.double(500), phosLabel = cms.InputTag("ootPhotons"), superClustersLabel = cms.InputTag("") ) process.interestingOotEgammaIsoHCALDetId = cms.EDProducer("EgammaIsoHcalDetIdCollectionProducer", elesLabel = cms.InputTag(""), hitSelection = cms.PSet( maxDIEta = cms.int32(5), maxDIPhi = cms.int32(5), minEnergyHB = cms.double(0.8), minEnergyHEDefault = cms.double(0.2), minEnergyHEDepth1 = cms.double(0.1) ), interestingDetIdCollection = cms.string(''), minEleEt = cms.double(20), minPhoEt = cms.double(20), minSCEt = cms.double(20), phosLabel = cms.InputTag("ootPhotons"), recHitsLabel = cms.InputTag("hbhereco"), superClustersLabel = cms.InputTag("") ) process.interestingOotGamIsoDetIdEB = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("ootPhotons"), energyCut = cms.double(0.095), etCandCut = cms.double(0.0), etCut = cms.double(0), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB") ) process.interestingOotGamIsoDetIdEE = cms.EDProducer("GamIsoDetIdCollectionProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), emObjectLabel = cms.InputTag("ootPhotons"), energyCut = cms.double(0.0), etCandCut = cms.double(0.0), etCut = cms.double(0.11), innerRadius = cms.double(0.0), interestingDetIdCollection = cms.string(''), outerRadius = cms.double(0.6), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE") ) process.interestingTrackEcalDetIds = cms.EDProducer("InterestingTrackEcalDetIdProducer", MinTrackPt = cms.double(50.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackCollection = cms.InputTag("generalTracks") ) process.islandBasicClusters = 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('islandBarrelBasicClusters'), barrelHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), barrelShapeAssociation = cms.string('islandBarrelShapeAssoc'), clustershapecollectionEB = cms.string('islandBarrelShape'), clustershapecollectionEE = cms.string('islandEndcapShape'), endcapClusterCollection = cms.string('islandEndcapBasicClusters'), endcapHits = cms.InputTag("ecalRecHit","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.islandPhotonCore = cms.EDProducer("PhotonCoreProducer", conversionProducer = cms.InputTag(""), minSCEt = cms.double(8.0), photonCoreCollection = cms.string(''), pixelSeedProducer = cms.InputTag("electronMergedSeeds"), risolveConversionAmbiguity = cms.bool(True), scHybridBarrelProducer = cms.InputTag("correctedIslandBarrelSuperClusters"), scIslandEndcapProducer = cms.InputTag("correctedIslandEndcapSuperClusters") ) process.islandPhotons = cms.EDProducer("PhotonProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromEcalEnergy'), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.99), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(10.0), minR9Endcap = cms.double(10.0), minSCEtBarrel = cms.double(5.0), minSCEtEndcap = cms.double(15.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), photonCoreProducer = cms.InputTag("islandPhotonCore"), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True) ) process.islandSuperClusters = cms.EDProducer("HiSuperClusterProducer", VerbosityLevel = cms.string('ERROR'), barrelBCEnergyThreshold = cms.double(0), barrelClusterCollection = cms.string('islandBarrelBasicClusters'), barrelClusterProducer = cms.string('islandBasicClusters'), barrelEtaSearchRoad = cms.double(0.07), barrelPhiSearchRoad = cms.double(0.8), barrelSuperclusterCollection = cms.string('islandBarrelSuperClusters'), doBarrel = cms.bool(True), doEndcaps = cms.bool(True), endcapBCEnergyThreshold = cms.double(0), endcapClusterCollection = cms.string('islandEndcapBasicClusters'), endcapClusterProducer = cms.string('islandBasicClusters'), endcapEtaSearchRoad = cms.double(0.14), endcapPhiSearchRoad = cms.double(0.6), endcapSuperclusterCollection = cms.string('islandEndcapSuperClusters'), seedTransverseEnergyThreshold = cms.double(1.0) ) process.iterativeCone5JetExtender = cms.EDProducer("JetExtender", coneSize = cms.double(0.5), jet2TracksAtCALO = cms.InputTag("iterativeCone5JetTracksAssociatorAtCaloFace"), jet2TracksAtVX = cms.InputTag("iterativeCone5JetTracksAssociatorAtVertex"), jets = cms.InputTag("iterativeCone5CaloJets") ) process.iterativeCone5JetTracksAssociatorAtCaloFace = cms.EDProducer("JetTracksAssociatorAtCaloFace", coneSize = cms.double(0.4), extrapolations = cms.InputTag("trackExtrapolator"), jets = cms.InputTag("iterativeCone5CaloJets"), trackQuality = cms.string('goodIterative'), tracks = cms.InputTag("generalTracks") ) process.iterativeCone5JetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("iterativeCone5CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.jetBProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('jetBProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.jetCoreClusterSplitter = cms.EDProducer("JetCoreClusterSplitter", centralMIPCharge = cms.double(26000), chargeFractionMin = cms.double(2.0), chargePerUnit = cms.double(2000), cores = cms.InputTag("ak5CaloJets"), deltaRmax = cms.double(0.05), forceXError = cms.double(100), forceYError = cms.double(150), fractionalWidth = cms.double(0.4), pixelCPE = cms.string('PixelCPEGeneric'), pixelClusters = cms.InputTag("siPixelCluster"), ptMin = cms.double(200), verbose = cms.bool(False), vertices = cms.InputTag("offlinePrimaryVertices") ) process.jetCoreRegionalStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorJetCoreRegionalStep_Phase1') ), qualityCuts = cms.vdouble(-0.2, 0.0, 0.4), src = cms.InputTag("jetCoreRegionalStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.jetCoreRegionalStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(1000000), produceIntermediateHitDoublets = cms.bool(False), produceSeedingHitSets = cms.bool(True), seedingLayers = cms.InputTag("jetCoreRegionalStepSeedLayers"), trackingRegions = cms.InputTag("jetCoreRegionalStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.jetCoreRegionalStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), hitErrorRPhi = cms.double(0.0027), hitErrorRZ = cms.double(0.006), useErrorsFromParam = cms.bool(True) ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), hitErrorRPhi = cms.double(0.0051), hitErrorRZ = cms.double(0.0036), useErrorsFromParam = cms.bool(True) ), TIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit") ), layerList = cms.vstring( 'BPix1+BPix2', 'BPix1+BPix3', 'BPix1+BPix4', 'BPix2+BPix3', 'BPix2+BPix4', 'BPix3+BPix4', 'BPix1+FPix1_pos', 'BPix1+FPix1_neg', 'BPix2+FPix1_pos', 'BPix2+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', 'BPix4+TIB1', 'BPix4+TIB2' ) ) process.jetCoreRegionalStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(True), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_jetCoreRegionalStepHitDoublets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("jetCoreRegionalStepHitDoublets") ) process.jetCoreRegionalStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('jetCoreRegionalStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(10000), reverseTrajectories = cms.bool(False), src = cms.InputTag("jetCoreRegionalStepSeeds"), useHitsSplitting = cms.bool(True) ) process.jetCoreRegionalStepTrackingRegions = cms.EDProducer("TauRegionalPixelSeedTrackingRegionEDProducer", RegionPSet = cms.PSet( JetSrc = cms.InputTag("jetsForCoreTracking"), deltaEtaRegion = cms.double(0.2), deltaPhiRegion = cms.double(0.2), howToUseMeasurementTracker = cms.string('Never'), measurementTrackerName = cms.InputTag("MeasurementTrackerEvent"), originHalfLength = cms.double(0.2), originRadius = cms.double(0.2), ptMin = cms.double(10), searchOpt = cms.bool(False), vertexSrc = cms.InputTag("firstStepGoodPrimaryVertices") ) ) process.jetCoreRegionalStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('jetCoreRegionalStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("jetCoreRegionalStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.jetProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('jetProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.kinematicFilter = cms.EDProducer("PixelTrackFilterByKinematicsProducer", chi2 = cms.double(1000), nSigmaInvPtTolerance = cms.double(0), nSigmaTipMaxTolerance = cms.double(0), ptMin = cms.double(0.7), tipMax = cms.double(1) ) process.kt4JetExtender = cms.EDProducer("JetExtender", coneSize = cms.double(0.5), jet2TracksAtCALO = cms.InputTag("kt4JetTracksAssociatorAtCaloFace"), jet2TracksAtVX = cms.InputTag("kt4JetTracksAssociatorAtVertex"), jets = cms.InputTag("kt4CaloJets") ) process.kt4JetTracksAssociatorAtCaloFace = cms.EDProducer("JetTracksAssociatorAtCaloFace", coneSize = cms.double(0.4), extrapolations = cms.InputTag("trackExtrapolator"), jets = cms.InputTag("kt4CaloJets"), trackQuality = cms.string('goodIterative'), tracks = cms.InputTag("generalTracks") ) process.kt4JetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("kt4CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.kt4PFJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('Kt'), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.4), src = cms.InputTag("particleFlow"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.kt4PFJetsForRho = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.005), Ghost_EtaMax = cms.double(6.5), Rho_EtaMax = cms.double(4.5), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doFastJetNonUniform = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(True), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('Kt'), jetPtMin = cms.double(0.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), nExclude = cms.uint32(2), puCenters = cms.vdouble( -5, -4, -3, -2, -1, 0, 1, 2, 3, 4, 5 ), puWidth = cms.double(0.8), rParam = cms.double(0.4), src = cms.InputTag("particleFlow"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.kt6PFJets = cms.EDProducer("FastjetJetProducer", Active_Area_Repeats = cms.int32(1), GhostArea = cms.double(0.01), Ghost_EtaMax = cms.double(5.0), Rho_EtaMax = cms.double(4.4), doAreaDiskApprox = cms.bool(False), doAreaFastjet = cms.bool(True), doPUOffsetCorr = cms.bool(False), doPVCorrection = cms.bool(False), doRhoFastjet = cms.bool(False), inputEMin = cms.double(0.0), inputEtMin = cms.double(0.0), jetAlgorithm = cms.string('Kt'), jetPtMin = cms.double(5.0), jetType = cms.string('PFJet'), maxBadEcalCells = cms.uint32(9999999), maxBadHcalCells = cms.uint32(9999999), maxProblematicEcalCells = cms.uint32(9999999), maxProblematicHcalCells = cms.uint32(9999999), maxRecoveredEcalCells = cms.uint32(9999999), maxRecoveredHcalCells = cms.uint32(9999999), minSeed = cms.uint32(14327), rParam = cms.double(0.6), src = cms.InputTag("particleFlow"), srcPVs = cms.InputTag(""), useDeterministicSeed = cms.bool(True), voronoiRfact = cms.double(-0.9) ) process.l1GtRecord = cms.EDProducer("L1GlobalTriggerRecordProducer", L1GtReadoutRecordTag = cms.InputTag("gtDigis") ) process.l1GtTriggerMenuLite = cms.EDProducer("L1GtTriggerMenuLiteProducer") process.l1L1GtObjectMap = cms.EDProducer("ConvertObjectMapRecord", L1GtObjectMapTag = cms.InputTag("hltL1GtObjectMap") ) process.l1extraParticles = cms.EDProducer("L1ExtraParticlesProd", centralBxOnly = cms.bool(True), centralJetSource = cms.InputTag("caloStage1LegacyFormatDigis","cenJets"), etHadSource = cms.InputTag("caloStage1LegacyFormatDigis"), etMissSource = cms.InputTag("caloStage1LegacyFormatDigis"), etTotalSource = cms.InputTag("caloStage1LegacyFormatDigis"), forwardJetSource = cms.InputTag("caloStage1LegacyFormatDigis","forJets"), hfRingBitCountsSource = cms.InputTag("caloStage1LegacyFormatDigis"), hfRingEtSumsSource = cms.InputTag("caloStage1LegacyFormatDigis"), htMissSource = cms.InputTag("caloStage1LegacyFormatDigis"), ignoreHtMiss = cms.bool(False), isoTauJetSource = cms.InputTag("caloStage1LegacyFormatDigis","isoTauJets"), isolatedEmSource = cms.InputTag("caloStage1LegacyFormatDigis","isoEm"), muonSource = cms.InputTag("gtDigis"), nonIsolatedEmSource = cms.InputTag("caloStage1LegacyFormatDigis","nonIsoEm"), produceCaloParticles = cms.bool(True), produceMuonParticles = cms.bool(True), tauJetSource = cms.InputTag("caloStage1LegacyFormatDigis","tauJets") ) process.logErrorHarvester = cms.EDProducer("LogErrorHarvester", excludeModules = cms.untracked.vstring( ( 'siPixelClusters', 'pixelLessStepSeeds', 'gedElPFIsoDepositCharged', 'ecalMultiFitUncalibRecHit', 'hiConformalPixelTracksPhase1HitDoubletsCA', 'duplicateDisplacedTrackClassifier', 'muPFSumDRIsoValueCharged03', 'tobTecStepSeedsTripl', 'hbheprereco', 'tripletElectronHitDoublets', 'pixelLessStepClusters', 'convStepTracks', 'duplicateTrackClassifier', 'lowPtTripletStepSeeds', 'muPFSumDRIsoValueNeutral04', 'firstStepGoodPrimaryVertices', 'siPixelClustersPreSplitting', 'trackRefsForJetsBeforeSorting', 'muonEcalDetIds', 'tripletElectronSeeds', 'initialStepTrackCandidatesPreSplitting', 'pfAllNeutralHadrons', 'interestingEcalDetIdEBU', 'cosmicDCTracks', 'pixelPairElectronSeeds', 'interestingEcalDetIdPFEE', 'interestingEcalDetIdPFEB', 'interestingEcalDetIdPFES', 'gedElPFIsoValueNeutral03', 'muPFSumDRIsoValueGammaHighThreshold03', 'muPFSumDRIsoValueGammaHighThreshold04', 'MeasurementTrackerEvent', 'lowPtQuadStepTrackingRegions', 'ootPhotonEcalPFClusterIsolationProducer', 'muPFMeanDRIsoValueCharged04', 'detachedQuadStepTracks', 'tobTecStep', 'muPFMeanDRIsoValueNeutralHighThreshold03', 'muPFMeanDRIsoValueNeutralHighThreshold04', 'hiConformalPixelTracksPhase1SeedLayers', 'pixelLessStepTrackingRegions', 'electronCkfTrackCandidates', 'uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower', 'detachedTripletStepTrackCandidates', 'particleFlowDisplacedVertexCandidate', 'muonSeededTracksOutInClassifier', 'uncleanedOnlyInOutOutInConversionTrackMerger', 'pixelLessStepHitTriplets', 'gedElPFIsoDepositChargedAll', 'pfDeepCMVATagInfos', 'initialStepClassifier1', 'pixelPairStepClusters', 'pixelPairElectronHitDoublets', 'pixelPairStepTrackingRegionsSeedLayersB', 'detachedQuadStepSeedLayers', 'muidTMLastStationAngTight', 'muonSeededTracksOutInDisplacedClassifier', 'detachedTripletStepSeedLayers', 'initialStepTrackingRegions', 'convStepSelector', 'vertexMerger', 'muonShowerInformation', 'initialStepTrackingRegionsPreSplitting', 'dedxTruncated40', 'hiConformalPixelTracksPhase1TrackingRegions', 'highPtTripletStepTrackCandidates', 'muidTMLastStationAngLoose', 'islandSuperClusters', 'pfNoPileUpCandidates', 'siPixelClusterShapeCache', 'lowPtQuadStepSeeds', 'uncleanedOnlyCorrectedHybridSuperClusters', 'jetCoreRegionalStepTrackingRegions', 'hfprereco', 'pfV0', 'lowPtQuadStepClusters', 'initialStepHitDoublets', 'trackerClusterCheckPreSplitting', 'mixedTripletStepTracks', 'pfAllPhotons', 'particleBasedIsolationTmp', 'tobTecStepClusters', 'dt1DRecHits', 'ecalTPSkim', 'siPixelRecHitsPreSplitting', 'tobTecStepTrackCandidates', 'conversionTrackCandidates', 'lowPtTripletStepHitTriplets', 'lowPtTripletStepTrackingRegions', 'detachedTripletStepHitDoublets', 'ancientMuonSeed', 'tobTecStepSeedLayersPair', 'pixelPairElectronTrackingRegions', 'detachedQuadStepTrackingRegions', 'caloTowerForTrkPreSplitting', 'tripletElectronHitTriplets', 'muonSeededTrackCandidatesOutIn', 'siPixelRecHits', 'ak4PFL1FastjetCorrector', 'detachedQuadStepSeeds', 'firstStepPrimaryVerticesPreSplitting', 'lowPtTripletStep', 'multi5x5BasicClustersUncleaned', 'gedElPFIsoValueGamma03', 'pfTrack', 'muPFIsoDepositCharged', 'ak4PFL1FastL2L3Corrector', 'muidTMOneStationTight', 'conversionStepConversionTrackProducer', 'muPFSumDRIsoValueChargedAll04', 'initialStepSeedClusterMask', 'particleFlowBadHcalPseudoCluster', 'gsfConversionTrackProducer', 'uncleanedOnlyGeneralConversionTrackProducer', 'pixelLessStepClassifier2', 'pixelLessStepClassifier1', 'lowPtTripletStepTrackCandidates', 'PFTowers', 'candidateVertexArbitrator', 'initialStepHitDoubletsPreSplitting', 'cosmicDCCkfTrackCandidates', 'gedPhotonsTmp', 'tripletElectronSeedLayers', 'ecalCompactTrigPrim', 'particleFlowClusterHBHE', 'uncleanedOnlyPfConversions', 'pfDisplacedTrackerVertex', 'firstStepPrimaryVertices', 'muidTM2DCompatibilityLoose', 'egmGedGsfElectronPFPileUpIsolation', 'outInConversionTrackProducer', 'dt1DCosmicRecHits', 'unsortedOfflinePrimaryVertices', 'inOutConversionTrackProducer', 'mixedTripletStepSeeds', 'inclusiveVertexFinder', 'pixelPairStepSeeds', 'interestingEcalDetIdRefinedES', 'pfSecondaryVertexTagInfos', 'ak4PFL2RelativeCorrector', 'hiConformalPixelTracksPhase1Filter', 'pixelLessStepHitDoublets', 'softPFElectronsTagInfos', 'particleFlowBlock', 'ak4PFL3AbsoluteCorrector', 'muidGMTkKinkTight', 'uncleanedOnlyGeneralInOutOutInConversionTrackMerger', 'islandBasicClusters', 'mixedTripletStepTrackingRegionsB', 'muidTMLastStationOptimizedLowPtTight', 'pfPileUpIso', 'muons1stStep', 'CosmicMuonSeed', 'muIsoDepositJets', 'pfImpactParameterTagInfos', 'muIsoDepositTk', 'cosmicDCSeeds', 'mixedTripletStepClassifier2', 'generalInOutOutInConversionTrackMerger', 'trackWithVertexRefSelectorBeforeSorting', 'ak4JetTracksAssociatorAtCaloFace', 'interestingEcalDetIdRefinedEB', 'jetCoreRegionalStepTracks', 'pfInclusiveSecondaryVertexFinderCvsLTagInfos', 'initialStepSeedLayers', 'muPFIsoDepositGamma', 'pixelLessStepSeedClusterMask', 'ecalRecHit', 'initialStepHitQuadruplets', 'hiConformalPixelTracksPhase1HitQuadrupletsCA', 'lowPtQuadStepSeedLayers', 'pixelPairStepTrackCandidates', 'hbhereco', 'jetsForCoreTrackingPreSplitting', 'pfInclusiveSecondaryVertexFinderTagInfos', 'pfAllChargedHadrons', 'siStripClusters', 'lowPtQuadStepHitQuadruplets', 'tobTecStepHitDoubletsTripl', 'muonSeededSeedsInOut', 'pfNoPileUpIso', 'caloTowerForTrk', 'cleanedHybridSuperClusters', 'interestingTrackEcalDetIds', 'pfPileUpAllChargedParticles', 'muidAllArbitrated', 'jetCoreRegionalStepSeedLayers', 'tobTecStepHitDoubletsPair', 'muPFIsoValueChargedAll04', 'muPFIsoValueChargedAll03', 'initialStepTracksPreSplitting', 'mixedTripletStepTrackCandidates', 'particleFlowForChargedMET', 'tobTecStepTracks', 'cosmicsVetoTracksRaw', 'highPtTripletStepSeeds', 'uncleanedOnlyConversionTrackCandidates', 'muPFIsoDepositNeutral', 'earlyMuons', 'electronMergedSeeds', 'initialStep', 'rpcNewRecHits', 'egmElectronIsolationCITK', 'uncleanedOnlyElectronGsfTracks', 'preDuplicateMergingDisplacedTracks', 'EcalHaloData', 'pfNoPileUpJMEHI', 'newCombinedSeeds', 'mixedTripletStepClassifier1', 'gsfGeneralInOutOutInConversionTrackMerger', 'interestingGedEgammaIsoHCALDetId', 'interestingGedEleIsoDetIdEB', 'MeasurementTrackerEventPreSplitting', 'muPFSumDRIsoValueNeutral03', 'highPtTripletStepTracks', 'mergedDuplicateDisplacedTracks', 'horeco', 'multi5x5SuperClustersCleaned', 'lowPtTripletStepClusters', 'duplicateDisplacedTrackCandidates', 'candidateVertexMergerCvsL', 'lowPtTripletStepTracks', 'photonHcalPFClusterIsolationProducer', 'uncleanedOnlyInOutConversionTrackProducer', 'muPFMeanDRIsoValueCharged03', 'interestingEcalDetIdEB', 'interestingEcalDetIdEE', 'ecalDetIdToBeRecovered', 'gedElPFIsoValueCharged03', 'lowPtQuadStepHitDoublets', 'interestingGedEgammaIsoESDetId', 'ak4PFCHSL1FastL2L3Corrector', 'candidateVertexMerger', 'muidTMOneStationLoose', 'mergedDuplicateTracks', 'inclusiveCandidateVertexFinder', 'muPFSumDRIsoValueChargedAll03', 'initialStepSeedsPreSplitting', 'egmElectronIsolationPileUpCITK', 'mixedTripletStepSeedsA', 'mixedTripletStep', 'softPFMuonsTagInfos', 'mixedTripletStepSeedsB', 'muidRPCMuLoose', 'muPFSumDRIsoValueGamma03', 'muPFSumDRIsoValueGamma04', 'particleFlowClusterECALUncorrected', 'mixedTripletStepTrackingRegionsA', 'photonEcalPFClusterIsolationProducer', 'preDuplicateMergingGeneralTracks', 'HcalHaloData', 'photonConvTrajSeedFromSingleLeg', 'pixelPairStepSeedLayers', 'muPFSumDRIsoValueNeutralHighThreshold03', 'muPFSumDRIsoValueNeutralHighThreshold04', 'pixelLessStepTracks', 'pfAllChargedParticles', 'particleFlowDisplacedVertex', 'highPtTripletStepClusters', 'convLayerPairs', 'pfGhostTrackVertexTagInfos', 'detachedTripletStepTrackingRegions', 'detachedTripletStepClassifier2', 'detachedTripletStepClassifier1', 'earlyGeneralTracks', 'inclusiveCandidateVertexFinderCvsL', 'muPFIsoValueGammaHighThreshold03', 'ak4PFCHSL2RelativeCorrector', 'mvaElectrons', 'detachedQuadStepClusters', 'muPFIsoValueGammaHighThreshold04', 'stripPairElectronSeeds', 'tobTecStepSeeds', 'muPFIsoValueNeutralHighThreshold04', 'muPFIsoValueNeutralHighThreshold03', 'lowPtQuadStep', 'gedElPFIsoValueChargedAll03', 'ak4PFCHSL3AbsoluteCorrector', 'electronEcalPFClusterIsolationProducer', 'detachedTripletStepSeedClusterMask', 'detachedTripletStepTracks', 'stripPairElectronTrackingRegions', 'muidGMStaChiCompatibility', 'muPFMeanDRIsoValueGammaHighThreshold04', 'earlyDisplacedMuons', 'muPFMeanDRIsoValueGammaHighThreshold03', 'interestingEcalDetIdRefinedEE', 'tripletElectronTrackingRegions', 'duplicateTrackCandidates', 'gedElPFIsoValuePU03', 'interestingGedGamIsoDetIdEE', 'interestingGedGamIsoDetIdEB', 'jetCoreRegionalStepHitDoublets', 'tobTecStepSeedLayersTripl', 'muidTrackerMuonArbitrated', 'cosmicsVetoTrackCandidates', 'muPFSumDRIsoValuePU03', 'chargeCut2069Clusters', 'cosmicsVetoTracks', 'uncleanedOnlyPfTrack', 'muPFIsoDepositPU', 'pixelPairStepHitDoubletsB', 'pfPileUp', 'jetCoreRegionalStepSeeds', 'bunchSpacingProducer', 'egmPhotonIsolationCITK', 'lowPtQuadStepTracks', 'ecalDrivenGsfElectronCores', 'ecalPreshowerRecHit', 'mixedTripletStepSeedClusterMask', 'cosmicsVeto', 'highPtTripletStepTrackingRegions', 'detachedQuadStepHitDoublets', 'pfAllNeutralHadronsAndPhotons', 'muidTMLastStationOptimizedLowPtLoose', 'muonSeededSeedsOutInDisplaced', 'ak4PFCHSL1FastjetCorrector', 'muidTMOneStationAngLoose', 'electronHcalPFClusterIsolationProducer', 'initialStepTracks', 'mixedTripletStepHitTripletsA', 'mixedTripletStepHitTripletsB', 'uncleanedOnlyGsfConversionTrackProducer', 'gedElPFIsoDepositPU', 'pixelPairElectronSeedLayers', 'initialStepSeedLayersPreSplitting', 'pixelPairStepTrackingRegions', 'trackerClusterCheck', 'csc2DRecHits', 'muPFIsoDepositChargedAll', 'uncleanedHybridSuperClusters', 'detachedQuadStepHitQuadruplets', 'multi5x5BasicClustersCleaned', 'jetCoreRegionalStep', 'pixelPairStep', 'ak4CaloJetsForTrk', 'muidGMTkChiCompatibility', 'pixelLessStepTrackCandidates', 'candidateVertexArbitratorCvsL', 'firstStepPrimaryVerticesUnsorted', 'glbTrackQual', 'muonSeededSeedsOutIn', 'muidTMLastStationTight', 'uncleanedOnlyPfTrackElec', 'muonSeededTracksOutInDisplaced', 'uncleanedOnlyElectronSeeds', 'muPFIsoValueNeutral04', 'muPFIsoValueNeutral03', 'detachedTripletStepHitTriplets', 'lowPtTripletStepSeedLayers', 'tripletElectronClusterMask', 'muonSeededTrackCandidatesInOut', 'jetsForCoreTracking', 'muonSeededTracksInOut', 'convTrackCandidates', 'muPFIsoValueCharged04', 'muPFIsoValueCharged03', 'muPFMeanDRIsoValueGamma03', 'gedElPFIsoDepositNeutral', 'muPFMeanDRIsoValueGamma04', 'highPtTripletStepHitDoublets', 'gedGsfElectronsTmp', 'muonSeededTracksOutIn', 'displacedMuonSeeds', 'detachedTripletStep', 'muidTMOneStationAngTight', 'pfConversions', 'pixelLessStep', 'mixedTripletStepClusters', 'detachedTripletStepSeeds', 'pixelLessStepSeedLayers', 'inOutOutInConversionTrackMerger', 'cosmicsVetoSeeds', 'pfNoPileUp', 'pfDeepCSVTagInfos', 'uncleanedOnlyElectronCkfTrackCandidates', 'gedElPFIsoDepositGamma', 'siStripZeroSuppression', 'pixelPairStepTracks', 'trackVertexArbitrator', 'electronsWithPresel', 'pfTrackElec', 'lowPtQuadStepTrackCandidates', 'tobTecStepTrackingRegionsTripl', 'mixedTripletStepSeedLayersB', 'mixedTripletStepSeedLayersA', 'lowPtTripletStepHitDoublets', 'muPFIsoValuePU04', 'initialStepTrackRefsForJetsPreSplitting', 'tobTecStepTrackingRegionsPair', 'ak4CaloJetsForTrkPreSplitting', 'stripPairElectronSeedLayers', 'stripPairElectronHitDoublets', 'ecalDrivenElectronSeeds', 'siStripMatchedRecHits', 'multi5x5SuperClustersUncleaned', 'highPtTripletStepHitTriplets', 'initialStepSeeds', 'muonSeededTracksInOutClassifier', 'muPFMeanDRIsoValuePU03', 'muPFMeanDRIsoValuePU04', 'interestingGamIsoDetIdEB', 'interestingGamIsoDetIdEE', 'ecalDrivenGsfElectrons', 'muPFMeanDRIsoValueNeutral04', 'muPFMeanDRIsoValueNeutral03', 'mixedTripletStepHitDoubletsA', 'mixedTripletStepHitDoubletsB', 'tobTecStepSeedsPair', 'muPFIsoValueGamma04', 'muPFIsoValueGamma03', 'logErrorHarvester', 'uncleanedOnlyGsfGeneralInOutOutInConversionTrackMerger', 'towerMakerWithHO', 'initialStepTrackCandidates', 'uncleanedOnlyMulti5x5SuperClustersWithPreshower', 'muPFSumDRIsoValuePU04', 'muidGlobalMuonPromptTight', 'hfreco', 'uncleanedOnlyOutInConversionTrackProducer', 'jetCoreRegionalStepTrackCandidates', 'detachedQuadStep', 'ootPhotonHcalPFClusterIsolationProducer', 'interestingGedEleIsoDetIdEE', 'dedxPixelAndStripHarmonic2T085', 'generalConversionStepConversionTrackMerger', 'siPixelClusterShapeCachePreSplitting', 'generalConversionTrackProducer', 'initialStepTrackRefsForJets', 'tobTecStepHitTripletsTripl', 'convClusters', 'muIsoDepositCalByAssociatorTowers', 'detachedQuadStepTrackCandidates', 'muidTM2DCompatibilityTight', 'pixelFitterByConformalMappingAndLine', 'highPtTripletStepSeedLayers', 'initialStepHitQuadrupletsPreSplitting', 'muPFIsoValuePU03', 'muonSeededTrackCandidatesOutInDisplaced', 'detachedTripletStepClusters', 'tobTecStepClassifier1', 'egmGedGsfElectronPFNoPileUpIsolation', 'tobTecStepClassifier2', 'highPtTripletStep', 'muidTMLastStationLoose', 'muPFSumDRIsoValueCharged04', 'muPFMeanDRIsoValueChargedAll04', 'muPFMeanDRIsoValueChargedAll03', 'elPFIsoDepositNeutral', 'lowPtTripletStepHitDoublets', 'hiConformalPixelTracksHitDoublets', 'phPFIsoDepositChargedAll', 'mixedTripletStepHitDoubletsA', 'initialStepHitDoublets', 'initialStepHitQuadruplets', 'tobTecStepHitDoubletsPair', 'pixelTracksHitDoublets', 'tripletElectronHitDoublets', 'lowPtQuadStepHitDoublets', 'gedElPFIsoDepositCharged', 'muPFIsoDepositCharged', 'elPFIsoDepositPU', 'highPtTripletStepHitDoublets', 'tobTecStepHitTripletsTripl', 'elPFIsoDepositChargedAll', 'elEDIsoDepositChargedAll', 'elEDIsoDepositNeutral', 'elEDIsoDepositPU', 'muPFIsoDepositNeutral', 'muPFIsoDepositPU', 'pixelPairStepHitDoubletsB', 'pixelLessStepHitDoublets', 'hiConformalPixelTracksHitTriplets', 'pixelTracksHitQuadruplets', 'gedElPFIsoDepositGamma', 'initialStepHitDoubletsPreSplitting', 'elEDIsoDepositCharged', 'initialStepHitTriplets', 'phPFIsoDepositCharged', 'muPFIsoDepositGamma', 'gedElPFIsoDepositPU', 'tripletElectronHitTriplets', 'detachedQuadStepHitDoublets', 'phPFIsoDepositPU', 'elPFIsoDepositGamma', 'pixelTracksHitTriplets', 'muPFIsoDepositChargedAll', 'tobTecStepHitTripletsTripl', 'elPFIsoDepositCharged', 'mixedTripletStepHitTripletsA', 'hiConformalPixelTracksPhase1HitQuadrupletsCA', 'tobTecStepHitDoubletsTripl', 'detachedTripletStepHitTriplets', 'pixelLessStepHitTriplets', 'gedElPFIsoDepositNeutral', 'lowPtTripletStepHitTriplets', 'mixedTripletStepHitDoubletsB', 'mixedTripletStepHitTripletsB', 'initialStepHitTripletsPreSplitting', 'stripPairElectronHitDoublets', 'phPFIsoDepositNeutral', 'pixelPairElectronHitDoublets', 'elEDIsoDepositGamma', 'pixelLessStepHitTriplets', 'initialStepHitQuadrupletsPreSplitting', 'jetCoreRegionalStepHitDoublets', 'gedElPFIsoDepositChargedAll', 'phPFIsoDepositGamma', 'hiConformalPixelTracksPhase1HitDoubletsCA', 'pixelPairStepHitDoublets', 'detachedQuadStepHitQuadruplets', 'lowPtQuadStepHitQuadruplets', 'highPtTripletStepHitTriplets', 'detachedTripletStepHitDoublets' ) ), includeModules = cms.untracked.vstring( ( 'siPixelClusters', 'pixelLessStepSeeds', 'gedElPFIsoDepositCharged', 'ecalMultiFitUncalibRecHit', 'hiConformalPixelTracksPhase1HitDoubletsCA', 'duplicateDisplacedTrackClassifier', 'muPFSumDRIsoValueCharged03', 'correctedHybridSuperClusters', 'tobTecStepSeedsTripl', 'hbheprereco', 'caloTowers', 'particleFlowSuperClusterECAL', 'uncleanedOnlyAllConversions', 'tripletElectronHitDoublets', 'pixelLessStepClusters', 'convStepTracks', 'duplicateTrackClassifier', 'caloMetM', 'inclusiveCandidateSecondaryVerticesCvsL', 'pfGhostTrackVertexTagInfos', 'zdcreco', 'lowPtTripletStepSeeds', 'muPFSumDRIsoValueNeutral04', 'firstStepGoodPrimaryVertices', 'siPixelClustersPreSplitting', 'trackRefsForJetsBeforeSorting', 'muonEcalDetIds', 'tripletElectronSeeds', 'initialStepTrackCandidatesPreSplitting', 'fixedGridRhoFastjetAll', 'pfAllNeutralHadrons', 'gedGsfElectrons', 'interestingEcalDetIdEBU', 'cosmicDCTracks', 'pixelPairElectronSeeds', 'interestingEcalDetIdPFEE', 'interestingEcalDetIdPFEB', 'conversionStepTracks', 'interestingEcalDetIdPFES', 'gedElPFIsoValueNeutral03', 'muPFSumDRIsoValueGammaHighThreshold03', 'muPFSumDRIsoValueGammaHighThreshold04', 'selectDigi', 'siStripZeroSuppression', 'lowPtQuadStepTrackingRegions', 'ootPhotonEcalPFClusterIsolationProducer', 'muPFMeanDRIsoValueCharged04', 'detachedQuadStepTracks', 'tobTecStep', 'muPFMeanDRIsoValueNeutralHighThreshold03', 'photonIsolationHIProducerppIsland', 'ak4JetTracksAssociatorAtVertexPF', 'muPFMeanDRIsoValueNeutralHighThreshold04', 'hiConformalPixelTracksPhase1SeedLayers', 'pixelLessStepTrackingRegions', 'electronCkfTrackCandidates', 'uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower', 'BeamHaloSummary', 'particleFlowEGamma', 'detachedTripletStepTrackCandidates', 'particleFlowDisplacedVertexCandidate', 'muonSeededTracksOutInClassifier', 'uncleanedOnlyInOutOutInConversionTrackMerger', 'ckfOutInTracksFromConversions', 'pixelLessStepHitTriplets', 'gedElPFIsoDepositChargedAll', 'pfDeepCMVATagInfos', 'interestingEcalDetIdEB', 'dt1DRecHits', 'hiConformalPixelTracksPhase1TrackingRegions', 'pixelPairElectronHitDoublets', 'ak4JetID', 'pixelPairStepTrackingRegionsSeedLayersB', 'detachedQuadStepSeedLayers', 'muidTMLastStationAngTight', 'muonSeededTracksOutInDisplacedClassifier', 'interestingEcalDetIdEE', 'generalTracks', 'detachedTripletStepSeedLayers', 'convStepSelector', 'vertexMerger', 'muonShowerInformation', 'initialStepTrackingRegionsPreSplitting', 'globalMuons', 'dedxTruncated40', 'ak4JetTracksAssociatorAtVertex', 'ctppsLocalTrackLiteProducer', 'highPtTripletStepTrackCandidates', 'bunchSpacingProducer', 'islandSuperClusters', 'pfNoPileUpCandidates', 'siPixelClusterShapeCache', 'lowPtQuadStepSeeds', 'uncleanedOnlyCorrectedHybridSuperClusters', 'jetCoreRegionalStepTrackingRegions', 'hfprereco', 'pfV0', 'lowPtQuadStepClusters', 'initialStepHitDoublets', 'trackerClusterCheckPreSplitting', 'gedGsfElectronCores', 'mixedTripletStepTracks', 'pfAllPhotons', 'particleBasedIsolationTmp', 'tobTecStepClusters', 'pixelPairStepClusters', 'ecalTPSkim', 'ak5CastorJetID', 'cosmicMuons1Leg', 'siPixelRecHitsPreSplitting', 'particleFlowRecHitHBHE', 'tobTecStepTrackCandidates', 'conversionTrackCandidates', 'lowPtTripletStepHitTriplets', 'lowPtTripletStepTrackingRegions', 'ckfInOutTracksFromConversions', 'detachedTripletStepHitDoublets', 'ancientMuonSeed', 'tobTecStepSeedLayersPair', 'photonIsolationHIProducerpp', 'pixelPairElectronTrackingRegions', 'detachedQuadStepTrackingRegions', 'earlyMuons', 'candidateVertexMerger', 'tripletElectronHitTriplets', 'eidLoose', 'ak4PFJetsCHS', 'muonSeededTrackCandidatesOutIn', 'siPixelRecHits', 'particleFlowClusterHCAL', 'ak4PFL1FastjetCorrector', 'detachedQuadStepSeeds', 'softPFElectronBJetTags', 'firstStepPrimaryVerticesPreSplitting', 'electronGsfTracks', 'caloMetBEFO', 'lowPtTripletStep', 'multi5x5BasicClustersUncleaned', 'gedElPFIsoValueGamma03', 'pfTrack', 'particleFlow', 'muPFIsoDepositCharged', 'ak4PFL1FastL2L3Corrector', 'muidTMOneStationTight', 'conversionStepConversionTrackProducer', 'allConversions', 'muPFSumDRIsoValueChargedAll04', 'initialStepSeedClusterMask', 'particleFlowBadHcalPseudoCluster', 'reducedEcalRecHitsEE', 'initialStepTrackingRegions', 'reducedEcalRecHitsEB', 'uncleanedOnlyGsfElectrons', 'hiConformalPixelTracksPhase1HitQuadrupletsCA', 'uncleanedOnlyGeneralConversionTrackProducer', 'softPFMuonBJetTags', 'pixelLessStepClassifier2', 'offlinePrimaryVertices', 'pixelLessStepClassifier1', 'pfJetProbabilityBJetTags', 'eidTight', 'lowPtTripletStepTrackCandidates', 'totemRPClusterProducer', 'PFTowers', 'ctppsPixelClusters', 'candidateVertexArbitrator', 'initialStepHitDoubletsPreSplitting', 'cosmicDCCkfTrackCandidates', 'hiClusterCompatibility', 'displacedStandAloneMuons', 'gedPhotonsTmp', 'tripletElectronSeedLayers', 'ecalCompactTrigPrim', 'fixedGridRhoFastjetCentralCalo', 'particleFlowClusterHBHE', 'clusterSummaryProducer', 'pfDisplacedTrackerVertex', 'firstStepPrimaryVertices', 'pfSimpleInclusiveSecondaryVertexHighEffBJetTags', 'muidTM2DCompatibilityLoose', 'inclusiveCandidateSecondaryVertices', 'egmGedGsfElectronPFPileUpIsolation', 'mixedTripletStepHitTripletsA', 'dt1DCosmicRecHits', 'unsortedOfflinePrimaryVertices', 'inOutConversionTrackProducer', 'mixedTripletStepSeeds', 'ak7CastorJetID', 'inclusiveVertexFinder', 'pixelPairStepSeeds', 'interestingEcalDetIdRefinedES', 'pfSecondaryVertexTagInfos', 'ak4PFL2RelativeCorrector', 'dt4DSegments', 'hiConformalPixelTracksPhase1Filter', 'pixelLessStepHitDoublets', 'softPFElectronsTagInfos', 'particleFlowBlock', 'muPFSumDRIsoValueGamma03', 'ak4PFL3AbsoluteCorrector', 'muidGMTkKinkTight', 'uncleanedOnlyGeneralInOutOutInConversionTrackMerger', 'uncleanedOnlyGsfElectronCores', 'tevMuons', 'islandBasicClusters', 'particleFlowClusterECALUncorrected', 'muidTMLastStationOptimizedLowPtTight', 'pfPileUpIso', 'muons1stStep', 'CosmicMuonSeed', 'muIsoDepositJets', 'muPFMeanDRIsoValueGammaHighThreshold03', 'hcalnoise', 'pfImpactParameterTagInfos', 'muIsoDepositTk', 'cosmicDCSeeds', 'akPu4PFJets', 'generalInOutOutInConversionTrackMerger', 'trackWithVertexRefSelectorBeforeSorting', 'ak4JetTracksAssociatorAtCaloFace', 'rpcRecHits', 'interestingEcalDetIdRefinedEB', 'jetCoreRegionalStepTracks', 'pfInclusiveSecondaryVertexFinderCvsLTagInfos', 'initialStepSeedLayers', 'muPFIsoDepositGamma', 'uncleanedOnlyPfConversions', 'ecalRecHit', 'initialStepHitQuadruplets', 'ecalDrivenGsfElectrons', 'dedxPixelHarmonic2', 'lowPtQuadStepSeedLayers', 'pixelPairStepTrackCandidates', 'fixedGridRhoFastjetCentral', 'particleFlowRecHitPS', 'jetsForCoreTrackingPreSplitting', 'hiCentrality', 'pfInclusiveSecondaryVertexFinderTagInfos', 'pfAllChargedHadrons', 'ak4CaloJets', 'caloTowerForTrkPreSplitting', 'siStripClusters', 'lowPtQuadStepHitQuadruplets', 'akPu3PFJets', 'ak8PFJetsCHS', 'tobTecStepHitDoubletsTripl', 'muonSeededSeedsInOut', 'pfNoPileUpIso', 'caloTowerForTrk', 'muPFSumDRIsoValueNeutralHighThreshold04', 'hybridSuperClusters', 'cleanedHybridSuperClusters', 'interestingTrackEcalDetIds', 'pfPileUpAllChargedParticles', 'muPFIsoValueGamma04', 'muidAllArbitrated', 'jetCoreRegionalStepSeedLayers', 'tobTecStepHitDoubletsPair', 'correctedIslandBarrelSuperClusters', 'mixedTripletStepSeedClusterMask', 'muPFIsoValueChargedAll03', 'initialStepTracksPreSplitting', 'muPFIsoValueGamma03', 'standAloneMuons', 'pfAllChargedParticles', 'eidRobustHighEnergy', 'refittedStandAloneMuons', 'particleFlowForChargedMET', 'tobTecStepTracks', 'cosmicsVetoTracksRaw', 'highPtTripletStepSeeds', 'uncleanedOnlyConversionTrackCandidates', 'GlobalHaloData', 'cscSegments', 'muPFIsoDepositNeutral', 'ak4PFJets', 'displacedGlobalMuons', 'dedxHitInfo', 'electronMergedSeeds', 'initialStep', 'rpcNewRecHits', 'hfRecoEcalCandidate', 'egmElectronIsolationCITK', 'uncleanedOnlyElectronGsfTracks', 'preDuplicateMergingDisplacedTracks', 'eidRobustTight', 'pfNoPileUpJMEHI', 'totemRPUVPatternFinder', 'inclusiveSecondaryVertices', 'mixedTripletStepClassifier1', 'gsfGeneralInOutOutInConversionTrackMerger', 'mixedTripletStepClassifier2', 'interestingGedEleIsoDetIdEB', 'MeasurementTrackerEventPreSplitting', 'muPFSumDRIsoValueNeutral03', 'highPtTripletStepTracks', 'interestingGedEgammaIsoHCALDetId', 'mergedDuplicateDisplacedTracks', 'horeco', 'multi5x5SuperClustersCleaned', 'particleFlowPtrs', 'pfDeepCMVAJetTags', 'lowPtTripletStepClusters', 'duplicateDisplacedTrackCandidates', 'pfChMet', 'dedxHarmonic2', 'candidateVertexMergerCvsL', 'ak5CastorJets', 'lowPtTripletStepTracks', 'photonHcalPFClusterIsolationProducer', 'uncleanedOnlyInOutConversionTrackProducer', 'muPFMeanDRIsoValueCharged03', 'initialStepClassifier1', 'ctppsDiamondRecHits', 'cosmicMuons', 'ecalDetIdToBeRecovered', 'gedElPFIsoValueCharged03', 'lowPtQuadStepHitDoublets', 'gemRecHits', 'interestingGedEgammaIsoESDetId', 'ak4PFCHSL1FastL2L3Corrector', 'muonMETValueMapProducer', 'hfEMClusters', 'particleFlowClusterHO', 'muidTMOneStationLoose', 'fixedGridRhoFastjetCentralChargedPileUp', 'mergedDuplicateTracks', 'inclusiveCandidateVertexFinder', 'muonsFromCosmics', 'muPFSumDRIsoValueChargedAll03', 'particleFlowClusterHF', 'initialStepSeedsPreSplitting', 'towerMaker', 'egmElectronIsolationPileUpCITK', 'particleFlowRecHitECAL', 'mixedTripletStepSeedsA', 'mixedTripletStep', 'softPFMuonsTagInfos', 'mixedTripletStepSeedsB', 'hiConformalPixelTracks', 'trackerClusterCheck', 'muidRPCMuLoose', 'trackExtrapolator', 'muPFSumDRIsoValueGamma04', 'mixedTripletStepTrackingRegionsB', 'mixedTripletStepTrackingRegionsA', 'conversions', 'gedPhotons', 'particleFlowClusterECAL', 'photonEcalPFClusterIsolationProducer', 'preDuplicateMergingGeneralTracks', 'HcalHaloData', 'photonConvTrajSeedFromSingleLeg', 'pixelPairStepSeedLayers', 'muPFSumDRIsoValueNeutralHighThreshold03', 'particleFlowRecHitHO', 'pixelLessStepTracks', 'mixedTripletStepTrackCandidates', 'particleFlowDisplacedVertex', 'particleFlowRecHitHF', 'highPtTripletStepClusters', 'convLayerPairs', 'newCombinedSeeds', 'CSCHaloData', 'detachedTripletStepTrackingRegions', 'detachedTripletStepClassifier2', 'detachedTripletStepClassifier1', 'akCs4PFJets', 'earlyGeneralTracks', 'inclusiveCandidateVertexFinderCvsL', 'muPFMeanDRIsoValueNeutral03', 'ctppsPixelRecHits', 'gedElPFIsoValueChargedAll03', 'mvaElectrons', 'detachedQuadStepClusters', 'muidGMStaChiCompatibility', 'stripPairElectronSeeds', 'particleFlowTmp', 'tobTecStepSeedLayersTripl', 'muPFIsoValueNeutralHighThreshold04', 'muPFIsoValueNeutralHighThreshold03', 'muPFIsoValueGammaHighThreshold03', 'lowPtQuadStep', 'pfCombinedMVAV2BJetTags', 'muonsFromCosmics1Leg', 'ak4PFCHSL2RelativeCorrector', 'ak4PFCHSL3AbsoluteCorrector', 'electronEcalPFClusterIsolationProducer', 'kt4PFJetsForRho', 'detachedTripletStepSeedClusterMask', 'detachedTripletStepTracks', 'ctppsDiamondLocalTracks', 'generalV0Candidates', 'pfCombinedInclusiveSecondaryVertexV2BJetTags', 'muPFIsoValueGammaHighThreshold04', 'muPFMeanDRIsoValueGammaHighThreshold04', 'earlyDisplacedMuons', 'hbhereco', 'interestingEcalDetIdRefinedEE', 'tripletElectronTrackingRegions', 'akPu4CaloJets', 'interestingGamIsoDetIdEE', 'reducedEcalRecHitsES', 'duplicateTrackCandidates', 'PhotonIDProd', 'gedElPFIsoValuePU03', 'interestingGedGamIsoDetIdEE', 'interestingGedGamIsoDetIdEB', 'fixedGridRhoAll', 'jetCoreRegionalStepHitDoublets', 'muons', 'tobTecStepSeeds', 'CastorTowerReco', 'pfMet', 'muidTrackerMuonArbitrated', 'cosmicsVetoTrackCandidates', 'gemSegments', 'muPFSumDRIsoValuePU03', 'chargeCut2069Clusters', 'uncleanedOnlyElectronSeeds', 'photons', 'cosmicsVetoTracks', 'uncleanedOnlyPfTrack', 'muPFIsoDepositPU', 'gsfConversionTrackProducer', 'pixelPairStepHitDoubletsB', 'pfPileUp', 'particleFlowClusterPS', 'jetCoreRegionalStepSeeds', 'muidTMLastStationAngLoose', 'egmPhotonIsolationCITK', 'lowPtQuadStepTracks', 'particleFlowTmpPtrs', 'ecalDrivenGsfElectronCores', 'gedPhotonCore', 'pfJetBProbabilityBJetTags', 'ecalPreshowerRecHit', 'muPFIsoValueChargedAll04', 'reducedHcalRecHits', 'cosmicsVeto', 'highPtTripletStepTrackingRegions', 'detachedQuadStepHitDoublets', 'pfAllNeutralHadronsAndPhotons', 'muidTMLastStationOptimizedLowPtLoose', 'muonSeededSeedsOutInDisplaced', 'uncleanedOnlyCkfOutInTracksFromConversions', 'ak4PFCHSL1FastjetCorrector', 'muidTMOneStationAngLoose', 'electronHcalPFClusterIsolationProducer', 'initialStepTracks', 'outInConversionTrackProducer', 'mixedTripletStepHitTripletsB', 'uncleanedOnlyGsfConversionTrackProducer', 'gedElPFIsoDepositPU', 'ctppsPixelLocalTracks', 'pixelPairElectronSeedLayers', 'pfTrackCountingHighEffBJetTags', 'initialStepSeedLayersPreSplitting', 'pixelPairStepTrackingRegions', 'dt4DCosmicSegments', 'offlinePrimaryVerticesWithBS', 'csc2DRecHits', 'muPFIsoDepositChargedAll', 'uncleanedHybridSuperClusters', 'detachedQuadStepHitQuadruplets', 'multi5x5BasicClustersCleaned', 'jetCoreRegionalStep', 'pixelPairStep', 'ak4CaloJetsForTrk', 'muidGMTkChiCompatibility', 'pixelLessStepTrackCandidates', 'hiFJRhoProducer', 'islandPhotonCore', 'candidateVertexArbitratorCvsL', 'particleBasedIsolation', 'pfCombinedCvsLJetTags', 'firstStepPrimaryVerticesUnsorted', 'glbTrackQual', 'muonSeededSeedsOutIn', 'muidTMLastStationTight', 'caloMetBE', 'uncleanedOnlyPfTrackElec', 'pfCombinedCvsBJetTags', 'muonSeededTracksOutInDisplaced', 'caloMet', 'siPixelClusterShapeCachePreSplitting', 'muPFIsoValueNeutral04', 'muPFIsoValueNeutral03', 'detachedTripletStepHitTriplets', 'lowPtTripletStepSeedLayers', 'tripletElectronClusterMask', 'displacedTracks', 'muonSeededTrackCandidatesInOut', 'jetsForCoreTracking', 'muonSeededTracksInOut', 'convTrackCandidates', 'muPFIsoValueCharged04', 'muPFIsoValueCharged03', 'muPFMeanDRIsoValueGamma03', 'gedElPFIsoDepositNeutral', 'muPFMeanDRIsoValueGamma04', 'highPtTripletStepHitDoublets', 'gedGsfElectronsTmp', 'muonSeededTracksOutIn', 'displacedMuonSeeds', 'detachedTripletStep', 'muidTMOneStationAngTight', 'pfConversions', 'correctedMulti5x5SuperClustersWithPreshower', 'eidRobustLoose', 'pfCombinedSecondaryVertexV2BJetTags', 'correctedIslandEndcapSuperClusters', 'mixedTripletStepClusters', 'detachedTripletStepSeeds', 'pixelLessStepSeedLayers', 'inOutOutInConversionTrackMerger', 'cosmicsVetoSeeds', 'multi5x5SuperClusters', 'pfNoPileUp', 'stripPairElectronTrackingRegions', 'ak4JetExtender', 'pfDeepCSVTagInfos', 'uncleanedOnlyElectronCkfTrackCandidates', 'islandPhotons', 'gedElPFIsoDepositGamma', 'pfGhostTrackBJetTags', 'MeasurementTrackerEvent', 'pixelPairStepTracks', 'trackVertexArbitrator', 'electronsWithPresel', 'pfTrackElec', 'ak7CastorJets', 'lowPtQuadStepTrackCandidates', 'tobTecStepTrackingRegionsTripl', 'mixedTripletStepSeedLayersB', 'mixedTripletStepSeedLayersA', 'lowPtTripletStepHitDoublets', 'PhotonIDProdGED', 'muPFIsoValuePU04', 'initialStepTrackRefsForJetsPreSplitting', 'tobTecStepTrackingRegionsPair', 'ak4CaloJetsForTrkPreSplitting', 'totemTimingRecHits', 'stripPairElectronSeedLayers', 'stripPairElectronHitDoublets', 'ecalDrivenElectronSeeds', 'siStripMatchedRecHits', 'multi5x5SuperClustersUncleaned', 'highPtTripletStepHitTriplets', 'initialStepSeeds', 'castorreco', 'photonCore', 'muonSeededTracksInOutClassifier', 'muPFMeanDRIsoValuePU03', 'muPFMeanDRIsoValuePU04', 'multi5x5PreshowerClusterShape', 'interestingGamIsoDetIdEB', 'pixelLessStepSeedClusterMask', 'multi5x5SuperClustersWithPreshower', 'muPFMeanDRIsoValueNeutral04', 'muidTM2DCompatibilityTight', 'mixedTripletStepHitDoubletsA', 'mixedTripletStepHitDoubletsB', 'tobTecStepSeedsPair', 'fixedGridRhoFastjetAllCalo', 'photonIsolationHIProducerppGED', 'fixedGridRhoFastjetCentralNeutral', 'logErrorHarvester', 'uncleanedOnlyGsfGeneralInOutOutInConversionTrackMerger', 'EcalHaloData', 'towerMakerWithHO', 'initialStepTrackCandidates', 'uncleanedOnlyMulti5x5SuperClustersWithPreshower', 'muPFSumDRIsoValuePU04', 'muidGlobalMuonPromptTight', 'hfreco', 'pfSimpleSecondaryVertexHighEffBJetTags', 'uncleanedOnlyOutInConversionTrackProducer', 'jetCoreRegionalStepTrackCandidates', 'detachedQuadStep', 'uncleanedOnlyCkfInOutTracksFromConversions', 'ootPhotonHcalPFClusterIsolationProducer', 'chargedHadronPFTrackIsolation', 'totemRPLocalTrackFitter', 'fixedGridRhoFastjetAllTmp', 'interestingGedEleIsoDetIdEE', 'dedxPixelAndStripHarmonic2T085', 'generalConversionStepConversionTrackMerger', 'pixelLessStep', 'generalConversionTrackProducer', 'initialStepTrackRefsForJets', 'tobTecStepHitTripletsTripl', 'convClusters', 'muIsoDepositCalByAssociatorTowers', 'detachedQuadStepTrackCandidates', 'totemRPRecHitProducer', 'pixelFitterByConformalMappingAndLine', 'pfDeepCSVJetTags', 'highPtTripletStepSeedLayers', 'initialStepHitQuadrupletsPreSplitting', 'muPFIsoValuePU03', 'muonSeededTrackCandidatesOutInDisplaced', 'detachedTripletStepClusters', 'tobTecStepClassifier1', 'egmGedGsfElectronPFNoPileUpIsolation', 'tobTecStepClassifier2', 'pfChargeBJetTags', 'offlineBeamSpot', 'highPtTripletStep', 'muidTMLastStationLoose', 'muPFSumDRIsoValueCharged04', 'muPFMeanDRIsoValueChargedAll04', 'muPFMeanDRIsoValueChargedAll03' ) ) ) process.lowPtQuadStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorLowPtQuadStep_Phase1') ), qualityCuts = cms.vdouble(-0.9, -0.4, 0.3), src = cms.InputTag("lowPtQuadStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.lowPtQuadStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag(""), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("initialStep","QualityMasks"), trajectories = cms.InputTag("initialStepTracks") ) process.lowPtQuadStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1, 2), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("lowPtQuadStepSeedLayers"), trackingRegions = cms.InputTag("lowPtQuadStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.lowPtQuadStepHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0.3), CAThetaCut = cms.double(0.0017), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("lowPtQuadStepHitDoublets"), 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), value1 = cms.double(1000), value2 = cms.double(150) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_lowPtQuadStepHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.lowPtQuadStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag(""), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("initialStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("initialStepTracks") ) process.lowPtQuadStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("lowPtQuadStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("lowPtQuadStepClusters") ), 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.lowPtQuadStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_lowPtQuadStepHitQuadruplets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("lowPtQuadStepHitQuadruplets") ) process.lowPtQuadStepSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("lowPtQuadStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(2.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.8, 4.0), d0_par2 = cms.vdouble(0.6, 4.0), dz_par1 = cms.vdouble(0.7, 4.0), dz_par2 = cms.vdouble(0.6, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('lowPtQuadStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.002), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.4), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.7, 4.0), d0_par2 = cms.vdouble(0.5, 4.0), dz_par1 = cms.vdouble(0.6, 4.0), dz_par2 = cms.vdouble(0.5, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('lowPtQuadStepTight'), preFilterName = cms.string('lowPtQuadStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.002), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.2), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.5, 4.0), d0_par2 = cms.vdouble(0.45, 4.0), dz_par1 = cms.vdouble(0.5, 4.0), dz_par2 = cms.vdouble(0.45, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('lowPtQuadStep'), preFilterName = cms.string('lowPtQuadStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.lowPtQuadStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('lowPtQuadStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('lowPtQuadStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("lowPtQuadStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("lowPtQuadStepSeeds"), useHitsSplitting = cms.bool(True) ) process.lowPtQuadStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.5), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.02), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.49), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.lowPtQuadStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('lowPtQuadStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("lowPtQuadStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.lowPtTripletStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('HIMVASelectorLowPtTripletStep_Phase1') ), qualityCuts = cms.vdouble(-0.8, -0.4, 0.5), src = cms.InputTag("lowPtTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.lowPtTripletStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("highPtTripletStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("highPtTripletStep","QualityMasks"), trajectories = cms.InputTag("highPtTripletStepTracks") ) process.lowPtTripletStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0, 1), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("lowPtTripletStepSeedLayers"), trackingRegions = cms.InputTag("lowPtTripletStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.lowPtTripletStepHitTriplets = cms.EDProducer("CAHitTripletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0.05), CAThetaCut = cms.double(0.002), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("lowPtTripletStepHitDoublets"), extraHitRPhitolerance = cms.double(0.032), maxChi2 = cms.PSet( enabled = cms.bool(True), pt1 = cms.double(0.8), pt2 = cms.double(2), value1 = cms.double(70), value2 = cms.double(8) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_lowPtTripletStepHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.lowPtTripletStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("highPtTripletStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("highPtTripletStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("highPtTripletStepTracks") ) process.lowPtTripletStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("lowPtTripletStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("lowPtTripletStepClusters") ), 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', 'BPix1+BPix3+FPix1_pos', 'BPix1+BPix3+FPix1_neg', 'BPix2+FPix1_pos+FPix2_pos', 'BPix2+FPix1_neg+FPix2_neg', 'BPix1+FPix1_pos+FPix2_pos', 'BPix1+FPix1_neg+FPix2_neg', 'BPix1+BPix2+FPix2_pos', 'BPix1+BPix2+FPix2_neg', 'FPix1_pos+FPix2_pos+FPix3_pos', 'FPix1_neg+FPix2_neg+FPix3_neg', 'BPix1+FPix2_pos+FPix3_pos', 'BPix1+FPix2_neg+FPix3_neg', 'BPix1+FPix1_pos+FPix3_pos', 'BPix1+FPix1_neg+FPix3_neg' ) ) process.lowPtTripletStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_lowPtTripletStepHitTriplets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("lowPtTripletStepHitTriplets") ) process.lowPtTripletStepSelector = cms.EDProducer("MultiTrackSelector", GBRForestLabel = cms.string('MVASelectorIter1'), beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("lowPtTripletStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.55, 4.0), d0_par2 = cms.vdouble(0.55, 4.0), dz_par1 = cms.vdouble(0.65, 4.0), dz_par2 = cms.vdouble(0.45, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(0), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('lowPtTripletStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('lowPtTripletStepTight'), preFilterName = cms.string('lowPtTripletStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('QualityMasks'), preFilterName = cms.string('lowPtTripletStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useAnyMVA = cms.bool(False), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.lowPtTripletStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('lowPtTripletStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('lowPtTripletStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("lowPtTripletStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("lowPtTripletStepSeeds"), useHitsSplitting = cms.bool(True) ) process.lowPtTripletStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.02), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.49), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(False), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.lowPtTripletStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('lowPtTripletStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("lowPtTripletStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.lumiProducer = cms.EDProducer("LumiProducer", connect = cms.string('frontier://LumiProd/CMS_LUMI_PROD'), lumiversion = cms.untracked.string(''), ncacheEntries = cms.untracked.uint32(5) ) process.me0RecHits = cms.EDProducer("ME0RecHitProducer", me0DigiLabel = cms.InputTag("simMuonME0PseudoReDigis"), recAlgo = cms.string('ME0RecHitStandardAlgo'), recAlgoConfig = cms.PSet( ) ) process.me0Segments = cms.EDProducer("ME0SegmentProducer", algo_psets = cms.VPSet( cms.PSet( algo_name = cms.string('ME0SegmentAlgorithm'), algo_pset = cms.PSet( ME0Debug = cms.untracked.bool(True), dEtaChainBoxMax = cms.double(0.05), dPhiChainBoxMax = cms.double(0.02), dTimeChainBoxMax = cms.double(15.0), dXclusBoxMax = cms.double(1.0), dYclusBoxMax = cms.double(5.0), maxRecHitsInCluster = cms.int32(6), minHitsPerSegment = cms.uint32(3), preClustering = cms.bool(True), preClusteringUseChaining = cms.bool(True) ) ), cms.PSet( algo_name = cms.string('ME0SegAlgoRU'), algo_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), maxPhiAdditional = cms.double(0.001096605744), maxPhiSeeds = cms.double(0.001096605744), maxTOFDiff = cms.double(25), minNumberOfHits = cms.uint32(4), requireCentralBX = cms.bool(True) ) ) ), algo_type = cms.int32(2), me0RecHitLabel = cms.InputTag("me0RecHits") ) process.mergedDuplicateDisplacedTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('KFFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("duplicateDisplacedTrackCandidates","candidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.mergedDuplicateTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('undefAlgorithm'), Fitter = cms.string('RKFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("duplicateTrackCandidates","candidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.mergedStandAloneMuonSeeds = cms.EDProducer("MuonSeedMerger", SeedCollections = cms.VInputTag(cms.InputTag("ancientMuonSeed"), cms.InputTag("MuonSeed")) ) process.mixedTripletStep = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorMixedTripletStep_Phase1') ), qualityCuts = cms.vdouble(-0.5, 0.0, 0.9), src = cms.InputTag("mixedTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.mixedTripletStepClassifier1 = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter4_13TeV') ), qualityCuts = cms.vdouble(-0.5, 0.0, 0.5), src = cms.InputTag("mixedTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.mixedTripletStepClassifier2 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter0_13TeV') ), qualityCuts = cms.vdouble(-0.2, -0.2, -0.2), src = cms.InputTag("mixedTripletStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.mixedTripletStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("chargeCut2069Clusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("pixelPairStep","QualityMasks"), trajectories = cms.InputTag("pixelPairStepTracks") ) process.mixedTripletStepHitDoubletsA = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("mixedTripletStepSeedLayersA"), trackingRegions = cms.InputTag("mixedTripletStepTrackingRegionsA"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.mixedTripletStepHitDoubletsB = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("mixedTripletStepSeedLayersB"), trackingRegions = cms.InputTag("mixedTripletStepTrackingRegionsB"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.mixedTripletStepHitTripletsA = cms.EDProducer("PixelTripletLargeTipEDProducer", doublets = cms.InputTag("mixedTripletStepHitDoubletsA"), extraHitRPhitolerance = cms.double(0), extraHitRZtolerance = cms.double(0), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_mixedTripletStepHitDoubletsA__RECO'), 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.mixedTripletStepHitTripletsB = cms.EDProducer("PixelTripletLargeTipEDProducer", doublets = cms.InputTag("mixedTripletStepHitDoubletsB"), extraHitRPhitolerance = cms.double(0), extraHitRZtolerance = cms.double(0), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_mixedTripletStepHitDoubletsB__RECO'), 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.mixedTripletStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("pixelPairStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("pixelPairStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("pixelPairStepTracks") ) process.mixedTripletStepSeedClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("detachedTripletStepSeedClusterMask"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("mixedTripletStepSeeds") ) process.mixedTripletStepSeedLayersA = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("mixedTripletStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("mixedTripletStepClusters") ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(1), minRing = cms.int32(1), skipClusters = cms.InputTag("mixedTripletStepClusters"), useRingSlector = cms.bool(True) ), layerList = cms.vstring( 'BPix2+FPix1_pos+FPix2_pos', 'BPix2+FPix1_neg+FPix2_neg' ) ) process.mixedTripletStepSeedLayersB = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("mixedTripletStepClusters") ), TIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("mixedTripletStepClusters") ), layerList = cms.vstring('BPix3+BPix4+TIB1') ) process.mixedTripletStepSeeds = cms.EDProducer("SeedCombiner", seedCollections = cms.VInputTag(cms.InputTag("mixedTripletStepSeedsA"), cms.InputTag("mixedTripletStepSeedsB")) ) process.mixedTripletStepSeedsA = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('mixedTripletStepClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(False), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(True) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring( 'RegionsSeedingHitSets_mixedTripletStepHitTripletsA__RECO', 'IntermediateHitDoublets_mixedTripletStepHitDoubletsA__RECO' ), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("mixedTripletStepHitTripletsA") ) process.mixedTripletStepSeedsB = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('mixedTripletStepClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(False), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(True) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring( 'RegionsSeedingHitSets_mixedTripletStepHitTripletsB__RECO', 'IntermediateHitDoublets_mixedTripletStepHitDoubletsB__RECO' ), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("mixedTripletStepHitTripletsB") ) process.mixedTripletStepSelector = cms.EDProducer("MultiTrackSelector", GBRForestLabel = cms.string('MVASelectorIter4'), beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("mixedTripletStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.2), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.2, 3.0), d0_par2 = cms.vdouble(1.3, 3.0), dz_par1 = cms.vdouble(1.2, 3.0), dz_par2 = cms.vdouble(1.3, 3.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(2), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('mixedTripletStepVtxLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.2, 4.0), d0_par2 = cms.vdouble(1.2, 4.0), dz_par1 = cms.vdouble(1.2, 4.0), dz_par2 = cms.vdouble(1.2, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('mixedTripletStepTrkLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.1, 3.0), d0_par2 = cms.vdouble(1.2, 3.0), dz_par1 = cms.vdouble(1.1, 3.0), dz_par2 = cms.vdouble(1.2, 3.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('mixedTripletStepVtxTight'), preFilterName = cms.string('mixedTripletStepVtxLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.4), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.1, 4.0), d0_par2 = cms.vdouble(1.1, 4.0), dz_par1 = cms.vdouble(1.1, 4.0), dz_par2 = cms.vdouble(1.1, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(4), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('mixedTripletStepTrkTight'), preFilterName = cms.string('mixedTripletStepTrkLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.4), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.1, 3.0), d0_par2 = cms.vdouble(1.2, 3.0), dz_par1 = cms.vdouble(1.1, 3.0), dz_par2 = cms.vdouble(1.2, 3.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('mixedTripletStepVtx'), preFilterName = cms.string('mixedTripletStepVtxTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.3), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.9, 4.0), d0_par2 = cms.vdouble(0.9, 4.0), dz_par1 = cms.vdouble(0.9, 4.0), dz_par2 = cms.vdouble(0.9, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(0), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(4), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('mixedTripletStepTrk'), preFilterName = cms.string('mixedTripletStepTrkTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useAnyMVA = cms.bool(False), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.mixedTripletStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('mixedTripletStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('mixedTripletStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("mixedTripletStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), reverseTrajectories = cms.bool(False), src = cms.InputTag("mixedTripletStepSeeds"), useHitsSplitting = cms.bool(True) ) process.mixedTripletStepTrackingRegionsA = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(3.75), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(0.7), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(True), originRadius = cms.double(1.5), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.4), ptMinScaling4BigEvts = cms.bool(True), scalingEndNPix = cms.double(35000), scalingStartNPix = cms.double(20000), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.mixedTripletStepTrackingRegionsB = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(2.5), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(0.7), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(True), originRadius = cms.double(1.5), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.6), ptMinScaling4BigEvts = cms.bool(True), scalingEndNPix = cms.double(35000), scalingStartNPix = cms.double(20000), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.mixedTripletStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('mixedTripletStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("mixedTripletStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.mtdRecHits = cms.EDProducer("MTDRecHitProducer", BarrelHitsName = cms.string('FTLBarrel'), EndcapHitsName = cms.string('FTLEndcap'), barrel = cms.PSet( algoName = cms.string('MTDRecHitAlgo'), calibrationConstant = cms.double(0.026041667), thresholdToKeep = cms.double(1.0) ), barrelUncalibratedRecHits = cms.InputTag("mtdUncalibratedRecHits","FTLBarrel"), endcap = cms.PSet( algoName = cms.string('MTDRecHitAlgo'), calibrationConstant = cms.double(0.085), thresholdToKeep = cms.double(0.0425) ), endcapUncalibratedRecHits = cms.InputTag("mtdUncalibratedRecHits","FTLEndcap") ) process.mtdUncalibratedRecHits = cms.EDProducer("MTDUncalibratedRecHitProducer", BarrelHitsName = cms.string('FTLBarrel'), EndcapHitsName = cms.string('FTLEndcap'), barrel = cms.PSet( adcNbits = cms.uint32(10), adcSaturation = cms.double(600.0), algoName = cms.string('BTLUncalibRecHitAlgo'), timeCorr_p0 = cms.double(24.8997), timeCorr_p1 = cms.double(-0.911385), timeCorr_p2 = cms.double(3.3744717), timeResolutionInNs = cms.double(0.025), toaLSB_ns = cms.double(0.02) ), barrelDigis = cms.InputTag("mix","FTLBarrel"), endcap = cms.PSet( adcNbits = cms.uint32(12), adcSaturation = cms.double(102), algoName = cms.string('ETLUncalibRecHitAlgo'), timeResolutionInNs = cms.double(0.025), toaLSB_ns = cms.double(0.005), tofDelay = cms.double(1) ), endcapDigis = cms.InputTag("mix","FTLEndcap") ) process.muIsoDepositCalByAssociatorHits = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold_E = cms.double(0.025), Threshold_H = cms.double(0.1), Threshold_HO = cms.double(0.1), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(False), useEcal = cms.bool(True), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ), UseRecHitsFlag = cms.bool(True) ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("muons1stStep") ) ) process.muIsoDepositCalByAssociatorTowers = cms.EDProducer("MuIsoDepositCopyProducer", depositNames = cms.vstring( 'ecal', 'hcal', 'ho' ), inputTags = cms.VInputTag(cms.InputTag("muons1stStep","ecal"), cms.InputTag("muons1stStep","hcal"), cms.InputTag("muons1stStep","ho")) ) process.muIsoDepositJets = cms.EDProducer("MuIsoDepositCopyProducer", depositNames = cms.vstring(''), inputTags = cms.VInputTag(cms.InputTag("muons1stStep","jets")) ) process.muIsoDepositTk = cms.EDProducer("MuIsoDepositCopyProducer", depositNames = cms.vstring(''), inputTags = cms.VInputTag(cms.InputTag("muons1stStep","tracker")) ) process.muPFIsoDepositCharged = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("muons1stStep"), trackType = cms.string('candidate') ) process.muPFIsoDepositChargedAll = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("muons1stStep"), trackType = cms.string('candidate') ) process.muPFIsoDepositGamma = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllPhotons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("muons1stStep"), trackType = cms.string('candidate') ) process.muPFIsoDepositNeutral = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllNeutralHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("muons1stStep"), trackType = cms.string('candidate') ) process.muPFIsoDepositPU = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(1e-05), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfPileUpAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("muons1stStep"), trackType = cms.string('candidate') ) process.muPFIsoValueCharged03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositCharged"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO') ) process.muPFIsoValueCharged04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositCharged"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO') ) process.muPFIsoValueChargedAll03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositChargedAll"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO') ) process.muPFIsoValueChargedAll04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositChargedAll"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO') ) process.muPFIsoValueGamma03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFIsoValueGamma04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFIsoValueGammaHighThreshold03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFIsoValueGammaHighThreshold04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFIsoValueNeutral03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFIsoValueNeutral04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFIsoValueNeutralHighThreshold03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFIsoValueNeutralHighThreshold04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFIsoValuePU03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositPU"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO') ) process.muPFIsoValuePU04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositPU"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO') ) process.muPFMeanDRIsoValueCharged03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositCharged"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO') ) process.muPFMeanDRIsoValueCharged04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositCharged"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO') ) process.muPFMeanDRIsoValueChargedAll03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositChargedAll"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO') ) process.muPFMeanDRIsoValueChargedAll04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositChargedAll"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO') ) process.muPFMeanDRIsoValueGamma03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFMeanDRIsoValueGamma04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFMeanDRIsoValueGammaHighThreshold03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFMeanDRIsoValueGammaHighThreshold04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFMeanDRIsoValueNeutral03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFMeanDRIsoValueNeutral04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFMeanDRIsoValueNeutralHighThreshold03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFMeanDRIsoValueNeutralHighThreshold04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFMeanDRIsoValuePU03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositPU"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO') ) process.muPFMeanDRIsoValuePU04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('meanDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositPU"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO') ) process.muPFSumDRIsoValueCharged03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositCharged"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO') ) process.muPFSumDRIsoValueCharged04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositCharged"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositCharged__RECO') ) process.muPFSumDRIsoValueChargedAll03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositChargedAll"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO') ) process.muPFSumDRIsoValueChargedAll04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositChargedAll"), vetos = cms.vstring( '0.0001', 'Threshold(0.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositChargedAll__RECO') ) process.muPFSumDRIsoValueGamma03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFSumDRIsoValueGamma04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFSumDRIsoValueGammaHighThreshold03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFSumDRIsoValueGammaHighThreshold04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositGamma"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositGamma__RECO') ) process.muPFSumDRIsoValueNeutral03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFSumDRIsoValueNeutral04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFSumDRIsoValueNeutralHighThreshold03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFSumDRIsoValueNeutralHighThreshold04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositNeutral"), vetos = cms.vstring( '0.01', 'Threshold(1.0)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositNeutral__RECO') ) process.muPFSumDRIsoValuePU03 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.3), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositPU"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO') ) process.muPFSumDRIsoValuePU04 = cms.EDProducer("CandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( deltaR = cms.double(0.4), mode = cms.string('sumDR'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("muPFIsoDepositPU"), vetos = cms.vstring( '0.01', 'Threshold(0.5)' ), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_muPFIsoDepositPU__RECO') ) process.muParamGlobalIsoDepositCalByAssociatorHits = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold_E = cms.double(0.025), Threshold_H = cms.double(0.1), Threshold_HO = cms.double(0.1), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(False), useEcal = cms.bool(True), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ), UseRecHitsFlag = cms.bool(True) ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositCalByAssociatorTowers = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ), UseRecHitsFlag = cms.bool(False) ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(True), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositCalEcal = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( CaloTowerCollectionLabel = cms.InputTag("towerMaker"), 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(0.0) ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositCalHcal = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( CaloTowerCollectionLabel = cms.InputTag("towerMaker"), 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(0.0), Weight_H = cms.double(1.0) ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositCtfTk = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("ctfGSWithMaterialTracks") ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositGsTk = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("ctfGSWithMaterialTracks") ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositJets = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ) ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('bestTrkSta'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muParamGlobalIsoDepositTk = cms.EDProducer("MuIsoDepositProducer", ExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ), IOPSet = cms.PSet( ExtractForCandidate = cms.bool(False), InputType = cms.string('MuonCollection'), MultipleDepositsFlag = cms.bool(False), MuonTrackRefType = cms.string('track'), inputMuonCollection = cms.InputTag("paramMuons","ParamGlobalMuons") ) ) process.muidAllArbitrated = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('AllArbitrated') ) process.muidGMStaChiCompatibility = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('GMStaChiCompatibility') ) process.muidGMTkChiCompatibility = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('GMTkChiCompatibility') ) process.muidGMTkKinkTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('GMTkKinkTight') ) process.muidGlobalMuonPromptTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('GlobalMuonPromptTight') ) process.muidRPCMuLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('RPCMuLoose') ) process.muidTM2DCompatibilityLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TM2DCompatibilityLoose') ) process.muidTM2DCompatibilityTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TM2DCompatibilityTight') ) process.muidTMLastStationAngLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMLastStationAngLoose') ) process.muidTMLastStationAngTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMLastStationAngTight') ) process.muidTMLastStationLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMLastStationLoose') ) process.muidTMLastStationOptimizedLowPtLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMLastStationOptimizedLowPtLoose') ) process.muidTMLastStationOptimizedLowPtTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMLastStationOptimizedLowPtTight') ) process.muidTMLastStationTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMLastStationTight') ) process.muidTMOneStationAngLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMOneStationAngLoose') ) process.muidTMOneStationAngTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMOneStationAngTight') ) process.muidTMOneStationLoose = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMOneStationLoose') ) process.muidTMOneStationTight = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TMOneStationTight') ) process.muidTrackerMuonArbitrated = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('TrackerMuonArbitrated') ) process.multi5x5BasicClustersCleaned = cms.EDProducer("Multi5x5ClusterProducer", IslandBarrelSeedThr = cms.double(0.5), IslandEndcapSeedThr = cms.double(0.18), RecHitFlagToBeExcluded = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), barrelClusterCollection = cms.string('multi5x5BarrelBasicClusters'), barrelHitTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), doBarrel = cms.bool(False), doEndcap = cms.bool(True), endcapClusterCollection = cms.string('multi5x5EndcapBasicClusters'), endcapHitTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), 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) ), reassignSeedCrysToClusterItSeeds = cms.bool(True) ) process.multi5x5BasicClustersUncleaned = cms.EDProducer("Multi5x5ClusterProducer", IslandBarrelSeedThr = cms.double(0.5), IslandEndcapSeedThr = cms.double(0.18), RecHitFlagToBeExcluded = cms.vstring(), barrelClusterCollection = cms.string('multi5x5BarrelBasicClusters'), barrelHitTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), doBarrel = cms.bool(False), doEndcap = cms.bool(True), endcapClusterCollection = cms.string('multi5x5EndcapBasicClusters'), endcapHitTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), 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) ), reassignSeedCrysToClusterItSeeds = cms.bool(True) ) process.multi5x5PreshowerClusterShape = cms.EDProducer("PreshowerClusterShapeProducer", PreshowerClusterShapeCollectionX = cms.string('multi5x5PreshowerXClustersShape'), PreshowerClusterShapeCollectionY = cms.string('multi5x5PreshowerYClustersShape'), debugLevel = cms.string('INFO'), endcapSClusterProducer = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower"), preshPi0Nstrip = cms.int32(5), preshRecHitProducer = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), preshStripEnergyCut = cms.double(0.0) ) process.multi5x5SuperClusters = cms.EDProducer("UnifiedSCCollectionProducer", bcCollection = cms.string('multi5x5EndcapBasicClusters'), bcCollectionUncleanOnly = cms.string('uncleanOnlyMulti5x5EndcapBasicClusters'), cleanBcCollection = cms.InputTag("multi5x5BasicClustersCleaned","multi5x5EndcapBasicClusters"), cleanScCollection = cms.InputTag("multi5x5SuperClustersCleaned","multi5x5EndcapSuperClusters"), scCollection = cms.string('multi5x5EndcapSuperClusters'), scCollectionUncleanOnly = cms.string('uncleanOnlyMulti5x5EndcapSuperClusters'), uncleanBcCollection = cms.InputTag("multi5x5BasicClustersUncleaned","multi5x5EndcapBasicClusters"), uncleanScCollection = cms.InputTag("multi5x5SuperClustersUncleaned","multi5x5EndcapSuperClusters") ) process.multi5x5SuperClustersCleaned = cms.EDProducer("Multi5x5SuperClusterProducer", barrelClusterTag = cms.InputTag("multi5x5BasicClusters","multi5x5BarrelBasicClustersCleaned"), barrelEtaSearchRoad = cms.double(0.06), barrelPhiSearchRoad = cms.double(0.8), barrelSuperclusterCollection = cms.string('multi5x5BarrelSuperClusters'), bremRecoveryPset = cms.PSet( barrel = cms.PSet( cryMin = cms.int32(2), cryVec = cms.vint32( 16, 13, 11, 10, 9, 8, 7, 6, 5, 4, 3 ), etVec = cms.vdouble( 5.0, 10.0, 15.0, 20.0, 30.0, 40.0, 45.0, 55.0, 135.0, 195.0, 225.0 ) ), endcap = cms.PSet( a = cms.double(47.85), b = cms.double(108.8), c = cms.double(0.1201) ) ), doBarrel = cms.bool(False), doEndcaps = cms.bool(True), dynamicPhiRoad = cms.bool(False), endcapClusterTag = cms.InputTag("multi5x5BasicClustersCleaned","multi5x5EndcapBasicClusters"), endcapEtaSearchRoad = cms.double(0.14), endcapPhiSearchRoad = cms.double(0.6), endcapSuperclusterCollection = cms.string('multi5x5EndcapSuperClusters'), seedTransverseEnergyThreshold = cms.double(1.0) ) process.multi5x5SuperClustersUncleaned = cms.EDProducer("Multi5x5SuperClusterProducer", barrelClusterTag = cms.InputTag("multi5x5BasicClusters","multi5x5BarrelBasicClustersCleaned"), barrelEtaSearchRoad = cms.double(0.06), barrelPhiSearchRoad = cms.double(0.8), barrelSuperclusterCollection = cms.string('multi5x5BarrelSuperClusters'), bremRecoveryPset = cms.PSet( barrel = cms.PSet( cryMin = cms.int32(2), cryVec = cms.vint32( 16, 13, 11, 10, 9, 8, 7, 6, 5, 4, 3 ), etVec = cms.vdouble( 5.0, 10.0, 15.0, 20.0, 30.0, 40.0, 45.0, 55.0, 135.0, 195.0, 225.0 ) ), endcap = cms.PSet( a = cms.double(47.85), b = cms.double(108.8), c = cms.double(0.1201) ) ), doBarrel = cms.bool(False), doEndcaps = cms.bool(True), dynamicPhiRoad = cms.bool(False), endcapClusterProducer = cms.string('multi5x5BasicClustersUncleaned'), endcapClusterTag = cms.InputTag("multi5x5BasicClustersCleaned","multi5x5EndcapBasicClusters"), endcapEtaSearchRoad = cms.double(0.14), endcapPhiSearchRoad = cms.double(0.6), endcapSuperclusterCollection = cms.string('multi5x5EndcapSuperClusters'), seedTransverseEnergyThreshold = cms.double(1.0) ) process.multi5x5SuperClustersWithPreshower = cms.EDProducer("PreshowerPhiClusterProducer", assocSClusterCollection = cms.string(''), endcapSClusterProducer = cms.InputTag("multi5x5SuperClusters","multi5x5EndcapSuperClusters"), esPhiClusterDeltaEta = cms.double(0.15), esPhiClusterDeltaPhi = cms.double(0.12), esStripEnergyCut = cms.double(0.0), etThresh = cms.double(0.0), preshClusterCollectionX = cms.string('preshowerXClusters'), preshClusterCollectionY = cms.string('preshowerYClusters'), preshRecHitProducer = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES") ) process.muonCSCDigis = cms.EDProducer("CSCDCCUnpacker", Debug = cms.untracked.bool(False), ErrorMask = cms.uint32(0), ExaminerMask = cms.uint32(535558134), FormatedEventDump = cms.untracked.bool(False), InputObjects = cms.InputTag("rawDataMapperByLabel"), 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) ) process.muonDTDigis = cms.EDProducer("DTuROSRawToDigi", debug = cms.untracked.bool(False), inputLabel = cms.InputTag("rawDataMapperByLabel") ) process.muonEcalDetIds = cms.EDProducer("InterestingEcalDetIdProducer", inputCollection = cms.InputTag("muons1stStep") ) process.muonGEMDigis = cms.EDProducer("GEMRawToDigiModule", InputLabel = cms.InputTag("rawDataMapperByLabel"), unPackStatusDigis = cms.bool(False), useDBEMap = cms.bool(True) ) process.muonMETValueMapProducer = cms.EDProducer("MuonMETValueMapProducer", TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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(True), useEcal = cms.bool(False), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = cms.bool(False), useMuon = cms.bool(False), usePreshower = cms.bool(False) ), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), isAlsoTkMu = cms.bool(True), maxEta = cms.double(2.5), maxNormChi2 = cms.double(10.0), maxd0 = cms.double(0.2), minPt = cms.double(10.0), minnHits = cms.int32(11), minnValidStaHits = cms.int32(1), muonInputTag = cms.InputTag("muons"), towerEtThreshold = cms.double(0.3), useHO = cms.bool(False), useRecHits = cms.bool(False), useTrackAssociatorPositions = cms.bool(True) ) process.muonRPCDigis = cms.EDProducer("RPCUnpackingModule", InputLabel = cms.InputTag("rawDataMapperByLabel"), doSynchro = cms.bool(True) ) process.muonRPCNewDigis = cms.EDProducer("RPCDigiMerger", inputTagCPPFDigis = cms.InputTag("rpcCPPFRawToDigi"), inputTagOMTFDigis = cms.InputTag("omtfStage2Digis"), inputTagTwinMuxDigis = cms.InputTag("rpcTwinMuxRawToDigi") ) process.muonSeededSeedsInOut = cms.EDProducer("MuonReSeeder", DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), cut = cms.string('pt > 2'), debug = cms.untracked.bool(False), insideOut = cms.bool(True), layersToKeep = cms.int32(5), src = cms.InputTag("earlyMuons") ) process.muonSeededSeedsInOutAsTracks = cms.EDProducer("FakeTrackProducerFromSeed", src = cms.InputTag("muonSeededSeedsInOut") ) process.muonSeededSeedsOutIn = cms.EDProducer("OutsideInMuonSeeder", cut = cms.string('pt > 10 && outerTrack.hitPattern.muonStationsWithValidHits >= 2'), debug = cms.untracked.bool(False), errorRescaleFactor = cms.double(2.0), fromVertex = cms.bool(True), hitCollector = cms.string('hitCollectorForOutInMuonSeeds'), hitsToTry = cms.int32(3), layersToTry = cms.int32(3), maxEtaForTOB = cms.double(1.8), minEtaForTEC = cms.double(0.7), muonPropagator = cms.string('SteppingHelixPropagatorAlong'), src = cms.InputTag("earlyMuons"), trackerPropagator = cms.string('PropagatorWithMaterial') ) process.muonSeededSeedsOutInAsTracks = cms.EDProducer("FakeTrackProducerFromSeed", src = cms.InputTag("muonSeededSeedsOutIn") ) process.muonSeededSeedsOutInDisplaced = cms.EDProducer("OutsideInMuonSeeder", cut = cms.string('pt > 10 && outerTrack.hitPattern.muonStationsWithValidHits >= 2'), debug = cms.untracked.bool(False), errorRescaleFactor = cms.double(2.0), fromVertex = cms.bool(False), hitCollector = cms.string('hitCollectorForOutInMuonSeeds'), hitsToTry = cms.int32(3), layersToTry = cms.int32(3), maxEtaForTOB = cms.double(1.8), minEtaForTEC = cms.double(0.7), muonPropagator = cms.string('SteppingHelixPropagatorAlong'), src = cms.InputTag("earlyDisplacedMuons"), trackerPropagator = cms.string('PropagatorWithMaterial') ) process.muonSeededSeedsOutInDisplacedAsTracks = cms.EDProducer("FakeTrackProducerFromSeed", src = cms.InputTag("muonSeededSeedsOutInDisplaced") ) process.muonSeededTrackCandidatesInOut = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('none'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryBuilderForInOut') ), TrajectoryCleaner = cms.string('muonSeededTrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("muonSeededSeedsInOut"), useHitsSplitting = cms.bool(True) ) process.muonSeededTrackCandidatesInOutAsTracks = cms.EDProducer("FakeTrackProducerFromCandidate", src = cms.InputTag("muonSeededTrackCandidatesInOut") ) process.muonSeededTrackCandidatesOutIn = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryBuilderForOutIn') ), TrajectoryCleaner = cms.string('muonSeededTrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(False), reverseTrajectories = cms.bool(False), src = cms.InputTag("muonSeededSeedsOutIn"), useHitsSplitting = cms.bool(True) ) process.muonSeededTrackCandidatesOutInAsTracks = cms.EDProducer("FakeTrackProducerFromCandidate", src = cms.InputTag("muonSeededTrackCandidatesOutIn") ) process.muonSeededTrackCandidatesOutInDisplaced = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('muonSeededTrajectoryBuilderForOutInDisplaced') ), TrajectoryCleaner = cms.string('muonSeededTrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(False), reverseTrajectories = cms.bool(False), src = cms.InputTag("muonSeededSeedsOutInDisplaced"), useHitsSplitting = cms.bool(True) ) process.muonSeededTrackCandidatesOutInDisplacedAsTracks = cms.EDProducer("FakeTrackProducerFromCandidate", src = cms.InputTag("muonSeededTrackCandidatesOutInDisplaced") ) process.muonSeededTracksInOut = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('muonSeededStepInOut'), Fitter = cms.string('muonSeededFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("muonSeededTrackCandidatesInOut"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.muonSeededTracksInOutClassifier = cms.EDProducer("TrackCutClassifier", beamspot = cms.InputTag("offlineBeamSpot"), 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), drWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_exp = cms.vint32(2147483647, 2147483647, 2147483647), dr_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), dz_par = cms.PSet( dzWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_exp = cms.vint32(2147483647, 2147483647, 2147483647), dz_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), isHLT = cms.bool(False), maxChi2 = cms.vdouble(9999.0, 9999.0, 9999.0), maxChi2n = cms.vdouble(10.0, 1.0, 0.4), maxDr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDz = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24, 15), maxLostLayers = cms.vint32(4, 3, 2), maxRelPtErr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), min3DLayers = cms.vint32(1, 2, 2), minHits = cms.vint32(0, 0, 1), minHits4pass = cms.vint32(2147483647, 2147483647, 2147483647), minLayers = cms.vint32(3, 5, 5), minNVtxTrk = cms.int32(2), minNdof = cms.vdouble(-1, -1, -1), minPixelHits = cms.vint32(0, 0, 0) ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag("muonSeededTracksInOut"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.muonSeededTracksInOutSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("muonSeededTracksInOut"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(10.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.55, 4.0), d0_par2 = cms.vdouble(0.55, 4.0), dz_par1 = cms.vdouble(0.65, 4.0), dz_par2 = cms.vdouble(0.45, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(4), max_d0 = 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), minHitsToBypassChecks = cms.uint32(7), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(5), nSigmaZ = cms.double(4.0), name = cms.string('muonSeededTracksInOutLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.0), 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(True), maxNumberLostLayers = cms.uint32(3), max_d0 = 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), minHitsToBypassChecks = cms.uint32(10), minNumber3DLayers = cms.uint32(2), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(6), nSigmaZ = cms.double(4.0), name = cms.string('muonSeededTracksInOutTight'), preFilterName = cms.string('muonSeededTracksInOutLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.4), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(2), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(7), nSigmaZ = cms.double(4.0), name = cms.string('muonSeededTracksInOutHighPurity'), preFilterName = cms.string('muonSeededTracksInOutTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.muonSeededTracksOutIn = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('muonSeededStepOutIn'), Fitter = cms.string('muonSeededFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("muonSeededTrackCandidatesOutIn"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.muonSeededTracksOutInClassifier = cms.EDProducer("TrackCutClassifier", beamspot = cms.InputTag("offlineBeamSpot"), 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), drWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_exp = cms.vint32(2147483647, 2147483647, 2147483647), dr_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), dz_par = cms.PSet( dzWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_exp = cms.vint32(2147483647, 2147483647, 2147483647), dz_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), isHLT = cms.bool(False), maxChi2 = cms.vdouble(9999.0, 9999.0, 9999.0), maxChi2n = cms.vdouble(10.0, 1.0, 0.4), maxDr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDz = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24, 15), maxLostLayers = cms.vint32(4, 3, 2), maxRelPtErr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), min3DLayers = cms.vint32(1, 2, 2), minHits = cms.vint32(0, 0, 1), minHits4pass = cms.vint32(2147483647, 2147483647, 2147483647), minLayers = cms.vint32(3, 5, 5), minNVtxTrk = cms.int32(2), minNdof = cms.vdouble(-1, -1, -1), minPixelHits = cms.vint32(0, 0, 0) ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag("muonSeededTracksOutIn"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.muonSeededTracksOutInDisplaced = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('muonSeededStepOutIn'), Fitter = cms.string('muonSeededFittingSmootherWithOutliersRejectionAndRK'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("muonSeededTrackCandidatesOutInDisplaced"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.muonSeededTracksOutInDisplacedClassifier = cms.EDProducer("TrackCutClassifier", beamspot = cms.InputTag("offlineBeamSpot"), 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), drWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_exp = cms.vint32(2147483647, 2147483647, 2147483647), dr_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dr_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), dz_par = cms.PSet( dzWPVerr_par = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_exp = cms.vint32(2147483647, 2147483647, 2147483647), dz_par1 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), dz_par2 = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38) ), isHLT = cms.bool(False), maxChi2 = cms.vdouble(9999.0, 9999.0, 9999.0), maxChi2n = cms.vdouble(10.0, 1.0, 0.4), maxDr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDz = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), maxDzWrtBS = cms.vdouble(3.40282346639e+38, 24, 15), maxLostLayers = cms.vint32(4, 3, 2), maxRelPtErr = cms.vdouble(3.40282346639e+38, 3.40282346639e+38, 3.40282346639e+38), min3DLayers = cms.vint32(1, 2, 2), minHits = cms.vint32(0, 0, 1), minHits4pass = cms.vint32(2147483647, 2147483647, 2147483647), minLayers = cms.vint32(3, 5, 5), minNVtxTrk = cms.int32(2), minNdof = cms.vdouble(-1, -1, -1), minPixelHits = cms.vint32(0, 0, 0) ), qualityCuts = cms.vdouble(-0.7, 0.1, 0.7), src = cms.InputTag("muonSeededTracksOutInDisplaced"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.muonSeededTracksOutInSelector = cms.EDProducer("MultiTrackSelector", beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("muonSeededTracksOutIn"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(10.0), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.55, 4.0), d0_par2 = cms.vdouble(0.55, 4.0), dz_par1 = cms.vdouble(0.65, 4.0), dz_par2 = cms.vdouble(0.45, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(4), max_d0 = 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), minHitsToBypassChecks = cms.uint32(7), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(5), nSigmaZ = cms.double(4.0), name = cms.string('muonSeededTracksOutInLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.0), 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(True), maxNumberLostLayers = cms.uint32(3), max_d0 = 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), minHitsToBypassChecks = cms.uint32(10), minNumber3DLayers = cms.uint32(2), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(6), nSigmaZ = cms.double(4.0), name = cms.string('muonSeededTracksOutInTight'), preFilterName = cms.string('muonSeededTracksOutInLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(False), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.4), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(2), minNumberLayers = cms.uint32(5), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(7), nSigmaZ = cms.double(4.0), name = cms.string('muonSeededTracksOutInHighPurity'), preFilterName = cms.string('muonSeededTracksOutInTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.muonSelectionTypeValueMapProducer = cms.EDProducer("MuonSelectionTypeValueMapProducer", inputMuonCollection = cms.InputTag("muons1stStep"), selectionType = cms.string('All') ) process.muonShowerInformation = cms.EDProducer("MuonShowerInformationProducer", ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), ShowerInformationFillerParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("csc2DRecHits"), CSCSegmentLabel = cms.InputTag("cscSegments"), DT4DRecSegmentLabel = cms.InputTag("dt4DSegments"), DTRecSegmentLabel = cms.InputTag("dt1DRecHits"), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackerRecHitBuilder = cms.string('WithTrackAngle') ), muonCollection = cms.InputTag("muons1stStep"), trackCollection = cms.InputTag("generalTracks") ) process.muons = cms.EDProducer("MuonProducer", ActivateDebug = cms.untracked.bool(False), ComputeStandardSelectors = cms.bool(True), CosmicIdMap = cms.InputTag("cosmicsVeto"), EcalIsoDeposits = cms.InputTag("muIsoDepositCalByAssociatorTowers","ecal"), FillCosmicsIdMap = cms.bool(True), FillDetectorBasedIsolation = cms.bool(True), FillPFIsolation = cms.bool(True), FillPFMomentumAndAssociation = cms.bool(True), FillSelectorMaps = cms.bool(True), FillShoweringInfo = cms.bool(True), FillTimingInfo = cms.bool(True), HcalIsoDeposits = cms.InputTag("muIsoDepositCalByAssociatorTowers","hcal"), HoIsoDeposits = cms.InputTag("muIsoDepositCalByAssociatorTowers","ho"), InputMuons = cms.InputTag("muons1stStep"), JetIsoDeposits = cms.InputTag("muIsoDepositJets"), PFCandidates = cms.InputTag("particleFlowTmp"), PFIsolation = cms.PSet( pfIsoMeanDRProfileR03 = cms.PSet( chargedHadron = cms.InputTag("muPFMeanDRIsoValueCharged03"), chargedParticle = cms.InputTag("muPFMeanDRIsoValueChargedAll03"), neutralHadron = cms.InputTag("muPFMeanDRIsoValueNeutral03"), neutralHadronHighThreshold = cms.InputTag("muPFMeanDRIsoValueNeutralHighThreshold03"), photon = cms.InputTag("muPFMeanDRIsoValueGamma03"), photonHighThreshold = cms.InputTag("muPFMeanDRIsoValueGammaHighThreshold03"), pu = cms.InputTag("muPFMeanDRIsoValuePU03") ), pfIsoMeanDRProfileR04 = cms.PSet( chargedHadron = cms.InputTag("muPFMeanDRIsoValueCharged04"), chargedParticle = cms.InputTag("muPFMeanDRIsoValueChargedAll04"), neutralHadron = cms.InputTag("muPFMeanDRIsoValueNeutral04"), neutralHadronHighThreshold = cms.InputTag("muPFMeanDRIsoValueNeutralHighThreshold04"), photon = cms.InputTag("muPFMeanDRIsoValueGamma04"), photonHighThreshold = cms.InputTag("muPFMeanDRIsoValueGammaHighThreshold04"), pu = cms.InputTag("muPFMeanDRIsoValuePU04") ), pfIsoSumDRProfileR03 = cms.PSet( chargedHadron = cms.InputTag("muPFSumDRIsoValueCharged03"), chargedParticle = cms.InputTag("muPFSumDRIsoValueChargedAll03"), neutralHadron = cms.InputTag("muPFSumDRIsoValueNeutral03"), neutralHadronHighThreshold = cms.InputTag("muPFSumDRIsoValueNeutralHighThreshold03"), photon = cms.InputTag("muPFSumDRIsoValueGamma03"), photonHighThreshold = cms.InputTag("muPFSumDRIsoValueGammaHighThreshold03"), pu = cms.InputTag("muPFSumDRIsoValuePU03") ), pfIsoSumDRProfileR04 = cms.PSet( chargedHadron = cms.InputTag("muPFSumDRIsoValueCharged04"), chargedParticle = cms.InputTag("muPFSumDRIsoValueChargedAll04"), neutralHadron = cms.InputTag("muPFSumDRIsoValueNeutral04"), neutralHadronHighThreshold = cms.InputTag("muPFSumDRIsoValueNeutralHighThreshold04"), photon = cms.InputTag("muPFSumDRIsoValueGamma04"), photonHighThreshold = cms.InputTag("muPFSumDRIsoValueGammaHighThreshold04"), pu = cms.InputTag("muPFSumDRIsoValuePU04") ), pfIsolationR03 = cms.PSet( chargedHadron = cms.InputTag("muPFIsoValueCharged03"), chargedParticle = cms.InputTag("muPFIsoValueChargedAll03"), neutralHadron = cms.InputTag("muPFIsoValueNeutral03"), neutralHadronHighThreshold = cms.InputTag("muPFIsoValueNeutralHighThreshold03"), photon = cms.InputTag("muPFIsoValueGamma03"), photonHighThreshold = cms.InputTag("muPFIsoValueGammaHighThreshold03"), pu = cms.InputTag("muPFIsoValuePU03") ), pfIsolationR04 = cms.PSet( chargedHadron = cms.InputTag("muPFIsoValueCharged04"), chargedParticle = cms.InputTag("muPFIsoValueChargedAll04"), neutralHadron = cms.InputTag("muPFIsoValueNeutral04"), neutralHadronHighThreshold = cms.InputTag("muPFIsoValueNeutralHighThreshold04"), photon = cms.InputTag("muPFIsoValueGamma04"), photonHighThreshold = cms.InputTag("muPFIsoValueGammaHighThreshold04"), pu = cms.InputTag("muPFIsoValuePU04") ) ), SelectorMaps = cms.VInputTag( cms.InputTag("muidTMLastStationOptimizedLowPtLoose"), cms.InputTag("muidTMLastStationOptimizedLowPtTight"), cms.InputTag("muidTM2DCompatibilityLoose"), cms.InputTag("muidTM2DCompatibilityTight"), cms.InputTag("muidTrackerMuonArbitrated"), cms.InputTag("muidTMLastStationAngLoose"), cms.InputTag("muidGlobalMuonPromptTight"), cms.InputTag("muidGMStaChiCompatibility"), cms.InputTag("muidTMLastStationAngTight"), cms.InputTag("muidGMTkChiCompatibility"), cms.InputTag("muidTMOneStationAngTight"), cms.InputTag("muidTMOneStationAngLoose"), cms.InputTag("muidTMLastStationLoose"), cms.InputTag("muidTMLastStationTight"), cms.InputTag("muidTMOneStationTight"), cms.InputTag("muidTMOneStationLoose"), cms.InputTag("muidAllArbitrated"), cms.InputTag("muidGMTkKinkTight"), cms.InputTag("muidRPCMuLoose") ), ShowerInfoMap = cms.InputTag("muonShowerInformation"), TrackIsoDeposits = cms.InputTag("muIsoDepositTk"), vertices = cms.InputTag("offlinePrimaryVertices") ) process.muons1stStep = cms.EDProducer("MuonIdProducer", CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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) ), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ), TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ), 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(True), fillEnergy = cms.bool(True), fillGlobalTrackQuality = cms.bool(True), fillGlobalTrackRefits = cms.bool(True), fillIsolation = cms.bool(True), fillMatching = cms.bool(True), fillTrackerKink = cms.bool(True), globalTrackQualityInputTag = cms.InputTag("glbTrackQual"), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), inputCollectionLabels = cms.VInputTag( cms.InputTag("generalTracks"), cms.InputTag("globalMuons"), cms.InputTag("standAloneMuons","UpdatedAtVtx"), cms.InputTag("tevMuons","firstHit"), cms.InputTag("tevMuons","picky"), cms.InputTag("tevMuons","dyt") ), inputCollectionTypes = cms.vstring( 'inner tracks', 'links', 'outer tracks', 'tev firstHit', 'tev picky', 'tev dyt' ), jetDepositName = cms.string('jets'), maxAbsDx = cms.double(3.0), maxAbsDy = cms.double(9999.0), maxAbsEta = cms.double(3.0), maxAbsPullX = cms.double(3.0), maxAbsPullY = cms.double(9999.0), minCaloCompatibility = cms.double(0.6), minNumberOfMatches = cms.int32(1), minP = cms.double(2.5), minPCaloMuon = cms.double(1000000000.0), minPt = cms.double(0.8), ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0), runArbitrationCleaner = cms.bool(True), sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0), trackDepositName = cms.string('tracker'), writeIsoDeposits = cms.bool(True) ) process.muonsFromCosmics = cms.EDProducer("MuonIdProducer", CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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) ), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9999), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(9999), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DCosmicSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DCosmicSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("cosmicMuons") ), TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ), 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(True), fillEnergy = cms.bool(True), fillGlobalTrackQuality = cms.bool(False), fillGlobalTrackRefits = cms.bool(False), fillIsolation = cms.bool(False), fillMatching = cms.bool(True), fillTrackerKink = cms.bool(True), globalTrackQualityInputTag = cms.InputTag("glbTrackQual"), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), inputCollectionLabels = cms.VInputTag("cosmicMuons"), inputCollectionTypes = cms.vstring('outer tracks'), jetDepositName = cms.string('jets'), maxAbsDx = cms.double(3.0), maxAbsDy = cms.double(9999.0), maxAbsEta = cms.double(3.0), maxAbsPullX = cms.double(3.0), maxAbsPullY = cms.double(9999.0), minCaloCompatibility = cms.double(0.6), minNumberOfMatches = cms.int32(1), minP = cms.double(2.5), minPCaloMuon = cms.double(1000000000.0), minPt = cms.double(0.8), ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0), runArbitrationCleaner = cms.bool(True), sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0), trackDepositName = cms.string('tracker'), writeIsoDeposits = cms.bool(True) ) process.muonsFromCosmics1Leg = cms.EDProducer("MuonIdProducer", CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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) ), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9999), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(9999), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DCosmicSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DCosmicSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("cosmicMuons1Leg") ), TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ), 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(True), fillEnergy = cms.bool(True), fillGlobalTrackQuality = cms.bool(False), fillGlobalTrackRefits = cms.bool(False), fillIsolation = cms.bool(False), fillMatching = cms.bool(True), fillTrackerKink = cms.bool(True), globalTrackQualityInputTag = cms.InputTag("glbTrackQual"), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), inputCollectionLabels = cms.VInputTag("cosmicMuons1Leg"), inputCollectionTypes = cms.vstring('outer tracks'), jetDepositName = cms.string('jets'), maxAbsDx = cms.double(3.0), maxAbsDy = cms.double(9999.0), maxAbsEta = cms.double(3.0), maxAbsPullX = cms.double(3.0), maxAbsPullY = cms.double(9999.0), minCaloCompatibility = cms.double(0.6), minNumberOfMatches = cms.int32(1), minP = cms.double(2.5), minPCaloMuon = cms.double(1000000000.0), minPt = cms.double(0.8), ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0), runArbitrationCleaner = cms.bool(True), sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0), trackDepositName = cms.string('tracker'), writeIsoDeposits = cms.bool(True) ) process.muonsWithSET = cms.EDProducer("MuonIdProducer", CaloExtractorPSet = cms.PSet( CenterConeOnCalIntersection = cms.bool(False), ComponentName = cms.string('CaloExtractorByAssociator'), DR_Max = cms.double(0.5), 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('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), 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("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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("ak4CaloJets"), PrintTimeReport = cms.untracked.bool(False), PropagatorName = cms.string('SteppingHelixPropagatorAny'), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring('SteppingHelixPropagatorAny'), RPCLayers = cms.bool(False), UseMuonNavigation = cms.untracked.bool(False) ), Threshold = cms.double(5.0), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(False), useHcal = cms.bool(False), useME0 = 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) ), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ), TrackAssociatorParameters = cms.PSet( CSCSegmentCollectionLabel = cms.InputTag("cscSegments"), CaloTowerCollectionLabel = cms.InputTag("towerMaker"), DTRecSegment4DCollectionLabel = cms.InputTag("dt4DSegments"), EBRecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EERecHitCollectionLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), GEMSegmentCollectionLabel = cms.InputTag("gemSegments"), HBHERecHitCollectionLabel = cms.InputTag("hbhereco"), HORecHitCollectionLabel = cms.InputTag("horeco"), ME0SegmentCollectionLabel = cms.InputTag("me0Segments"), 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), useGEM = cms.bool(False), useHO = cms.bool(True), useHcal = cms.bool(True), useME0 = cms.bool(False), useMuon = cms.bool(True), usePreshower = cms.bool(False) ), TrackExtractorPSet = cms.PSet( BeamSpotLabel = cms.InputTag("offlineBeamSpot"), BeamlineOption = cms.string('BeamSpotFromEvent'), Chi2Ndof_Max = cms.double(1e+64), Chi2Prob_Min = cms.double(-1.0), ComponentName = cms.string('TrackExtractor'), DR_Max = cms.double(0.5), 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("generalTracks") ), TrackerKinkFinderParameters = cms.PSet( DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RefitDirection = cms.string('alongMomentum'), RefitRPCHits = cms.bool(True), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), diagonalOnly = cms.bool(False), usePosition = cms.bool(True) ), 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(True), fillEnergy = cms.bool(True), fillGlobalTrackQuality = cms.bool(True), fillGlobalTrackRefits = cms.bool(True), fillIsolation = cms.bool(True), fillMatching = cms.bool(True), fillTrackerKink = cms.bool(True), globalTrackQualityInputTag = cms.InputTag("glbTrackQual"), hcalDepositName = cms.string('hcal'), hoDepositName = cms.string('ho'), inputCollectionLabels = cms.VInputTag("generalTracks", "globalSETMuons", cms.InputTag("standAloneSETMuons","UpdatedAtVtx")), 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(3.0), maxAbsPullY = cms.double(9999.0), minCaloCompatibility = cms.double(0.6), minNumberOfMatches = cms.int32(1), minP = cms.double(2.5), minPCaloMuon = cms.double(1000000000.0), minPt = cms.double(0.8), ptThresholdToFillCandidateP4WithGlobalFit = cms.double(200.0), runArbitrationCleaner = cms.bool(True), sigmaThresholdToFillCandidateP4WithGlobalFit = cms.double(2.0), trackDepositName = cms.string('tracker'), writeIsoDeposits = cms.bool(True) ) process.muontiming = cms.EDProducer("MuonTimingProducer", MuonCollection = cms.InputTag("muons"), TimingFillerParameters = cms.PSet( CSCTimingParameters = cms.PSet( CSCStripError = cms.double(7.0), CSCStripTimeOffset = cms.double(0.0), CSCWireError = cms.double(8.6), CSCWireTimeOffset = cms.double(0.0), PruneCut = cms.double(9.0), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseStripTime = cms.bool(True), UseWireTime = cms.bool(True), debug = cms.bool(False) ), DTTimingParameters = cms.PSet( DTTimeOffset = cms.double(0.0), DoWireCorr = cms.bool(True), DropTheta = cms.bool(True), HitError = cms.double(2.8), HitsMin = cms.int32(3), PruneCut = cms.double(5.0), RequireBothProjections = cms.bool(False), ServiceParameters = cms.PSet( Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite' ), RPCLayers = cms.bool(True) ), UseSegmentT0 = cms.bool(False), debug = cms.bool(False) ), EcalEnergyCut = cms.double(0.4), ErrorEB = cms.double(2.085), ErrorEE = cms.double(6.95), MatchParameters = cms.PSet( CSCsegments = cms.InputTag("cscSegments"), DTradius = cms.double(0.01), DTsegments = cms.InputTag("dt4DSegments"), RPChits = cms.InputTag("rpcRecHits"), TightMatchCSC = cms.bool(True), TightMatchDT = cms.bool(False) ), UseCSC = cms.bool(True), UseDT = cms.bool(True), UseECAL = cms.bool(False) ) ) process.mustacheConversionTrackCandidates = cms.EDProducer("ConversionTrackCandidateProducer", InOutRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), MeasurementTrackerName = cms.string(''), MissingHitPenalty = cms.double(20.0), OutInRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), TrajectoryBuilder = cms.string('TrajectoryBuilderForConversions'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForConversions') ), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('alongMomElePropagator'), propagatorOppositeTISE = cms.string('oppositeToMomElePropagator') ), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), bcBarrelCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALBarrel"), bcECut = cms.double(1.5), bcEndcapCollection = cms.InputTag("particleFlowSuperClusterECAL","particleFlowBasicClusterECALEndcap"), bcEtCut = cms.double(1.5), ecalIsoCut_offset = cms.double(999999999), ecalIsoCut_slope = cms.double(0.0), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), fractionShared = cms.double(0.5), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), inOutTrackCandidateCollection = cms.string('inOutTracksFromConversions'), inOutTrackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection'), isoConeR = cms.double(0.4), isoEMin = cms.double(0.08), isoEtMin = cms.double(0.0), isoEtaSlice = cms.double(2.5), isoInnerConeR = cms.double(3.5), maxHOverE = cms.double(0.15), maxNumOfSeedsInOut = cms.int32(50), maxNumOfSeedsOutIn = cms.int32(50), minSCEt = cms.double(20.0), outInTrackCandidateCollection = cms.string('outInTracksFromConversions'), outInTrackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection'), scHybridBarrelProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), scIslandEndcapProducer = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALEndcapWithPreshower"), useEtCut = cms.bool(True), useHitsSplitting = cms.bool(False), useNumXstals = cms.bool(True), vetoClusteredHits = cms.bool(False) ) process.mvaElectrons = cms.EDProducer("ElectronIdMVABased", HZZmvaWeightFile = cms.vstring( 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml' ), electronTag = cms.InputTag("electronsWithPresel"), thresholdBarrel = cms.double(-0.1875), thresholdEndcap = cms.double(-0.1075), thresholdIsoDR03Barrel = cms.double(10.0), thresholdIsoDR03Endcap = cms.double(10.0), vertexTag = cms.InputTag("offlinePrimaryVertices") ) process.negativeCombinedInclusiveSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("inclusiveSecondaryVertexFinderNegativeTagInfos")) ) process.negativeCombinedMVAV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeCombinedMVAV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("secondaryVertexNegativeTagInfos"), cms.InputTag("inclusiveSecondaryVertexFinderNegativeTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.negativeCombinedSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("secondaryVertexNegativeTagInfos")) ) process.negativeOnlyJetBProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeOnlyJetBProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.negativeOnlyJetProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeOnlyJetProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.negativeSimpleInclusiveSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("inclusiveSecondaryVertexFinderFilteredNegativeTagInfos")) ) process.negativeSimpleInclusiveSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("inclusiveSecondaryVertexFinderFilteredNegativeTagInfos")) ) process.negativeSimpleSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("secondaryVertexNegativeTagInfos")) ) process.negativeSimpleSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("secondaryVertexNegativeTagInfos")) ) process.negativeSoftPFElectronBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFElectronComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.negativeSoftPFElectronByIP2dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFElectronByIP2dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.negativeSoftPFElectronByIP3dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFElectronByIP3dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.negativeSoftPFElectronByPtBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFElectronByPtComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.negativeSoftPFMuonBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFMuonComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.negativeSoftPFMuonByIP2dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFMuonByIP2dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.negativeSoftPFMuonByIP3dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFMuonByIP3dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.negativeSoftPFMuonByPtBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeSoftPFMuonByPtComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.negativeTrackCountingHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeTrackCounting3D2ndComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.negativeTrackCountingHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('negativeTrackCounting3D3rdComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.neutralIsoPtSum = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), 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(False), customOuterCone = cms.double(0.5), deltaBetaFactor = cms.string('0.38'), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawSumPt = cms.bool(True), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.newCombinedSeeds = cms.EDProducer("SeedCombiner", seedCollections = cms.VInputTag( "initialStepSeeds", "highPtTripletStepSeeds", "mixedTripletStepSeeds", "pixelLessStepSeeds", "tripletElectronSeeds", "pixelPairElectronSeeds", "stripPairElectronSeeds", "lowPtTripletStepSeeds", "lowPtQuadStepSeeds", "detachedTripletStepSeeds", "detachedQuadStepSeeds", "pixelPairStepSeeds" ) ) process.offlineBeamSpot = cms.EDProducer("BeamSpotProducer") process.offlinePrimaryVertices = cms.EDProducer("RecoChargedRefCandidatePrimaryVertexSorter", assignment = cms.PSet( maxDistanceToJetAxis = cms.double(0.07), maxDtSigForPrimaryAssignment = cms.double(4.0), 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) ), jets = cms.InputTag("ak4CaloJetsForTrk"), particles = cms.InputTag("trackRefsForJetsBeforeSorting"), produceAssociationToOriginalVertices = cms.bool(False), produceNoPileUpCollection = cms.bool(False), producePileUpCollection = cms.bool(False), produceSortedVertices = cms.bool(True), qualityForPrimary = cms.int32(3), sorting = cms.PSet( ), trackTimeResoTag = cms.InputTag(""), trackTimeTag = cms.InputTag(""), usePVMET = cms.bool(True), vertices = cms.InputTag("unsortedOfflinePrimaryVertices") ) process.offlinePrimaryVertices4D = cms.EDProducer("RecoChargedRefCandidatePrimaryVertexSorter", assignment = cms.PSet( maxDistanceToJetAxis = cms.double(0.07), maxDtSigForPrimaryAssignment = cms.double(4.0), 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(True) ), jets = cms.InputTag("ak4CaloJetsForTrk"), particles = cms.InputTag("trackRefsForJetsBeforeSorting4D"), produceAssociationToOriginalVertices = cms.bool(False), produceNoPileUpCollection = cms.bool(False), producePileUpCollection = cms.bool(False), produceSortedVertices = cms.bool(True), qualityForPrimary = cms.int32(3), sorting = cms.PSet( ), trackTimeResoTag = cms.InputTag("trackTimeValueMapProducer","generalTracksConfigurableFlatResolutionModelResolution"), trackTimeTag = cms.InputTag("trackTimeValueMapProducer","generalTracksConfigurableFlatResolutionModel"), usePVMET = cms.bool(True), vertices = cms.InputTag("unsortedOfflinePrimaryVertices4D") ) process.offlinePrimaryVertices4DWithBS = cms.EDProducer("RecoChargedRefCandidatePrimaryVertexSorter", assignment = cms.PSet( maxDistanceToJetAxis = cms.double(0.07), maxDtSigForPrimaryAssignment = cms.double(4.0), 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(True) ), jets = cms.InputTag("ak4CaloJetsForTrk"), particles = cms.InputTag("trackRefsForJetsBeforeSorting4D"), produceAssociationToOriginalVertices = cms.bool(False), produceNoPileUpCollection = cms.bool(False), producePileUpCollection = cms.bool(False), produceSortedVertices = cms.bool(True), qualityForPrimary = cms.int32(3), sorting = cms.PSet( ), trackTimeResoTag = cms.InputTag("trackTimeValueMapProducer","generalTracksConfigurableFlatResolutionModelResolution"), trackTimeTag = cms.InputTag("trackTimeValueMapProducer","generalTracksConfigurableFlatResolutionModel"), usePVMET = cms.bool(True), vertices = cms.InputTag("unsortedOfflinePrimaryVertices4D","WithBS") ) process.offlinePrimaryVerticesWithBS = cms.EDProducer("RecoChargedRefCandidatePrimaryVertexSorter", assignment = cms.PSet( maxDistanceToJetAxis = cms.double(0.07), maxDtSigForPrimaryAssignment = cms.double(4.0), 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) ), jets = cms.InputTag("ak4CaloJetsForTrk"), particles = cms.InputTag("trackRefsForJetsBeforeSorting"), produceAssociationToOriginalVertices = cms.bool(False), produceNoPileUpCollection = cms.bool(False), producePileUpCollection = cms.bool(False), produceSortedVertices = cms.bool(True), qualityForPrimary = cms.int32(3), sorting = cms.PSet( ), trackTimeResoTag = cms.InputTag(""), trackTimeTag = cms.InputTag(""), usePVMET = cms.bool(True), vertices = cms.InputTag("unsortedOfflinePrimaryVertices","WithBS") ) process.oldegConversionTrackCandidates = cms.EDProducer("ConversionTrackCandidateProducer", InOutRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), MeasurementTrackerName = cms.string(''), MissingHitPenalty = cms.double(20.0), OutInRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), TrajectoryBuilder = cms.string('TrajectoryBuilderForConversions'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForConversions') ), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('alongMomElePropagator'), propagatorOppositeTISE = cms.string('oppositeToMomElePropagator') ), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), bcBarrelCollection = cms.InputTag("hybridSuperClusters","hybridBarrelBasicClusters"), bcECut = cms.double(1.5), bcEndcapCollection = cms.InputTag("multi5x5SuperClusters","multi5x5EndcapBasicClusters"), bcEtCut = cms.double(1.5), ecalIsoCut_offset = cms.double(999999999), ecalIsoCut_slope = cms.double(0.0), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), fractionShared = cms.double(0.5), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), inOutTrackCandidateCollection = cms.string('inOutTracksFromConversions'), inOutTrackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection'), isoConeR = cms.double(0.4), isoEMin = cms.double(0.08), isoEtMin = cms.double(0.0), isoEtaSlice = cms.double(2.5), isoInnerConeR = cms.double(3.5), maxHOverE = cms.double(0.15), maxNumOfSeedsInOut = cms.int32(50), maxNumOfSeedsOutIn = cms.int32(50), minSCEt = cms.double(20.0), outInTrackCandidateCollection = cms.string('outInTracksFromConversions'), outInTrackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection'), scHybridBarrelProducer = cms.InputTag("correctedHybridSuperClusters"), scIslandEndcapProducer = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower"), useEtCut = cms.bool(True), useHitsSplitting = cms.bool(False), useNumXstals = cms.bool(True), vetoClusteredHits = cms.bool(False) ) process.oldegConversions = cms.EDProducer("ConvertedPhotonProducer", AlgorithmName = cms.string('ecalSeeded'), MVA_weights_location = cms.string('RecoEgamma/EgammaTools/data/TMVAnalysis_Likelihood.weights.txt'), bcBarrelCollection = cms.InputTag("hybridSuperClusters","hybridBarrelBasicClusters"), bcEndcapCollection = cms.InputTag("multi5x5SuperClusters","multi5x5EndcapBasicClusters"), cleanedConvertedPhotonCollection = cms.string(''), conversionIOTrackProducer = cms.string('ckfInOutTracksFromOldEGConversions'), conversionOITrackProducer = cms.string('ckfOutInTracksFromOldEGConversions'), convertedPhotonCollection = cms.string('uncleanedConversions'), dRForConversionRecovery = cms.double(0.3), deltaCotCut = cms.double(0.05), generalTracksSrc = cms.InputTag("generalTracks"), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), inOutTrackCollection = cms.string(''), inOutTrackSCAssociation = cms.string('inOutTrackSCAssociationCollection'), maxDelta = cms.double(0.01), maxHOverE = cms.double(0.15), maxNbrOfIterations = cms.int32(40), maxNumOfCandidates = cms.int32(3), maxReducedChiSq = cms.double(225.0), minApproachDisCut = cms.double(0.0), minChiSqImprovement = cms.double(50.0), minSCEt = cms.double(20.0), outInTrackCollection = cms.string(''), outInTrackSCAssociation = cms.string('outInTrackSCAssociationCollection'), recoverOneTrackCase = cms.bool(True), risolveConversionAmbiguity = cms.bool(True), scHybridBarrelProducer = cms.InputTag("correctedHybridSuperClusters"), scIslandEndcapProducer = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower") ) process.omtfStage2Digis = cms.EDProducer("OmtfUnpacker", inputLabel = cms.InputTag("rawDataMapperByLabel"), skipRpc = cms.bool(False) ) process.onlineMetaDataDigis = cms.EDProducer("OnlineMetaDataRawToDigi", onlineMetaDataInputLabel = cms.InputTag("rawDataMapperByLabel") ) process.onlineMetaDataRawToDigi = cms.EDProducer("OnlineMetaDataRawToDigi", onlineMetaDataInputLabel = cms.InputTag("rawDataCollector") ) process.ootPhotonCore = cms.EDProducer("PhotonCoreProducer", conversionProducer = cms.InputTag("conversions"), minSCEt = cms.double(10.0), photonCoreCollection = cms.string(''), pixelSeedProducer = cms.InputTag("electronMergedSeeds"), risolveConversionAmbiguity = cms.bool(True), scHybridBarrelProducer = cms.InputTag("particleFlowSuperClusterOOTECAL","particleFlowSuperClusterOOTECALBarrel"), scIslandEndcapProducer = cms.InputTag("particleFlowSuperClusterOOTECAL","particleFlowSuperClusterOOTECALEndcapWithPreshower") ) process.ootPhotonEcalPFClusterIsolationProducer = cms.EDProducer("PhotonEcalPFClusterIsolationProducer", candidateProducer = cms.InputTag("ootPhotonsTmp"), drMax = cms.double(0.3), drVetoBarrel = cms.double(0), drVetoEndcap = cms.double(0), energyBarrel = cms.double(0), energyEndcap = cms.double(0), etaStripBarrel = cms.double(0), etaStripEndcap = cms.double(0), pfClusterProducer = cms.InputTag("particleFlowClusterOOTECAL") ) process.ootPhotonHcalPFClusterIsolationProducer = cms.EDProducer("PhotonHcalPFClusterIsolationProducer", candidateProducer = cms.InputTag("ootPhotonsTmp"), drMax = cms.double(0.3), drVetoBarrel = cms.double(0), drVetoEndcap = cms.double(0), energyBarrel = cms.double(0), energyEndcap = cms.double(0), etaStripBarrel = cms.double(0), etaStripEndcap = cms.double(0), pfClusterProducerHCAL = cms.InputTag("particleFlowClusterHCAL"), useHF = cms.bool(False) ) process.ootPhotons = cms.EDProducer("GEDPhotonProducer", PFIsolationCalculatorSet = cms.PSet( ComponentName = cms.string('pfIsolationCalculator'), applyDzDxyVeto = cms.bool(True), applyMissHitPhVeto = cms.bool(False), applyPFPUVeto = cms.bool(True), applyVeto = cms.bool(True), checkClosestZVertex = cms.bool(True), coneDR = cms.double(0.3), deltaRVetoBarrel = cms.bool(True), deltaRVetoBarrelCharged = cms.double(0.02), deltaRVetoBarrelNeutrals = cms.double(-1.0), deltaRVetoBarrelPhotons = cms.double(-1.0), deltaRVetoEndcap = cms.bool(True), deltaRVetoEndcapCharged = cms.double(0.02), deltaRVetoEndcapNeutrals = cms.double(-1.0), deltaRVetoEndcapPhotons = cms.double(0.07), numberOfCrystalEndcapPhotons = cms.double(4.0), numberOfRings = cms.int32(1), particleType = cms.int32(1), rectangleDeltaEtaVetoBarrelCharged = cms.double(-1), rectangleDeltaEtaVetoBarrelNeutrals = cms.double(-1), rectangleDeltaEtaVetoBarrelPhotons = cms.double(0.015), rectangleDeltaEtaVetoEndcapCharged = cms.double(-1), rectangleDeltaEtaVetoEndcapNeutrals = cms.double(-1), rectangleDeltaEtaVetoEndcapPhotons = cms.double(-1), rectangleDeltaPhiVetoBarrelCharged = cms.double(-1), rectangleDeltaPhiVetoBarrelNeutrals = cms.double(-1), rectangleDeltaPhiVetoBarrelPhotons = cms.double(1.0), rectangleDeltaPhiVetoEndcapCharged = cms.double(-1), rectangleDeltaPhiVetoEndcapNeutrals = cms.double(-1), rectangleDeltaPhiVetoEndcapPhotons = cms.double(-1), rectangleVetoBarrel = cms.bool(True), rectangleVetoEndcap = cms.bool(False), ringSize = cms.double(0.3), useCrystalSize = cms.bool(True) ), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromEcalEnergy'), chargedHadronIsolation = cms.InputTag(""), checkHcalStatus = cms.bool(True), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.5), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(0.94), minR9Endcap = cms.double(0.95), minSCEtBarrel = cms.double(10.0), minSCEtEndcap = cms.double(10.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), neutralHadronIsolation = cms.InputTag(""), outputPhotonCollection = cms.string(''), pfCandidates = cms.InputTag("particleFlowTmp"), pfECALClusIsolation = cms.InputTag("ootPhotonEcalPFClusterIsolationProducer"), pfEgammaCandidates = cms.InputTag(""), pfHCALClusIsolation = cms.InputTag("ootPhotonHcalPFClusterIsolationProducer"), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), photonIsolation = cms.InputTag(""), photonProducer = cms.InputTag("ootPhotonsTmp"), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), preshowerHits = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), reconstructionStep = cms.string('ootfinal'), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True), useRegression = cms.bool(True), valueMapPhotons = cms.string('') ) process.ootPhotonsTmp = cms.EDProducer("GEDPhotonProducer", PFIsolationCalculatorSet = cms.PSet( ComponentName = cms.string('pfIsolationCalculator'), applyDzDxyVeto = cms.bool(True), applyMissHitPhVeto = cms.bool(False), applyPFPUVeto = cms.bool(True), applyVeto = cms.bool(True), checkClosestZVertex = cms.bool(True), coneDR = cms.double(0.3), deltaRVetoBarrel = cms.bool(True), deltaRVetoBarrelCharged = cms.double(0.02), deltaRVetoBarrelNeutrals = cms.double(-1.0), deltaRVetoBarrelPhotons = cms.double(-1.0), deltaRVetoEndcap = cms.bool(True), deltaRVetoEndcapCharged = cms.double(0.02), deltaRVetoEndcapNeutrals = cms.double(-1.0), deltaRVetoEndcapPhotons = cms.double(0.07), numberOfCrystalEndcapPhotons = cms.double(4.0), numberOfRings = cms.int32(1), particleType = cms.int32(1), rectangleDeltaEtaVetoBarrelCharged = cms.double(-1), rectangleDeltaEtaVetoBarrelNeutrals = cms.double(-1), rectangleDeltaEtaVetoBarrelPhotons = cms.double(0.015), rectangleDeltaEtaVetoEndcapCharged = cms.double(-1), rectangleDeltaEtaVetoEndcapNeutrals = cms.double(-1), rectangleDeltaEtaVetoEndcapPhotons = cms.double(-1), rectangleDeltaPhiVetoBarrelCharged = cms.double(-1), rectangleDeltaPhiVetoBarrelNeutrals = cms.double(-1), rectangleDeltaPhiVetoBarrelPhotons = cms.double(1.0), rectangleDeltaPhiVetoEndcapCharged = cms.double(-1), rectangleDeltaPhiVetoEndcapNeutrals = cms.double(-1), rectangleDeltaPhiVetoEndcapPhotons = cms.double(-1), rectangleVetoBarrel = cms.bool(True), rectangleVetoEndcap = cms.bool(False), ringSize = cms.double(0.3), useCrystalSize = cms.bool(True) ), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromEcalEnergy'), checkHcalStatus = cms.bool(True), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.5), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(0.94), minR9Endcap = cms.double(0.95), minSCEtBarrel = cms.double(10.0), minSCEtEndcap = cms.double(10.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), outputPhotonCollection = cms.string(''), pfCandidates = cms.InputTag("particleFlowTmp"), pfEgammaCandidates = cms.InputTag(""), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), photonProducer = cms.InputTag("ootPhotonCore"), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), preshowerHits = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), reconstructionStep = cms.string('oot'), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True), useRegression = cms.bool(True), valueMapPhotons = cms.string('') ) process.outInConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('ckfOutInTracksFromConversions'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(True), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.outInOldEGConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('ckfOutInTracksFromOldEGConversions'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(True), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.pACentrality = cms.EDProducer("CentralityProducer", TrackQuality = cms.string('highPurity'), UseQuality = cms.bool(True), doPixelCut = cms.bool(True), hfEtaCut = cms.double(4), lowGainZDC = cms.bool(True), midRapidityRange = cms.double(1), produceETmidRapidity = cms.bool(True), produceEcalhits = cms.bool(True), produceHFhits = cms.bool(True), produceHFtowers = cms.bool(True), producePixelTracks = cms.bool(True), producePixelhits = cms.bool(True), produceTracks = cms.bool(True), produceZDChits = cms.bool(True), reUseCentrality = cms.bool(False), srcEBhits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), srcEEhits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), srcHFhits = cms.InputTag("hfreco"), srcPixelTracks = cms.InputTag("pixelTracks"), srcPixelhits = cms.InputTag("siPixelRecHits"), srcReUse = cms.InputTag("pACentrality"), srcTowers = cms.InputTag("towerMaker"), srcTracks = cms.InputTag("generalTracks"), srcVertex = cms.InputTag("offlinePrimaryVertices"), srcZDChits = cms.InputTag("zdcreco"), trackEtaCut = cms.double(2), trackPtCut = cms.double(1) ) process.particleBasedIsolation = cms.EDProducer("ParticleBasedIsoProducer", electronProducer = cms.InputTag("gedGsfElectrons"), electronTmpProducer = cms.InputTag("gedGsfElectronsTmp"), pfBlockBasedIsolationSetUp = cms.PSet( ComponentName = cms.string('pfBlockBasedIsolation'), coneSize = cms.double(9999999999) ), pfCandidates = cms.InputTag("particleFlow"), pfEgammaCandidates = cms.InputTag("particleFlowEGamma"), photonProducer = cms.InputTag("gedPhotons"), photonTmpProducer = cms.InputTag("gedPhotonsTmp"), valueMapElePFblockIso = cms.string('gedGsfElectrons'), valueMapEleToEG = cms.string(''), valueMapPhoPFblockIso = cms.string('gedPhotons'), valueMapPhoToEG = cms.string('valMapPFEgammaCandToPhoton') ) process.particleBasedIsolationTmp = cms.EDProducer("ParticleBasedIsoProducer", electronProducer = cms.InputTag("gedGsfElectronsTmp"), electronTmpProducer = cms.InputTag("gedGsfElectronsTmp"), pfBlockBasedIsolationSetUp = cms.PSet( ComponentName = cms.string('pfBlockBasedIsolation'), coneSize = cms.double(9999999999) ), pfCandidates = cms.InputTag("particleFlowTmp"), pfEgammaCandidates = cms.InputTag("particleFlowEGamma"), photonProducer = cms.InputTag("gedPhotonsTmp"), photonTmpProducer = cms.InputTag("gedPhotonsTmp"), valueMapElePFblockIso = cms.string('gedGsfElectronsTmp'), valueMapEleToEG = cms.string(''), valueMapPhoPFblockIso = cms.string('gedPhotonsTmp'), valueMapPhoToEG = cms.string('valMapPFEgammaCandToPhoton') ) process.particleFlow = cms.EDProducer("PFLinker", FillMuonRefs = cms.bool(True), GsfElectrons = cms.InputTag("gedGsfElectrons"), Muons = cms.InputTag("muons","muons1stStep2muonsMap"), OutputPF = cms.string(''), PFCandidate = cms.VInputTag(cms.InputTag("particleFlowTmp")), Photons = cms.InputTag("gedPhotons"), ProducePFCandidates = cms.bool(True), ValueMapElectrons = cms.string('electrons'), ValueMapMerged = cms.string('all'), ValueMapPhotons = cms.string('photons'), forceElectronsInHGCAL = cms.bool(False) ) process.particleFlowBadHcalPseudoCluster = cms.EDProducer("PFBadHcalPseudoClusterProducer", debug = cms.untracked.bool(False), enable = cms.bool(True) ) process.particleFlowBlock = cms.EDProducer("PFBlockProducer", debug = cms.untracked.bool(False), elementImporters = cms.VPSet( cms.PSet( gsfsAreSecondary = cms.bool(False), importerName = cms.string('GSFTrackImporter'), source = cms.InputTag("pfTrackElec"), superClustersArePF = cms.bool(True) ), cms.PSet( importerName = cms.string('ConvBremTrackImporter'), source = cms.InputTag("pfTrackElec") ), cms.PSet( importerName = cms.string('SuperClusterImporter'), maximumHoverE = cms.double(0.5), minPTforBypass = cms.double(100.0), minSuperClusterPt = cms.double(10.0), source_eb = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALBarrel"), source_ee = cms.InputTag("particleFlowSuperClusterECAL","particleFlowSuperClusterECALEndcapWithPreshower"), source_towers = cms.InputTag("towerMaker"), superClustersArePF = cms.bool(True) ), cms.PSet( importerName = cms.string('ConversionTrackImporter'), source = cms.InputTag("pfConversions") ), cms.PSet( importerName = cms.string('NuclearInteractionTrackImporter'), source = cms.InputTag("pfDisplacedTrackerVertex") ), cms.PSet( DPtOverPtCuts_byTrackAlgo = cms.vdouble( 10.0, 10.0, 10.0, 10.0, 10.0, 5.0 ), NHitCuts_byTrackAlgo = cms.vuint32( 3, 3, 3, 3, 3, 3 ), cleanBadConvertedBrems = cms.bool(True), importerName = cms.string('GeneralTracksImporter'), maxDPtOPt = cms.double(1.0), muonSrc = cms.InputTag("muons1stStep"), source = cms.InputTag("pfTrack"), useIterativeTracking = cms.bool(True) ), cms.PSet( BCtoPFCMap = cms.InputTag("particleFlowSuperClusterECAL","PFClusterAssociationEBEE"), importerName = cms.string('ECALClusterImporter'), source = cms.InputTag("particleFlowClusterECAL") ), cms.PSet( importerName = cms.string('GenericClusterImporter'), source = cms.InputTag("particleFlowClusterHCAL") ), cms.PSet( importerName = cms.string('GenericClusterImporter'), source = cms.InputTag("particleFlowBadHcalPseudoCluster") ), cms.PSet( importerName = cms.string('GenericClusterImporter'), source = cms.InputTag("particleFlowClusterHO") ), cms.PSet( importerName = cms.string('GenericClusterImporter'), source = cms.InputTag("particleFlowClusterHF") ), cms.PSet( importerName = cms.string('GenericClusterImporter'), source = cms.InputTag("particleFlowClusterPS") ) ), linkDefinitions = cms.VPSet( cms.PSet( linkType = cms.string('PS1:ECAL'), linkerName = cms.string('PreshowerAndECALLinker'), useKDTree = cms.bool(True) ), cms.PSet( linkType = cms.string('PS2:ECAL'), linkerName = cms.string('PreshowerAndECALLinker'), useKDTree = cms.bool(True) ), 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'), useKDTree = cms.bool(True) ), cms.PSet( linkType = cms.string('TRACK:HO'), linkerName = cms.string('TrackAndHOLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('ECAL:HCAL'), linkerName = cms.string('ECALAndHCALLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('HCAL:HO'), linkerName = cms.string('HCALAndHOLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('HFEM:HFHAD'), linkerName = cms.string('HFEMAndHFHADLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('TRACK:TRACK'), linkerName = cms.string('TrackAndTrackLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('ECAL:ECAL'), linkerName = cms.string('ECALAndECALLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('GSF:ECAL'), linkerName = cms.string('GSFAndECALLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('TRACK:GSF'), linkerName = cms.string('TrackAndGSFLinker'), useConvertedBrems = cms.bool(True), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('GSF:BREM'), linkerName = cms.string('GSFAndBREMLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('GSF:GSF'), linkerName = cms.string('GSFAndGSFLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('ECAL:BREM'), linkerName = cms.string('ECALAndBREMLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('GSF:HCAL'), linkerName = cms.string('GSFAndHCALLinker'), useKDTree = cms.bool(False) ), cms.PSet( linkType = cms.string('HCAL:BREM'), linkerName = cms.string('HCALAndBREMLinker'), useKDTree = cms.bool(False) ), cms.PSet( SuperClusterMatchByRef = cms.bool(True), linkType = cms.string('SC:ECAL'), linkerName = cms.string('SCAndECALLinker'), useKDTree = cms.bool(False) ) ), useNuclear = cms.bool(False), verbose = cms.untracked.bool(False) ) process.particleFlowClusterECAL = cms.EDProducer("CorrectedECALPFClusterProducer", energyCorrector = cms.PSet( algoName = cms.string('PFClusterEMEnergyCorrector'), applyCrackCorrections = cms.bool(False), applyMVACorrections = cms.bool(True), autoDetectBunchSpacing = cms.bool(True), bunchSpacing = cms.int32(25), ebSrFlagLabel = cms.InputTag("ecalDigis"), eeSrFlagLabel = cms.InputTag("ecalDigis"), maxPtForMVAEvaluation = cms.double(300.0), recHitsEBLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), recHitsEELabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), srfAwareCorrection = cms.bool(True), verticesLabel = cms.InputTag("offlinePrimaryVertices") ), inputECAL = cms.InputTag("particleFlowClusterECALUncorrected"), inputPS = cms.InputTag("particleFlowClusterPS"), minimumPSEnergy = cms.double(0) ) process.particleFlowClusterECALUncorrected = 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("particleFlowRecHitECAL"), 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.particleFlowClusterHBHE = 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), 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), 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("particleFlowRecHitHBHE"), 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.particleFlowClusterHBHETimeSelected = cms.EDProducer("PFClusterTimeSelector", cuts = cms.VPSet( cms.PSet( depth = cms.double(1.0), endcap = cms.bool(False), maxEnergy = cms.double(1.0), maxTime = cms.double(30.0), minEnergy = cms.double(0.0), minTime = cms.double(-30.0) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(True), maxEnergy = cms.double(1.0), maxTime = cms.double(30.0), minEnergy = cms.double(0.0), minTime = cms.double(-30.0) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(False), maxEnergy = cms.double(1.0), maxTime = cms.double(30.0), minEnergy = cms.double(0.0), minTime = cms.double(-30.0) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(True), maxEnergy = cms.double(1.0), maxTime = cms.double(30.0), minEnergy = cms.double(0.0), minTime = cms.double(-30.0) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(False), maxEnergy = cms.double(1.0), maxTime = cms.double(30.0), minEnergy = cms.double(0.0), minTime = cms.double(-30.0) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(True), maxEnergy = cms.double(1.0), maxTime = cms.double(30.0), minEnergy = cms.double(0.0), minTime = cms.double(-30.0) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(False), maxEnergy = cms.double(2.0), maxTime = cms.double(15.0), minEnergy = cms.double(1.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(True), maxEnergy = cms.double(2.0), maxTime = cms.double(16.0), minEnergy = cms.double(1.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(False), maxEnergy = cms.double(2.0), maxTime = cms.double(15.0), minEnergy = cms.double(1.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(True), maxEnergy = cms.double(2.0), maxTime = cms.double(15.0), minEnergy = cms.double(1.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(False), maxEnergy = cms.double(2.0), maxTime = cms.double(15.0), minEnergy = cms.double(1.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(True), maxEnergy = cms.double(2.0), maxTime = cms.double(15.0), minEnergy = cms.double(1.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(False), maxEnergy = cms.double(5.0), maxTime = cms.double(25.0), minEnergy = cms.double(2.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(True), maxEnergy = cms.double(5.0), maxTime = cms.double(25.0), minEnergy = cms.double(2.0), minTime = cms.double(-20.0) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(False), maxEnergy = cms.double(5.0), maxTime = cms.double(25.0), minEnergy = cms.double(2.0), minTime = cms.double(-15.0) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(True), maxEnergy = cms.double(5.0), maxTime = cms.double(25.0), minEnergy = cms.double(2.0), minTime = cms.double(-15.0) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(False), maxEnergy = cms.double(5.0), maxTime = cms.double(25.0), minEnergy = cms.double(2.0), minTime = cms.double(-15.0) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(True), maxEnergy = cms.double(5.0), maxTime = cms.double(25.0), minEnergy = cms.double(2.0), minTime = cms.double(-15.0) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(False), maxEnergy = cms.double(9999999.0), maxTime = cms.double(20.0), minEnergy = cms.double(5.0), minTime = cms.double(-5) ), cms.PSet( depth = cms.double(1.0), endcap = cms.bool(True), maxEnergy = cms.double(9999999.0), maxTime = cms.double(20.0), minEnergy = cms.double(5.0), minTime = cms.double(-5) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(False), maxEnergy = cms.double(9999999.0), maxTime = cms.double(20.0), minEnergy = cms.double(5.0), minTime = cms.double(-5) ), cms.PSet( depth = cms.double(2.0), endcap = cms.bool(True), maxEnergy = cms.double(9999999.0), maxTime = cms.double(20.0), minEnergy = cms.double(5.0), minTime = cms.double(-5) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(False), maxEnergy = cms.double(9999999.0), maxTime = cms.double(20.0), minEnergy = cms.double(5.0), minTime = cms.double(-5) ), cms.PSet( depth = cms.double(3.0), endcap = cms.bool(True), maxEnergy = cms.double(9999999.0), maxTime = cms.double(20.0), minEnergy = cms.double(5.0), minTime = cms.double(-5) ) ), src = cms.InputTag("particleFlowClusterHBHE") ) process.particleFlowClusterHCAL = cms.EDProducer("PFMultiDepthClusterProducer", clustersSource = cms.InputTag("particleFlowClusterHBHE"), 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.particleFlowClusterHF = cms.EDProducer("PFClusterProducer", energyCorrector = cms.PSet( ), initialClusteringStep = cms.PSet( algoName = cms.string('Basic2DGenericTopoClusterizer'), thresholdsByDetector = cms.VPSet( cms.PSet( detector = cms.string('HF_EM'), gatheringThreshold = cms.double(0.8), gatheringThresholdPt = cms.double(0.0) ), cms.PSet( detector = cms.string('HF_HAD'), gatheringThreshold = cms.double(0.8), gatheringThresholdPt = cms.double(0.0) ) ), useCornerCells = cms.bool(False) ), pfClusterBuilder = cms.PSet( algoName = cms.string('Basic2DGenericPFlowClusterizer'), allCellsPositionCalc = cms.PSet( algoName = cms.string('Basic2DGenericPFlowPositionCalc'), logWeightDenominator = cms.double(0.8), minAllowedNormalization = cms.double(1e-09), minFractionInCalc = cms.double(1e-09), posCalcNCrystals = cms.int32(-1) ), 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(0.8), minAllowedNormalization = cms.double(1e-09), minFractionInCalc = cms.double(1e-09), posCalcNCrystals = cms.int32(5) ), recHitEnergyNorms = cms.VPSet( cms.PSet( detector = cms.string('HF_EM'), recHitEnergyNorm = cms.double(0.8) ), cms.PSet( detector = cms.string('HF_HAD'), recHitEnergyNorm = cms.double(0.8) ) ), showerSigma = cms.double(10.0), stoppingTolerance = cms.double(1e-08) ), positionReCalc = cms.PSet( ), recHitCleaners = cms.VPSet(), recHitsSource = cms.InputTag("particleFlowRecHitHF"), 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.particleFlowClusterHGCal = cms.EDProducer("PFClusterProducer", energyCorrector = cms.PSet( ), initialClusteringStep = cms.PSet( algoName = cms.string('RealisticSimClusterMapper'), calibMaxEta = cms.double(3.0), calibMinEta = cms.double(1.4), egammaCalib = cms.vdouble( 1.0, 1.0, 1.01, 1.01, 1.02, 1.03, 1.04, 1.04 ), exclusiveFraction = cms.double(0.6), hadronCalib = cms.vdouble( 1.24, 1.24, 1.24, 1.23, 1.24, 1.25, 1.29, 1.29 ), invisibleFraction = cms.double(0.6), maxDforTimingSquared = cms.double(4.0), maxDistance = cms.double(10.0), maxDistanceFilter = cms.bool(True), minNHitsforTiming = cms.uint32(3), simClusterSrc = cms.InputTag("mix","MergedCaloTruth"), thresholdsByDetector = cms.VPSet(), timeOffset = cms.double(5), useMCFractionsForExclEnergy = cms.bool(False) ), pfClusterBuilder = cms.PSet( ), positionReCalc = cms.PSet( algoName = cms.string('Cluster3DPCACalculator'), minFractionInCalc = cms.double(1e-09), updateTiming = cms.bool(False) ), recHitCleaners = cms.VPSet(), recHitsSource = cms.InputTag("particleFlowRecHitHGC"), seedFinder = cms.PSet( algoName = cms.string('PassThruSeedFinder'), nNeighbours = cms.int32(8), thresholdsByDetector = cms.VPSet() ) ) process.particleFlowClusterHGCalFromMultiCl = cms.EDProducer("PFClusterProducer", energyCorrector = cms.PSet( ), initialClusteringStep = cms.PSet( algoName = cms.string('PFClusterFromHGCalMultiCluster'), clusterSrc = cms.InputTag("hgcalMultiClusters"), thresholdsByDetector = cms.VPSet() ), pfClusterBuilder = cms.PSet( ), positionReCalc = cms.PSet( algoName = cms.string('Cluster3DPCACalculator'), minFractionInCalc = cms.double(1e-09), updateTiming = cms.bool(False) ), recHitCleaners = cms.VPSet(), recHitsSource = cms.InputTag("particleFlowRecHitHGC"), seedFinder = cms.PSet( algoName = cms.string('PassThruSeedFinder'), nNeighbours = cms.int32(8), thresholdsByDetector = cms.VPSet() ) ) process.particleFlowClusterHO = cms.EDProducer("PFClusterProducer", energyCorrector = cms.PSet( ), initialClusteringStep = cms.PSet( algoName = cms.string('Basic2DGenericTopoClusterizer'), thresholdsByDetector = cms.VPSet( cms.PSet( detector = cms.string('HCAL_BARREL2_RING0'), gatheringThreshold = cms.double(0.05), gatheringThresholdPt = cms.double(0.0) ), cms.PSet( detector = cms.string('HCAL_BARREL2_RING1'), gatheringThreshold = cms.double(0.05), 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(0.05), minAllowedNormalization = cms.double(1e-09), minFractionInCalc = cms.double(1e-09), posCalcNCrystals = cms.int32(-1) ), 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(0.05), minAllowedNormalization = cms.double(1e-09), minFractionInCalc = cms.double(1e-09), posCalcNCrystals = cms.int32(5) ), recHitEnergyNorms = cms.VPSet( cms.PSet( detector = cms.string('HCAL_BARREL2_RING0'), recHitEnergyNorm = cms.double(0.05) ), cms.PSet( detector = cms.string('HCAL_BARREL2_RING1'), recHitEnergyNorm = cms.double(0.05) ) ), showerSigma = cms.double(10.0), stoppingTolerance = cms.double(1e-08) ), positionReCalc = cms.PSet( ), recHitCleaners = cms.VPSet(), recHitsSource = cms.InputTag("particleFlowRecHitHO"), seedFinder = cms.PSet( algoName = cms.string('LocalMaximumSeedFinder'), nNeighbours = cms.int32(4), thresholdsByDetector = cms.VPSet( cms.PSet( detector = cms.string('HCAL_BARREL2_RING0'), seedingThreshold = cms.double(0.08), seedingThresholdPt = cms.double(0.0) ), cms.PSet( detector = cms.string('HCAL_BARREL2_RING1'), seedingThreshold = cms.double(0.08), seedingThresholdPt = cms.double(0.0) ) ) ) ) process.particleFlowClusterOOTECAL = cms.EDProducer("CorrectedECALPFClusterProducer", energyCorrector = cms.PSet( algoName = cms.string('PFClusterEMEnergyCorrector'), applyCrackCorrections = cms.bool(False), applyMVACorrections = cms.bool(True), autoDetectBunchSpacing = cms.bool(True), bunchSpacing = cms.int32(25), ebSrFlagLabel = cms.InputTag("ecalDigis"), eeSrFlagLabel = cms.InputTag("ecalDigis"), maxPtForMVAEvaluation = cms.double(300.0), recHitsEBLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), recHitsEELabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), srfAwareCorrection = cms.bool(True), verticesLabel = cms.InputTag("offlinePrimaryVertices") ), inputECAL = cms.InputTag("particleFlowClusterOOTECALUncorrected"), inputPS = cms.InputTag("particleFlowClusterPS"), minimumPSEnergy = cms.double(0) ) process.particleFlowClusterOOTECALUncorrected = 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("particleFlowRecHitOOTECAL"), 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.particleFlowClusterPS = 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("particleFlowRecHitPS"), 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.particleFlowDisplacedVertex = cms.EDProducer("PFDisplacedVertexProducer", avfParameters = cms.PSet( Tini = cms.double(256.0), ratio = cms.double(0.25), sigmacut = cms.double(6.0) ), debug = cms.untracked.bool(False), longSize = cms.double(5), mainVertexLabel = cms.InputTag("offlinePrimaryVertices"), minAdaptWeight = cms.double(0.5), offlineBeamSpotLabel = cms.InputTag("offlineBeamSpot"), primaryVertexCut = cms.double(1.8), switchOff2TrackVertex = cms.untracked.bool(True), tecCut = cms.double(220), tobCut = cms.double(100), tracksSelectorParameters = cms.PSet( bSelectTracks = cms.bool(True), dxy_min = cms.double(0.2), nChi2_max = cms.double(5.0), nChi2_min = cms.double(0.5), nHits_min = cms.int32(6), nOuterHits_max = cms.int32(9), pt_min = cms.double(0.2), quality = cms.string('HighPurity') ), transvSize = cms.double(1.0), verbose = cms.untracked.bool(False), vertexCandidatesLabel = cms.InputTag("particleFlowDisplacedVertexCandidate"), vertexIdentifierParameters = cms.PSet( angles = cms.vdouble(15, 15), bIdentifyVertices = cms.bool(True), logPrimSec_min = cms.double(0.0), looper_eta_max = cms.double(0.1), masses = cms.vdouble( 0.05, 0.485, 0.515, 0.48, 0.52, 1.107, 1.125, 0.2 ), pt_kink_min = cms.double(3.0), pt_min = cms.double(0.5) ) ) process.particleFlowDisplacedVertexCandidate = cms.EDProducer("PFDisplacedVertexCandidateProducer", dcaCut = cms.double(0.5), dcaPInnerHitCut = cms.double(1000.0), debug = cms.untracked.bool(False), mainVertexLabel = cms.InputTag("offlinePrimaryVertices"), offlineBeamSpotLabel = cms.InputTag("offlineBeamSpot"), primaryVertexCut = cms.double(1.8), trackCollection = cms.InputTag("generalTracks"), tracksSelectorParameters = cms.PSet( dxy = cms.double(999999.0), nChi2_max = cms.double(0.0), pt_min = cms.double(999999.0), pt_min_prim = cms.double(999999.0) ), verbose = cms.untracked.bool(False) ) process.particleFlowEGamma = cms.EDProducer("PFEGammaProducer", EEtoPS_source = cms.InputTag("particleFlowClusterECAL"), X0_Map = cms.string('RecoParticleFlow/PFProducer/data/allX0histos.root'), algoType = cms.uint32(0), blocks = cms.InputTag("particleFlowBlock"), 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), calibPFSCEle_Fbrem_barrel = cms.vdouble( 0.6, 6, -0.0255975, 0.0576727, 0.975442, -0.000546394, 1.26147, 25, -0.02025, 0.04537, 0.9728, -0.0008962, 1.172 ), calibPFSCEle_Fbrem_endcap = cms.vdouble( 0.9, 6.5, -0.0692932, 0.101776, 0.995338, -0.00236548, 0.874998, 1.653, -0.0750184, 0.147, 0.923165, 0.000474665, 1.10782 ), calibPFSCEle_barrel = cms.vdouble( 1.004, -1.536, 22.88, -1.467, 0.3555, 0.6227, 14.65, 2051, 25, 0.9932, -0.5444, 0, 0.5438, 0.7109, 7.645, 0.2904, 0 ), calibPFSCEle_endcap = cms.vdouble( 1.153, -16.5975, 5.668, -0.1772, 16.22, 7.326, 0.0483, -4.068, 9.406 ), calibrationsLabel = cms.string(''), cleanedHF = cms.VInputTag(cms.InputTag("particleFlowRecHitHCAL","Cleaned"), cms.InputTag("particleFlowClusterHF","Cleaned")), coneEcalIsoForEgammaSC = cms.double(0.3), coneTrackIsoForEgammaSC = cms.double(0.3), cosmicRejectionDistance = cms.double(1.0), debug = cms.untracked.bool(True), dptRel_DispVtx = cms.double(10.0), dzPV = cms.double(0.2), egammaElectrons = cms.InputTag("mvaElectrons"), eventFactorForCosmics = cms.double(10.0), eventFractionForCleaning = cms.double(0.5), eventFractionForRejection = cms.double(0.8), factors_45 = cms.vdouble(10.0, 100.0), iCfgCandConnector = cms.PSet( bCalibPrimary = cms.bool(True), bCorrect = cms.bool(True), dptRel_MergedTrack = cms.double(5.0), dptRel_PrimaryTrack = cms.double(10.0), nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05), ptErrorSecondary = cms.double(1.0) ), maxDPtOPt = cms.double(1.0), maxDeltaPhiPt = cms.double(7.0), maxSignificance = cms.double(2.5), metFactorForCleaning = cms.double(4.0), metFactorForFakes = cms.double(4.0), metFactorForHighEta = cms.double(25.0), metFactorForRejection = cms.double(4.0), metSignificanceForCleaning = cms.double(3.0), metSignificanceForRejection = cms.double(4.0), minDeltaMet = cms.double(0.4), minEnergyForPunchThrough = cms.double(100.0), minHFCleaningPt = cms.double(5.0), minMomentumForPunchThrough = cms.double(100.0), minPixelHits = cms.int32(1), minPtForPostCleaning = cms.double(20.0), minSignificance = cms.double(2.5), minSignificanceReduction = cms.double(1.4), minTrackerHits = cms.int32(8), 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("muons1stStep"), nTrackIsoForEgammaSC = cms.uint32(2), nsigma_TRACK = cms.double(1.0), pf_GlobC_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFGlobalCorr_14Dec2011.root'), pf_Res_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFRes_14Dec2011.root'), pf_convID_mvaWeightFile = cms.FileInPath('RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_pfConversionAug0411.txt'), pf_conv_mvaCut = cms.double(0.0), pf_electronID_crackCorrection = cms.bool(False), pf_electronID_mvaWeightFile = cms.FileInPath('RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_PfElectrons23Jan_IntToFloat.txt'), pf_electron_mvaCut = cms.double(-0.1), pf_electron_output_col = cms.string('electrons'), pf_locC_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFClusterLCorr_14Dec2011.root'), pf_nsigma_ECAL = cms.double(0.0), pf_nsigma_HCAL = cms.double(1.0), postHFCleaning = cms.bool(False), postMuonCleaning = cms.bool(True), produceEGCandsWithNoSuperCluster = cms.bool(False), ptErrorScale = cms.double(8.0), ptFactorForHighEta = cms.double(2.0), pt_Error = cms.double(1.0), punchThroughFactor = cms.double(3.0), punchThroughMETFactor = cms.double(4.0), rejectTracks_Bad = cms.bool(True), rejectTracks_Step45 = cms.bool(True), sumEtEcalIsoForEgammaSC_barrel = cms.double(1.0), sumEtEcalIsoForEgammaSC_endcap = cms.double(2.0), sumPtTrackIsoForEgammaSC_barrel = cms.double(4.0), sumPtTrackIsoForEgammaSC_endcap = cms.double(4.0), sumPtTrackIsoForPhoton = cms.double(2.0), sumPtTrackIsoSlopeForPhoton = cms.double(0.001), trackQuality = cms.string('highPurity'), useCalibrationsFromDB = cms.bool(True), useEGammaElectrons = cms.bool(True), useEGammaSupercluster = cms.bool(True), useHO = cms.bool(True), usePFConversions = cms.bool(True), usePFDecays = cms.bool(False), usePFElectrons = cms.bool(True), usePFNuclearInteractions = cms.bool(True), usePFPhotons = cms.bool(True), usePFSCEleCalib = cms.bool(True), usePhotonReg = cms.bool(False), useRegressionFromDB = cms.bool(True), useVerticesForNeutral = cms.bool(True), verbose = cms.untracked.bool(True), vertexCollection = cms.InputTag("offlinePrimaryVertices") ) process.particleFlowForChargedMET = cms.EDProducer("ParticleFlowForChargedMETProducer", PFCollectionLabel = cms.InputTag("particleFlow"), PVCollectionLabel = cms.InputTag("offlinePrimaryVertices"), dzCut = cms.double(0.2), neutralEtThreshold = cms.double(-1.0) ) process.particleFlowPtrs = cms.EDProducer("PFCandidateFwdPtrProducer", src = cms.InputTag("particleFlow") ) process.particleFlowRecHitECAL = 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("ecalRecHit","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("ecalRecHit","EcalRecHitsEE") ) ) ) process.particleFlowRecHitHBHE = cms.EDProducer("PFRecHitProducer", navigator = cms.PSet( name = cms.string('PFRecHitHCALNavigator'), sigmaCut = cms.double(4.0), timeResolutionCalc = cms.PSet( constantTerm = cms.double(1.92), constantTermLowE = cms.double(6.0), corrTermLowE = cms.double(0.0), noiseTerm = cms.double(8.64), noiseTermLowE = cms.double(0.0), threshHighE = cms.double(8.0), threshLowE = cms.double(2.0) ) ), 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('PFRecHitQTestHCALThresholdVsDepth') ), cms.PSet( cleaningThresholds = cms.vdouble(0.0), flags = cms.vstring('Standard'), maxSeverities = cms.vint32(11), name = cms.string('PFRecHitQTestHCALChannel') ) ), src = cms.InputTag("hbhereco") )) ) process.particleFlowRecHitHF = cms.EDProducer("PFRecHitProducer", navigator = cms.PSet( barrel = cms.PSet( ), endcap = cms.PSet( ), name = cms.string('PFRecHitHCALNavigator') ), 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, 30.0), flags = cms.vstring( 'Standard', 'HFLong', 'HFShort', 'HFDigi' ), maxSeverities = cms.vint32(11, 9, 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("hfreco"), thresh_HF = cms.double(0.4) )) ) process.particleFlowRecHitHGC = cms.EDProducer("PFRecHitProducer", navigator = cms.PSet( hgcee = cms.PSet( name = cms.string('PFRecHitHGCEENavigator'), topologySource = cms.string('HGCalEESensitive') ), hgcheb = cms.PSet( name = cms.string('PFRecHitHGCHENavigator'), topologySource = cms.string('HGCalHEScintillatorSensitive') ), hgchef = cms.PSet( name = cms.string('PFRecHitHGCHENavigator'), topologySource = cms.string('HGCalHESiliconSensitive') ), name = cms.string('PFRecHitHGCNavigator') ), producers = cms.VPSet( cms.PSet( geometryInstance = cms.string('HGCalEESensitive'), name = cms.string('PFHGCEERecHitCreator'), qualityTests = cms.VPSet(cms.PSet( name = cms.string('PFRecHitQTestHGCalThresholdSNR'), thresholdSNR = cms.double(5.0) )), src = cms.InputTag("HGCalRecHit","HGCEERecHits") ), cms.PSet( geometryInstance = cms.string('HGCalHESiliconSensitive'), name = cms.string('PFHGCHEFRecHitCreator'), qualityTests = cms.VPSet(cms.PSet( name = cms.string('PFRecHitQTestHGCalThresholdSNR'), thresholdSNR = cms.double(5.0) )), src = cms.InputTag("HGCalRecHit","HGCHEFRecHits") ), cms.PSet( geometryInstance = cms.string(''), name = cms.string('PFHGCHEBRecHitCreator'), qualityTests = cms.VPSet(cms.PSet( name = cms.string('PFRecHitQTestHGCalThresholdSNR'), thresholdSNR = cms.double(5.0) )), src = cms.InputTag("HGCalRecHit","HGCHEBRecHits") ) ) ) process.particleFlowRecHitHO = cms.EDProducer("PFRecHitProducer", navigator = cms.PSet( name = cms.string('PFRecHitHCALNavigator') ), producers = cms.VPSet(cms.PSet( name = cms.string('PFHORecHitCreator'), qualityTests = cms.VPSet( cms.PSet( name = cms.string('PFRecHitQTestThreshold'), threshold = cms.double(0.05) ), cms.PSet( cleaningThresholds = cms.vdouble(0.0), flags = cms.vstring('Standard'), maxSeverities = cms.vint32(11), name = cms.string('PFRecHitQTestHCALChannel') ) ), src = cms.InputTag("horeco") )) ) process.particleFlowRecHitOOTECAL = 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(False), topologicalCleaning = cms.bool(True) ) ), srFlags = cms.InputTag(""), src = cms.InputTag("ecalRecHit","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(False), topologicalCleaning = cms.bool(True) ) ), srFlags = cms.InputTag(""), src = cms.InputTag("ecalRecHit","EcalRecHitsEE") ) ) ) process.particleFlowRecHitPS = 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(0.0) ), cms.PSet( cleaningThreshold = cms.double(0.0), name = cms.string('PFRecHitQTestES'), topologicalCleaning = cms.bool(True) ) ), src = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES") )) ) process.particleFlowSimParticle = cms.EDProducer("PFSimParticleProducer", Fitter = cms.string('KFFittingSmoother'), MCTruthMatchingInfo = cms.untracked.bool(False), ParticleFilter = cms.PSet( EMin = cms.double(0.0), EProton = cms.double(5000.0), etaMax = cms.double(5.0), pTMin = cms.double(0.0) ), Propagator = cms.string('PropagatorWithMaterial'), RecTracks = cms.InputTag("trackerDrivenElectronSeeds"), TTRHBuilder = cms.string('WithTrackAngle'), ecalRecHitsEB = cms.InputTag("caloRecHits","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("caloRecHits","EcalRecHitsEE"), fastSimProducer = cms.untracked.InputTag("fastSimProducer","EcalHitsEB"), process_Particles = cms.untracked.bool(True), process_RecTracks = cms.untracked.bool(False), sim = cms.InputTag("g4SimHits"), verbose = cms.untracked.bool(False) ) process.particleFlowSuperClusterECAL = cms.EDProducer("PFECALSuperClusterProducer", BeamSpot = cms.InputTag("offlineBeamSpot"), ClusteringType = cms.string('Mustache'), ESAssociation = cms.InputTag("particleFlowClusterECAL"), EnergyWeight = cms.string('Raw'), PFBasicClusterCollectionBarrel = cms.string('particleFlowBasicClusterECALBarrel'), PFBasicClusterCollectionEndcap = cms.string('particleFlowBasicClusterECALEndcap'), PFBasicClusterCollectionPreshower = cms.string('particleFlowBasicClusterECALPreshower'), PFClusters = cms.InputTag("particleFlowClusterECAL"), PFSuperClusterCollectionBarrel = cms.string('particleFlowSuperClusterECALBarrel'), PFSuperClusterCollectionEndcap = cms.string('particleFlowSuperClusterECALEndcap'), PFSuperClusterCollectionEndcapWithPreshower = cms.string('particleFlowSuperClusterECALEndcapWithPreshower'), applyCrackCorrections = cms.bool(False), doSatelliteClusterMerge = cms.bool(False), dropUnseedable = cms.bool(False), etawidth_SuperClusterBarrel = cms.double(0.04), etawidth_SuperClusterEndcap = cms.double(0.04), phiwidth_SuperClusterBarrel = cms.double(0.2), phiwidth_SuperClusterEndcap = cms.double(0.2), regressionConfig = cms.PSet( ecalRecHitsEB = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("ecalRecHit","EcalRecHitsEE"), regressionKeyEB = cms.string('pfscecal_EBCorrection_offline_v2'), regressionKeyEE = cms.string('pfscecal_EECorrection_offline_v2'), uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_offline_v2'), uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_offline_v2'), vertexCollection = cms.InputTag("offlinePrimaryVertices") ), satelliteClusterSeedThreshold = cms.double(50.0), satelliteMajorityFraction = cms.double(0.5), seedThresholdIsET = cms.bool(True), thresh_PFClusterBarrel = cms.double(0.0), thresh_PFClusterES = cms.double(0.0), thresh_PFClusterEndcap = cms.double(0.0), thresh_PFClusterSeedBarrel = cms.double(1.0), thresh_PFClusterSeedEndcap = cms.double(1.0), thresh_SCEt = cms.double(4.0), useDynamicDPhiWindow = cms.bool(False), useRegression = cms.bool(True), use_preshower = cms.bool(True), verbose = cms.untracked.bool(False) ) process.particleFlowSuperClusterECALBox = cms.EDProducer("PFECALSuperClusterProducer", BeamSpot = cms.InputTag("offlineBeamSpot"), ClusteringType = cms.string('Box'), ESAssociation = cms.InputTag("particleFlowClusterECAL"), EnergyWeight = cms.string('Raw'), PFBasicClusterCollectionBarrel = cms.string('particleFlowBasicClusterECALBarrel'), PFBasicClusterCollectionEndcap = cms.string('particleFlowBasicClusterECALEndcap'), PFBasicClusterCollectionPreshower = cms.string('particleFlowBasicClusterECALPreshower'), PFClusters = cms.InputTag("particleFlowClusterECAL"), PFSuperClusterCollectionBarrel = cms.string('particleFlowSuperClusterECALBarrel'), PFSuperClusterCollectionEndcap = cms.string('particleFlowSuperClusterECALEndcap'), PFSuperClusterCollectionEndcapWithPreshower = cms.string('particleFlowSuperClusterECALEndcapWithPreshower'), applyCrackCorrections = cms.bool(False), doSatelliteClusterMerge = cms.bool(False), dropUnseedable = cms.bool(False), etawidth_SuperClusterBarrel = cms.double(0.04), etawidth_SuperClusterEndcap = cms.double(0.04), phiwidth_SuperClusterBarrel = cms.double(0.28), phiwidth_SuperClusterEndcap = cms.double(0.28), regressionConfig = cms.PSet( ecalRecHitsEB = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("ecalRecHit","EcalRecHitsEE"), regressionKeyEB = cms.string('pfscecal_EBCorrection_offline_v2'), regressionKeyEE = cms.string('pfscecal_EECorrection_offline_v2'), uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_offline_v2'), uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_offline_v2'), vertexCollection = cms.InputTag("offlinePrimaryVertices") ), satelliteClusterSeedThreshold = cms.double(50.0), satelliteMajorityFraction = cms.double(0.5), seedThresholdIsET = cms.bool(True), thresh_PFClusterBarrel = cms.double(0.5), thresh_PFClusterES = cms.double(0.0), thresh_PFClusterEndcap = cms.double(0.5), thresh_PFClusterSeedBarrel = cms.double(3.0), thresh_PFClusterSeedEndcap = cms.double(5.0), thresh_SCEt = cms.double(4.0), useDynamicDPhiWindow = cms.bool(False), useRegression = cms.bool(False), use_preshower = cms.bool(True), verbose = cms.untracked.bool(False) ) process.particleFlowSuperClusterECALMustache = cms.EDProducer("PFECALSuperClusterProducer", BeamSpot = cms.InputTag("offlineBeamSpot"), ClusteringType = cms.string('Mustache'), ESAssociation = cms.InputTag("particleFlowClusterECAL"), EnergyWeight = cms.string('Raw'), PFBasicClusterCollectionBarrel = cms.string('particleFlowBasicClusterECALBarrel'), PFBasicClusterCollectionEndcap = cms.string('particleFlowBasicClusterECALEndcap'), PFBasicClusterCollectionPreshower = cms.string('particleFlowBasicClusterECALPreshower'), PFClusters = cms.InputTag("particleFlowClusterECAL"), PFSuperClusterCollectionBarrel = cms.string('particleFlowSuperClusterECALBarrel'), PFSuperClusterCollectionEndcap = cms.string('particleFlowSuperClusterECALEndcap'), PFSuperClusterCollectionEndcapWithPreshower = cms.string('particleFlowSuperClusterECALEndcapWithPreshower'), applyCrackCorrections = cms.bool(False), doSatelliteClusterMerge = cms.bool(False), dropUnseedable = cms.bool(False), etawidth_SuperClusterBarrel = cms.double(0.04), etawidth_SuperClusterEndcap = cms.double(0.04), phiwidth_SuperClusterBarrel = cms.double(0.6), phiwidth_SuperClusterEndcap = cms.double(0.6), regressionConfig = cms.PSet( ecalRecHitsEB = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("ecalRecHit","EcalRecHitsEE"), regressionKeyEB = cms.string('pfscecal_EBCorrection_offline_v2'), regressionKeyEE = cms.string('pfscecal_EECorrection_offline_v2'), uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_offline_v2'), uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_offline_v2'), vertexCollection = cms.InputTag("offlinePrimaryVertices") ), satelliteClusterSeedThreshold = cms.double(50.0), satelliteMajorityFraction = cms.double(0.5), seedThresholdIsET = cms.bool(True), thresh_PFClusterBarrel = cms.double(0.0), thresh_PFClusterES = cms.double(0.0), thresh_PFClusterEndcap = cms.double(0.0), 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.particleFlowSuperClusterHGCal = cms.EDProducer("PFECALSuperClusterProducer", BeamSpot = cms.InputTag("offlineBeamSpot"), ClusteringType = cms.string('Mustache'), ESAssociation = cms.InputTag("particleFlowClusterECAL"), EnergyWeight = cms.string('Raw'), PFBasicClusterCollectionBarrel = cms.string('particleFlowBasicClusterECALBarrel'), PFBasicClusterCollectionEndcap = cms.string('particleFlowBasicClusterECALEndcap'), PFBasicClusterCollectionPreshower = cms.string('particleFlowBasicClusterECALPreshower'), PFClusters = cms.InputTag("particleFlowClusterECAL"), PFSuperClusterCollectionBarrel = cms.string('particleFlowSuperClusterECALBarrel'), PFSuperClusterCollectionEndcap = cms.string('particleFlowSuperClusterECALEndcap'), PFSuperClusterCollectionEndcapWithPreshower = cms.string('particleFlowSuperClusterECALEndcapWithPreshower'), applyCrackCorrections = cms.bool(False), doSatelliteClusterMerge = cms.bool(False), dropUnseedable = cms.bool(False), etawidth_SuperClusterBarrel = cms.double(0.04), etawidth_SuperClusterEndcap = cms.double(0.04), phiwidth_SuperClusterBarrel = cms.double(0.2), phiwidth_SuperClusterEndcap = cms.double(0.2), regressionConfig = cms.PSet( ecalRecHitsEB = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("ecalRecHit","EcalRecHitsEE"), regressionKeyEB = cms.string('pfscecal_EBCorrection_offline_v2'), regressionKeyEE = cms.string('pfscecal_EECorrection_offline_v2'), uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_offline_v2'), uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_offline_v2'), vertexCollection = cms.InputTag("offlinePrimaryVertices") ), satelliteClusterSeedThreshold = cms.double(50.0), satelliteMajorityFraction = cms.double(0.5), seedThresholdIsET = cms.bool(True), thresh_PFClusterBarrel = cms.double(0.0), thresh_PFClusterES = cms.double(0.0), thresh_PFClusterEndcap = cms.double(0.0), thresh_PFClusterSeedBarrel = cms.double(1.0), thresh_PFClusterSeedEndcap = cms.double(1.0), thresh_SCEt = cms.double(4.0), useDynamicDPhiWindow = cms.bool(False), useRegression = cms.bool(True), use_preshower = cms.bool(True), verbose = cms.untracked.bool(False) ) process.particleFlowSuperClusterHGCalFromMultiCl = cms.EDProducer("PFECALSuperClusterProducer", BeamSpot = cms.InputTag("offlineBeamSpot"), ClusteringType = cms.string('Mustache'), ESAssociation = cms.InputTag("particleFlowClusterECAL"), EnergyWeight = cms.string('Raw'), PFBasicClusterCollectionBarrel = cms.string('particleFlowBasicClusterECALBarrel'), PFBasicClusterCollectionEndcap = cms.string('particleFlowBasicClusterECALEndcap'), PFBasicClusterCollectionPreshower = cms.string('particleFlowBasicClusterECALPreshower'), PFClusters = cms.InputTag("particleFlowClusterECAL"), PFSuperClusterCollectionBarrel = cms.string('particleFlowSuperClusterECALBarrel'), PFSuperClusterCollectionEndcap = cms.string('particleFlowSuperClusterECALEndcap'), PFSuperClusterCollectionEndcapWithPreshower = cms.string('particleFlowSuperClusterECALEndcapWithPreshower'), applyCrackCorrections = cms.bool(False), doSatelliteClusterMerge = cms.bool(False), dropUnseedable = cms.bool(False), etawidth_SuperClusterBarrel = cms.double(0.04), etawidth_SuperClusterEndcap = cms.double(0.04), phiwidth_SuperClusterBarrel = cms.double(0.2), phiwidth_SuperClusterEndcap = cms.double(0.2), regressionConfig = cms.PSet( ecalRecHitsEB = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("ecalRecHit","EcalRecHitsEE"), regressionKeyEB = cms.string('pfscecal_EBCorrection_offline_v2'), regressionKeyEE = cms.string('pfscecal_EECorrection_offline_v2'), uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_offline_v2'), uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_offline_v2'), vertexCollection = cms.InputTag("offlinePrimaryVertices") ), satelliteClusterSeedThreshold = cms.double(50.0), satelliteMajorityFraction = cms.double(0.5), seedThresholdIsET = cms.bool(True), thresh_PFClusterBarrel = cms.double(0.0), thresh_PFClusterES = cms.double(0.0), thresh_PFClusterEndcap = cms.double(0.0), thresh_PFClusterSeedBarrel = cms.double(1.0), thresh_PFClusterSeedEndcap = cms.double(1.0), thresh_SCEt = cms.double(4.0), useDynamicDPhiWindow = cms.bool(False), useRegression = cms.bool(True), use_preshower = cms.bool(True), verbose = cms.untracked.bool(False) ) process.particleFlowSuperClusterOOTECAL = cms.EDProducer("PFECALSuperClusterProducer", BeamSpot = cms.InputTag("offlineBeamSpot"), ClusteringType = cms.string('Mustache'), ESAssociation = cms.InputTag("particleFlowClusterOOTECAL"), EnergyWeight = cms.string('Raw'), PFBasicClusterCollectionBarrel = cms.string('particleFlowBasicClusterOOTECALBarrel'), PFBasicClusterCollectionEndcap = cms.string('particleFlowBasicClusterOOTECALEndcap'), PFBasicClusterCollectionPreshower = cms.string('particleFlowBasicClusterOOTECALPreshower'), PFClusters = cms.InputTag("particleFlowClusterOOTECAL"), PFSuperClusterCollectionBarrel = cms.string('particleFlowSuperClusterOOTECALBarrel'), PFSuperClusterCollectionEndcap = cms.string('particleFlowSuperClusterOOTECALEndcap'), PFSuperClusterCollectionEndcapWithPreshower = cms.string('particleFlowSuperClusterOOTECALEndcapWithPreshower'), applyCrackCorrections = cms.bool(False), barrelRecHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), doSatelliteClusterMerge = cms.bool(False), dropUnseedable = cms.bool(False), endcapRecHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), etawidth_SuperClusterBarrel = cms.double(0.04), etawidth_SuperClusterEndcap = cms.double(0.04), isOOTCollection = cms.bool(True), phiwidth_SuperClusterBarrel = cms.double(0.2), phiwidth_SuperClusterEndcap = cms.double(0.2), regressionConfig = cms.PSet( ecalRecHitsEB = cms.InputTag("ecalRecHit","EcalRecHitsEB"), ecalRecHitsEE = cms.InputTag("ecalRecHit","EcalRecHitsEE"), regressionKeyEB = cms.string('pfscecal_EBCorrection_offline_v2'), regressionKeyEE = cms.string('pfscecal_EECorrection_offline_v2'), uncertaintyKeyEB = cms.string('pfscecal_EBUncertainty_offline_v2'), uncertaintyKeyEE = cms.string('pfscecal_EEUncertainty_offline_v2'), vertexCollection = cms.InputTag("offlinePrimaryVertices") ), satelliteClusterSeedThreshold = cms.double(50.0), satelliteMajorityFraction = cms.double(0.5), seedThresholdIsET = cms.bool(True), thresh_PFClusterBarrel = cms.double(0.0), thresh_PFClusterES = cms.double(0.0), thresh_PFClusterEndcap = cms.double(0.0), thresh_PFClusterSeedBarrel = cms.double(1.0), thresh_PFClusterSeedEndcap = cms.double(1.0), thresh_SCEt = cms.double(4.0), useDynamicDPhiWindow = cms.bool(False), useRegression = cms.bool(True), use_preshower = cms.bool(True), verbose = cms.untracked.bool(False) ) process.particleFlowTimeAssignerECAL = cms.EDProducer("PFClusterTimeAssigner", src = cms.InputTag("particleFlowClusterECALUncorrected"), timeResoSrc = cms.InputTag("ecalBarrelClusterFastTimer","PerfectResolutionModelResolution"), timeSrc = cms.InputTag("ecalBarrelClusterFastTimer","PerfectResolutionModel") ) process.particleFlowTmp = cms.EDProducer("PFProducer", GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"), GedPhotonValueMap = cms.InputTag("gedPhotonsTmp","valMapPFEgammaCandToPhoton"), PFEGammaCandidates = cms.InputTag("particleFlowEGamma"), X0_Map = cms.string('RecoParticleFlow/PFProducer/data/allX0histos.root'), algoType = cms.uint32(0), blocks = cms.InputTag("particleFlowBlock"), 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), calibPFSCEle_Fbrem_barrel = cms.vdouble( 0.6, 6, -0.0255975, 0.0576727, 0.975442, -0.000546394, 1.26147, 25, -0.02025, 0.04537, 0.9728, -0.0008962, 1.172 ), calibPFSCEle_Fbrem_endcap = cms.vdouble( 0.9, 6.5, -0.0692932, 0.101776, 0.995338, -0.00236548, 0.874998, 1.653, -0.0750184, 0.147, 0.923165, 0.000474665, 1.10782 ), calibPFSCEle_barrel = cms.vdouble( 1.004, -1.536, 22.88, -1.467, 0.3555, 0.6227, 14.65, 2051, 25, 0.9932, -0.5444, 0, 0.5438, 0.7109, 7.645, 0.2904, 0 ), calibPFSCEle_endcap = cms.vdouble( 1.153, -16.5975, 5.668, -0.1772, 16.22, 7.326, 0.0483, -4.068, 9.406 ), calibrationsLabel = cms.string(''), cleanedHF = cms.VInputTag(cms.InputTag("particleFlowRecHitHF","Cleaned"), cms.InputTag("particleFlowClusterHF","Cleaned")), coneEcalIsoForEgammaSC = cms.double(0.3), coneTrackIsoForEgammaSC = cms.double(0.3), cosmicRejectionDistance = cms.double(1.0), debug = cms.untracked.bool(False), dptRel_DispVtx = cms.double(10.0), dzPV = cms.double(0.2), egammaElectrons = cms.InputTag("mvaElectrons"), 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_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(True), 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) ), eventFactorForCosmics = cms.double(10.0), eventFractionForCleaning = cms.double(0.5), eventFractionForRejection = cms.double(0.8), factors_45 = cms.vdouble(10.0, 100.0), goodPixelTrackDeadHcal_chi2n = cms.double(2), 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), 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(True), bCorrect = cms.bool(True), dptRel_MergedTrack = cms.double(5.0), dptRel_PrimaryTrack = cms.double(10.0), nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05), ptErrorSecondary = cms.double(1.0) ), isolatedElectronID_mvaWeightFile = cms.string('RecoEgamma/ElectronIdentification/data/TMVA_BDTSimpleCat_17Feb2011.weights.xml'), maxDPtOPt = cms.double(1.0), maxDeltaPhiPt = cms.double(7.0), maxSignificance = cms.double(2.5), metFactorForCleaning = cms.double(4.0), metFactorForFakes = cms.double(4.0), metFactorForHighEta = cms.double(25.0), metFactorForRejection = cms.double(4.0), metSignificanceForCleaning = cms.double(3.0), metSignificanceForRejection = cms.double(4.0), minDeltaMet = cms.double(0.4), minEnergyForPunchThrough = cms.double(100.0), minHFCleaningPt = cms.double(5.0), minMomentumForPunchThrough = cms.double(100.0), minPixelHits = cms.int32(1), minPtForPostCleaning = cms.double(20.0), minSignificance = cms.double(2.5), minSignificanceReduction = cms.double(1.4), minTrackerHits = cms.int32(8), 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("muons1stStep"), nTrackIsoForEgammaSC = cms.uint32(2), nsigma_TRACK = cms.double(1.0), pf_GlobC_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFGlobalCorr_14Dec2011.root'), pf_Res_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFRes_14Dec2011.root'), pf_convID_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_pfConversionAug0411.txt'), pf_conv_mvaCut = cms.double(0.0), pf_electronID_crackCorrection = cms.bool(False), pf_electronID_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_PfElectrons23Jan_IntToFloat.txt'), pf_electron_mvaCut = cms.double(-0.1), pf_electron_output_col = cms.string('electrons'), pf_locC_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFClusterLCorr_14Dec2011.root'), pf_nsigma_ECAL = cms.double(0.0), pf_nsigma_HCAL = 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(True), solidConeTrkIsoOffset = cms.double(10.0), solidConeTrkIsoSlope = cms.double(0.3) ), photon_protectionsForJetMET = cms.PSet( sumPtTrackIso = cms.double(4.0), sumPtTrackIsoSlope = cms.double(0.001) ), postHFCleaning = cms.bool(False), postMuonCleaning = cms.bool(True), ptErrorScale = cms.double(8.0), ptFactorForHighEta = cms.double(2.0), pt_Error = cms.double(1.0), punchThroughFactor = cms.double(3.0), punchThroughMETFactor = cms.double(4.0), rejectTracks_Bad = cms.bool(True), rejectTracks_Step45 = cms.bool(True), sumEtEcalIsoForEgammaSC_barrel = cms.double(1.0), sumEtEcalIsoForEgammaSC_endcap = cms.double(2.0), sumPtTrackIsoForEgammaSC_barrel = cms.double(4.0), sumPtTrackIsoForEgammaSC_endcap = cms.double(4.0), sumPtTrackIsoForPhoton = cms.double(2.0), sumPtTrackIsoSlopeForPhoton = cms.double(0.001), trackQuality = cms.string('highPurity'), useCalibrationsFromDB = cms.bool(True), useEGammaElectrons = cms.bool(True), useEGammaFilters = cms.bool(True), useEGammaSupercluster = cms.bool(True), useHO = cms.bool(True), usePFConversions = cms.bool(True), usePFDecays = cms.bool(False), usePFElectrons = cms.bool(False), usePFNuclearInteractions = cms.bool(True), usePFPhotons = cms.bool(False), usePFSCEleCalib = cms.bool(True), usePhotonReg = cms.bool(False), useProtectionsForJetMET = cms.bool(True), useRegressionFromDB = cms.bool(True), useVerticesForNeutral = cms.bool(True), verbose = cms.untracked.bool(False), vertexCollection = cms.InputTag("offlinePrimaryVertices") ) process.particleFlowTmpBarrel = cms.EDProducer("PFProducer", GedElectronValueMap = cms.InputTag("gedGsfElectronsTmp"), GedPhotonValueMap = cms.InputTag("gedPhotonsTmp","valMapPFEgammaCandToPhoton"), PFEGammaCandidates = cms.InputTag("particleFlowEGamma"), X0_Map = cms.string('RecoParticleFlow/PFProducer/data/allX0histos.root'), algoType = cms.uint32(0), blocks = cms.InputTag("particleFlowBlock"), 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), calibPFSCEle_Fbrem_barrel = cms.vdouble( 0.6, 6, -0.0255975, 0.0576727, 0.975442, -0.000546394, 1.26147, 25, -0.02025, 0.04537, 0.9728, -0.0008962, 1.172 ), calibPFSCEle_Fbrem_endcap = cms.vdouble( 0.9, 6.5, -0.0692932, 0.101776, 0.995338, -0.00236548, 0.874998, 1.653, -0.0750184, 0.147, 0.923165, 0.000474665, 1.10782 ), calibPFSCEle_barrel = cms.vdouble( 1.004, -1.536, 22.88, -1.467, 0.3555, 0.6227, 14.65, 2051, 25, 0.9932, -0.5444, 0, 0.5438, 0.7109, 7.645, 0.2904, 0 ), calibPFSCEle_endcap = cms.vdouble( 1.153, -16.5975, 5.668, -0.1772, 16.22, 7.326, 0.0483, -4.068, 9.406 ), calibrationsLabel = cms.string(''), cleanedHF = cms.VInputTag(cms.InputTag("particleFlowRecHitHF","Cleaned"), cms.InputTag("particleFlowClusterHF","Cleaned")), coneEcalIsoForEgammaSC = cms.double(0.3), coneTrackIsoForEgammaSC = cms.double(0.3), cosmicRejectionDistance = cms.double(1.0), debug = cms.untracked.bool(False), dptRel_DispVtx = cms.double(10.0), dzPV = cms.double(0.2), egammaElectrons = cms.InputTag("mvaElectrons"), 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_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(True), 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) ), eventFactorForCosmics = cms.double(10.0), eventFractionForCleaning = cms.double(0.5), eventFractionForRejection = cms.double(0.8), factors_45 = cms.vdouble(10.0, 100.0), goodPixelTrackDeadHcal_chi2n = cms.double(2), 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), 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(True), bCorrect = cms.bool(True), dptRel_MergedTrack = cms.double(5.0), dptRel_PrimaryTrack = cms.double(10.0), nuclCalibFactors = cms.vdouble(0.8, 0.15, 0.5, 0.5, 0.05), ptErrorSecondary = cms.double(1.0) ), isolatedElectronID_mvaWeightFile = cms.string('RecoEgamma/ElectronIdentification/data/TMVA_BDTSimpleCat_17Feb2011.weights.xml'), maxDPtOPt = cms.double(1.0), maxDeltaPhiPt = cms.double(7.0), maxSignificance = cms.double(2.5), metFactorForCleaning = cms.double(4.0), metFactorForFakes = cms.double(4.0), metFactorForHighEta = cms.double(25.0), metFactorForRejection = cms.double(4.0), metSignificanceForCleaning = cms.double(3.0), metSignificanceForRejection = cms.double(4.0), minDeltaMet = cms.double(0.4), minEnergyForPunchThrough = cms.double(100.0), minHFCleaningPt = cms.double(5.0), minMomentumForPunchThrough = cms.double(100.0), minPixelHits = cms.int32(1), minPtForPostCleaning = cms.double(20.0), minSignificance = cms.double(2.5), minSignificanceReduction = cms.double(1.4), minTrackerHits = cms.int32(8), 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("muons1stStep"), nTrackIsoForEgammaSC = cms.uint32(2), nsigma_TRACK = cms.double(1.0), pf_GlobC_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFGlobalCorr_14Dec2011.root'), pf_Res_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFRes_14Dec2011.root'), pf_convID_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_pfConversionAug0411.txt'), pf_conv_mvaCut = cms.double(0.0), pf_electronID_crackCorrection = cms.bool(False), pf_electronID_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/MVAnalysis_BDT.weights_PfElectrons23Jan_IntToFloat.txt'), pf_electron_mvaCut = cms.double(-0.1), pf_electron_output_col = cms.string('electrons'), pf_locC_mvaWeightFile = cms.string('RecoParticleFlow/PFProducer/data/TMVARegression_BDTG_PFClusterLCorr_14Dec2011.root'), pf_nsigma_ECAL = cms.double(0.0), pf_nsigma_HCAL = 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(True), solidConeTrkIsoOffset = cms.double(10.0), solidConeTrkIsoSlope = cms.double(0.3) ), photon_protectionsForJetMET = cms.PSet( sumPtTrackIso = cms.double(4.0), sumPtTrackIsoSlope = cms.double(0.001) ), postHFCleaning = cms.bool(False), postMuonCleaning = cms.bool(True), ptErrorScale = cms.double(8.0), ptFactorForHighEta = cms.double(2.0), pt_Error = cms.double(1.0), punchThroughFactor = cms.double(3.0), punchThroughMETFactor = cms.double(4.0), rejectTracks_Bad = cms.bool(True), rejectTracks_Step45 = cms.bool(True), sumEtEcalIsoForEgammaSC_barrel = cms.double(1.0), sumEtEcalIsoForEgammaSC_endcap = cms.double(2.0), sumPtTrackIsoForEgammaSC_barrel = cms.double(4.0), sumPtTrackIsoForEgammaSC_endcap = cms.double(4.0), sumPtTrackIsoForPhoton = cms.double(2.0), sumPtTrackIsoSlopeForPhoton = cms.double(0.001), trackQuality = cms.string('highPurity'), useCalibrationsFromDB = cms.bool(True), useEGammaElectrons = cms.bool(True), useEGammaFilters = cms.bool(True), useEGammaSupercluster = cms.bool(True), useHO = cms.bool(True), usePFConversions = cms.bool(True), usePFDecays = cms.bool(False), usePFElectrons = cms.bool(False), usePFNuclearInteractions = cms.bool(True), usePFPhotons = cms.bool(False), usePFSCEleCalib = cms.bool(True), usePhotonReg = cms.bool(False), useProtectionsForJetMET = cms.bool(True), useRegressionFromDB = cms.bool(True), useVerticesForNeutral = cms.bool(True), verbose = cms.untracked.bool(False), vertexCollection = cms.InputTag("offlinePrimaryVertices") ) process.particleFlowTmpPtrs = cms.EDProducer("PFCandidateFwdPtrProducer", src = cms.InputTag("particleFlowTmp") ) process.pfAllElectronsClones = cms.EDProducer("PFCandidateProductFromFwdPtrProducer", src = cms.InputTag("pfAllElectrons") ) process.pfAllMuonsClones = cms.EDProducer("PFCandidateProductFromFwdPtrProducer", src = cms.InputTag("pfAllMuons") ) process.pfBoostedDoubleSVAK8TagInfos = cms.EDProducer("BoostedDoubleSVProducer", R0 = cms.double(0.8), beta = cms.double(1.0), maxSVDeltaRToJet = cms.double(0.7), svTagInfos = cms.InputTag("pfInclusiveSecondaryVertexFinderAK8TagInfos"), trackPairV0Filter = cms.PSet( k0sMassWindow = cms.double(0.03) ), 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(0.8), 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) ) ) process.pfBoostedDoubleSVCA15TagInfos = cms.EDProducer("BoostedDoubleSVProducer", R0 = cms.double(1.5), beta = cms.double(1.0), maxSVDeltaRToJet = cms.double(1.0), svTagInfos = cms.InputTag("pfInclusiveSecondaryVertexFinderCA15TagInfos"), trackPairV0Filter = cms.PSet( k0sMassWindow = cms.double(0.03) ), 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(1.5), 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) ) ) process.pfBoostedDoubleSecondaryVertexAK8BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateBoostedDoubleSecondaryVertexAK8Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfBoostedDoubleSVAK8TagInfos")) ) process.pfBoostedDoubleSecondaryVertexCA15BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateBoostedDoubleSecondaryVertexCA15Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfBoostedDoubleSVCA15TagInfos")) ) process.pfChMet = cms.EDProducer("PFMETProducer", alias = cms.string('pfChMet'), calculateSignificance = cms.bool(False), globalThreshold = cms.double(999.0), src = cms.InputTag("particleFlowForChargedMET") ) process.pfChargeBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateChargeBTagComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfCombinedCvsBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('charmTagsComputerCvsB'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfCombinedCvsLJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('charmTagsComputerCvsL'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfCombinedInclusiveSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos")) ) process.pfCombinedMVAV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateCombinedMVAV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfSecondaryVertexTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfCombinedSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfSecondaryVertexTagInfos")) ) process.pfConversions = cms.EDProducer("PFConversionProducer", PrimaryVertexLabel = cms.InputTag("offlinePrimaryVertices"), conversionCollection = cms.InputTag("allConversions") ) process.pfDeepBoostedDiscriminatorsJetTags = cms.EDProducer("BTagProbabilityToDiscriminator", discriminators = cms.VPSet( cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfDeepBoostedJetTags","probTbcq"), cms.InputTag("pfDeepBoostedJetTags","probTbqq"), cms.InputTag("pfDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfDeepBoostedJetTags","probQCDb"), cms.InputTag("pfDeepBoostedJetTags","probQCDc"), cms.InputTag("pfDeepBoostedJetTags","probQCDothers") ), name = cms.string('TvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfDeepBoostedJetTags","probTbcq"), cms.InputTag("pfDeepBoostedJetTags","probTbqq")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfDeepBoostedJetTags","probWcq"), cms.InputTag("pfDeepBoostedJetTags","probWqq"), cms.InputTag("pfDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfDeepBoostedJetTags","probQCDb"), cms.InputTag("pfDeepBoostedJetTags","probQCDc"), cms.InputTag("pfDeepBoostedJetTags","probQCDothers") ), name = cms.string('WvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfDeepBoostedJetTags","probWcq"), cms.InputTag("pfDeepBoostedJetTags","probWqq")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfDeepBoostedJetTags","probZbb"), cms.InputTag("pfDeepBoostedJetTags","probZcc"), cms.InputTag("pfDeepBoostedJetTags","probZqq"), cms.InputTag("pfDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfDeepBoostedJetTags","probQCDb"), cms.InputTag("pfDeepBoostedJetTags","probQCDc"), cms.InputTag("pfDeepBoostedJetTags","probQCDothers") ), name = cms.string('ZvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfDeepBoostedJetTags","probZbb"), cms.InputTag("pfDeepBoostedJetTags","probZcc"), cms.InputTag("pfDeepBoostedJetTags","probZqq")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfDeepBoostedJetTags","probZbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfDeepBoostedJetTags","probQCDb"), cms.InputTag("pfDeepBoostedJetTags","probQCDc"), cms.InputTag("pfDeepBoostedJetTags","probQCDothers") ), name = cms.string('ZbbvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfDeepBoostedJetTags","probZbb")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfDeepBoostedJetTags","probHbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfDeepBoostedJetTags","probQCDb"), cms.InputTag("pfDeepBoostedJetTags","probQCDc"), cms.InputTag("pfDeepBoostedJetTags","probQCDothers") ), name = cms.string('HbbvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfDeepBoostedJetTags","probHbb")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfDeepBoostedJetTags","probHqqqq"), cms.InputTag("pfDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfDeepBoostedJetTags","probQCDb"), cms.InputTag("pfDeepBoostedJetTags","probQCDc"), cms.InputTag("pfDeepBoostedJetTags","probQCDothers") ), name = cms.string('H4qvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfDeepBoostedJetTags","probHqqqq")) ) ) ) process.pfDeepBoostedJetTagInfos = cms.EDProducer("DeepBoostedJetTagInfoProducer", has_puppi_weighted_daughters = cms.bool(True), jet_radius = cms.double(0.8), jets = cms.InputTag("ak8PFJetsPuppi"), min_jet_pt = cms.double(150), min_pt_for_track_properties = cms.double(-1), puppi_value_map = cms.InputTag("puppi"), secondary_vertices = cms.InputTag("inclusiveCandidateSecondaryVertices"), vertex_associator = cms.InputTag("primaryVertexAssociation","original"), vertices = cms.InputTag("offlinePrimaryVertices") ) process.pfDeepBoostedJetTags = cms.EDProducer("DeepBoostedJetTagsProducer", debugMode = cms.untracked.bool(False), flav_names = cms.vstring( 'probTbcq', 'probTbqq', 'probTbc', 'probTbq', 'probWcq', 'probWqq', 'probZbb', 'probZcc', 'probZqq', 'probHbb', 'probHcc', 'probHqqqq', 'probQCDbb', 'probQCDcc', 'probQCDb', 'probQCDc', 'probQCDothers' ), model_path = cms.FileInPath('RecoBTag/Combined/data/DeepBoostedJet/V01/full/resnet-symbol.json'), param_path = cms.FileInPath('RecoBTag/Combined/data/DeepBoostedJet/V01/full/resnet-0000.params'), preprocessParams = cms.PSet( input_names = cms.vstring( 'pfcand', 'sv' ), pfcand = cms.PSet( input_shape = cms.vuint32(1, 42, 100, 1), var_infos = cms.PSet( pfcand_VTX_ass = cms.PSet( median = cms.double(7.0), upper = cms.double(7.0) ), pfcand_abseta = cms.PSet( median = cms.double(0.599505603313), upper = cms.double(1.21494185925) ), pfcand_btagEtaRel = cms.PSet( median = cms.double(0.0), upper = cms.double(3.23048327446) ), pfcand_btagJetDistVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_btagPParRatio = cms.PSet( median = cms.double(0.0), upper = cms.double(0.997295975685) ), pfcand_btagPtRatio = cms.PSet( median = cms.double(0.0), upper = cms.double(0.174372568727) ), pfcand_btagSip2dSig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.565274050236) ), pfcand_btagSip2dVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00165283482056) ), pfcand_btagSip3dSig = cms.PSet( median = cms.double(0.0), upper = cms.double(1.03450630188) ), pfcand_btagSip3dVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00417172765359) ), pfcand_charge = cms.PSet( median = cms.double(0.0), upper = cms.double(1.0) ), pfcand_deltaR = cms.PSet( median = cms.double(0.22575956583), upper = cms.double(0.488191870451) ), pfcand_detadeta = cms.PSet( median = cms.double(0.0), upper = cms.double(5.08303287461e-07) ), pfcand_dlambdadz = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_dphidphi = cms.PSet( median = cms.double(0.0), upper = cms.double(7.63271316373e-07) ), pfcand_dphidxy = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_dptdpt = cms.PSet( median = cms.double(0.0), upper = cms.double(6.11870564171e-06) ), pfcand_drminsv = cms.PSet( median = cms.double(0.177426457405), upper = cms.double(0.555181086063) ), pfcand_drsubjet1 = cms.PSet( median = cms.double(0.231124095619), upper = cms.double(0.549522156715) ), pfcand_drsubjet2 = cms.PSet( median = cms.double(0.263272643089), upper = cms.double(0.605471189022) ), pfcand_dxy = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00254638679326) ), pfcand_dxydxy = cms.PSet( median = cms.double(0.0), upper = cms.double(2.14965821215e-05) ), pfcand_dxydz = cms.PSet( median = cms.double(0.0), upper = cms.double(1.31130221348e-07) ), pfcand_dxysig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.496566288471) ), pfcand_dz = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00448730448261) ), pfcand_dzdz = cms.PSet( median = cms.double(0.0), upper = cms.double(3.40332044289e-05) ), pfcand_dzsig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.596591930389) ), pfcand_erel_log = cms.PSet( median = cms.double(-5.38983869553), upper = cms.double(-3.53490426064) ), pfcand_etarel = cms.PSet( median = cms.double(-0.0054658302106), upper = cms.double(0.174858552814) ), pfcand_hcalFrac = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isChargedHad = cms.PSet( median = cms.double(1.0), upper = cms.double(1.0) ), pfcand_isEl = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isGamma = cms.PSet( median = cms.double(0.0), upper = cms.double(1.0) ), pfcand_isMu = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isNeutralHad = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_lostInnerHits = cms.PSet( median = cms.double(-1.0), upper = cms.double(-1.0) ), pfcand_normchi2 = cms.PSet( median = cms.double(999.0), upper = cms.double(999.0) ), pfcand_phirel = cms.PSet( median = cms.double(-5.10289683007e-05), upper = cms.double(0.215602903366) ), pfcand_pt_log = cms.PSet( median = cms.double(1.09469842911), upper = cms.double(3.02194809914) ), pfcand_ptrel_log = cms.PSet( median = cms.double(-5.38205528259), upper = cms.double(-3.52304198265) ), pfcand_puppiw = cms.PSet( median = cms.double(1.0), upper = cms.double(1.0) ), pfcand_quality = cms.PSet( median = cms.double(0.0), upper = cms.double(5.0) ) ), var_length = cms.uint32(100), var_names = cms.vstring( 'pfcand_pt_log', 'pfcand_ptrel_log', 'pfcand_erel_log', 'pfcand_phirel', 'pfcand_etarel', 'pfcand_deltaR', 'pfcand_abseta', 'pfcand_puppiw', 'pfcand_drminsv', 'pfcand_drsubjet1', 'pfcand_drsubjet2', 'pfcand_charge', 'pfcand_isMu', 'pfcand_isEl', 'pfcand_isChargedHad', 'pfcand_isGamma', 'pfcand_isNeutralHad', 'pfcand_hcalFrac', 'pfcand_VTX_ass', 'pfcand_lostInnerHits', 'pfcand_normchi2', 'pfcand_quality', 'pfcand_dz', 'pfcand_dzsig', 'pfcand_dxy', 'pfcand_dxysig', 'pfcand_dptdpt', 'pfcand_detadeta', 'pfcand_dphidphi', 'pfcand_dxydxy', 'pfcand_dzdz', 'pfcand_dxydz', 'pfcand_dphidxy', 'pfcand_dlambdadz', 'pfcand_btagEtaRel', 'pfcand_btagPtRatio', 'pfcand_btagPParRatio', 'pfcand_btagSip2dVal', 'pfcand_btagSip2dSig', 'pfcand_btagSip3dVal', 'pfcand_btagSip3dSig', 'pfcand_btagJetDistVal' ) ), sv = cms.PSet( input_shape = cms.vuint32(1, 15, 7, 1), var_infos = cms.PSet( sv_abseta = cms.PSet( median = cms.double(0.579698801041), upper = cms.double(1.2257443285) ), sv_costhetasvpv = cms.PSet( median = cms.double(0.999744534492), upper = cms.double(0.999992311001) ), sv_d3d = cms.PSet( median = cms.double(0.496477723122), upper = cms.double(4.83165483475) ), sv_d3dsig = cms.PSet( median = cms.double(6.50515079498), upper = cms.double(36.9069334412) ), sv_deltaR = cms.PSet( median = cms.double(0.105607174337), upper = cms.double(0.323846782446) ), sv_dxy = cms.PSet( median = cms.double(0.369336694479), upper = cms.double(3.97735537529) ), sv_dxysig = cms.PSet( median = cms.double(6.49603271484), upper = cms.double(36.8943783569) ), sv_erel_log = cms.PSet( median = cms.double(-2.77275466919), upper = cms.double(-1.7486346817) ), sv_etarel = cms.PSet( median = cms.double(-0.00318800867535), upper = cms.double(0.0951088288426) ), sv_mass = cms.PSet( median = cms.double(1.36728298664), upper = cms.double(4.75960615158) ), sv_normchi2 = cms.PSet( median = cms.double(0.796081960201), upper = cms.double(2.15187430382) ), sv_ntracks = cms.PSet( median = cms.double(3.0), upper = cms.double(5.0) ), sv_phirel = cms.PSet( median = cms.double(0.000510219600983), upper = cms.double(0.110185634494) ), sv_pt_log = cms.PSet( median = cms.double(3.77797603607), upper = cms.double(4.90166530609) ), sv_ptrel_log = cms.PSet( median = cms.double(-2.7622461319), upper = cms.double(-1.73727185726) ) ), var_length = cms.uint32(7), var_names = cms.vstring( 'sv_pt_log', 'sv_ptrel_log', 'sv_erel_log', 'sv_phirel', 'sv_etarel', 'sv_deltaR', 'sv_abseta', 'sv_mass', 'sv_ntracks', 'sv_normchi2', 'sv_dxy', 'sv_dxysig', 'sv_d3d', 'sv_d3dsig', 'sv_costhetasvpv' ) ) ), src = cms.InputTag("pfDeepBoostedJetTagInfos") ) process.pfDeepCMVADiscriminatorsJetTags = cms.EDProducer("BTagProbabilityToDiscriminator", discriminators = cms.VPSet( cms.PSet( denominator = cms.VInputTag(), name = cms.string('BvsAll'), numerator = cms.VInputTag(cms.InputTag("pfDeepCMVAJetTags","probb"), cms.InputTag("pfDeepCMVAJetTags","probbb")) ), cms.PSet( denominator = cms.VInputTag(cms.InputTag("pfDeepCMVAJetTags","probc"), cms.InputTag("pfDeepCMVAJetTags","probb"), cms.InputTag("pfDeepCMVAJetTags","probbb")), name = cms.string('CvsB'), numerator = cms.VInputTag(cms.InputTag("pfDeepCMVAJetTags","probc")) ), cms.PSet( denominator = cms.VInputTag(cms.InputTag("pfDeepCMVAJetTags","probc"), cms.InputTag("pfDeepCMVAJetTags","probudsg")), name = cms.string('CvsL'), numerator = cms.VInputTag(cms.InputTag("pfDeepCMVAJetTags","probc")) ) ) ) process.pfDeepCMVAJetTags = cms.EDProducer("DeepFlavourJetTagsProducer", NNConfig = cms.FileInPath('RecoBTag/Combined/data/Model_DeepCMVA.json'), checkSVForDefaults = cms.bool(False), meanPadding = cms.bool(False), src = cms.InputTag("pfDeepCMVATagInfos"), toAdd = cms.PSet( ) ) process.pfDeepCMVANegativeTagInfos = cms.EDProducer("DeepCMVATagInfoProducer", cMVAPtThreshold = cms.double(200), deepNNTagInfos = cms.InputTag("pfDeepCSVNegativeTagInfos"), elInfoSrc = cms.InputTag("softPFElectronsTagInfos"), ipInfoSrc = cms.InputTag("pfImpactParameterTagInfos"), jpComputerSrc = cms.string('candidateJetProbabilityComputer'), jpbComputerSrc = cms.string('candidateJetBProbabilityComputer'), muInfoSrc = cms.InputTag("softPFMuonsTagInfos"), softelComputerSrc = cms.string('softPFElectronComputer'), softmuComputerSrc = cms.string('softPFMuonComputer') ) process.pfDeepCMVAPositiveTagInfos = cms.EDProducer("DeepCMVATagInfoProducer", cMVAPtThreshold = cms.double(200), deepNNTagInfos = cms.InputTag("pfDeepCSVPositiveTagInfos"), elInfoSrc = cms.InputTag("softPFElectronsTagInfos"), ipInfoSrc = cms.InputTag("pfImpactParameterTagInfos"), jpComputerSrc = cms.string('candidateJetProbabilityComputer'), jpbComputerSrc = cms.string('candidateJetBProbabilityComputer'), muInfoSrc = cms.InputTag("softPFMuonsTagInfos"), softelComputerSrc = cms.string('softPFElectronComputer'), softmuComputerSrc = cms.string('softPFMuonComputer') ) process.pfDeepCMVATagInfos = cms.EDProducer("DeepCMVATagInfoProducer", cMVAPtThreshold = cms.double(200), deepNNTagInfos = cms.InputTag("pfDeepCSVTagInfos"), elInfoSrc = cms.InputTag("softPFElectronsTagInfos"), ipInfoSrc = cms.InputTag("pfImpactParameterTagInfos"), jpComputerSrc = cms.string('candidateJetProbabilityComputer'), jpbComputerSrc = cms.string('candidateJetBProbabilityComputer'), muInfoSrc = cms.InputTag("softPFMuonsTagInfos"), softelComputerSrc = cms.string('softPFElectronComputer'), softmuComputerSrc = cms.string('softPFMuonComputer') ) process.pfDeepCSVDiscriminatorsJetTags = cms.EDProducer("BTagProbabilityToDiscriminator", discriminators = cms.VPSet( cms.PSet( denominator = cms.VInputTag(), name = cms.string('BvsAll'), numerator = cms.VInputTag(cms.InputTag("pfDeepCSVJetTags","probb"), cms.InputTag("pfDeepCSVJetTags","probbb")) ), cms.PSet( denominator = cms.VInputTag(cms.InputTag("pfDeepCSVJetTags","probc"), cms.InputTag("pfDeepCSVJetTags","probb"), cms.InputTag("pfDeepCSVJetTags","probbb")), name = cms.string('CvsB'), numerator = cms.VInputTag(cms.InputTag("pfDeepCSVJetTags","probc")) ), cms.PSet( denominator = cms.VInputTag(cms.InputTag("pfDeepCSVJetTags","probudsg"), cms.InputTag("pfDeepCSVJetTags","probc")), name = cms.string('CvsL'), numerator = cms.VInputTag(cms.InputTag("pfDeepCSVJetTags","probc")) ) ) ) process.pfDeepCSVJetTags = cms.EDProducer("DeepFlavourJetTagsProducer", NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'), checkSVForDefaults = cms.bool(True), meanPadding = cms.bool(True), src = cms.InputTag("pfDeepCSVTagInfos"), toAdd = cms.PSet( ) ) process.pfDeepCSVNegativeTagInfos = 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(True), 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(-2.0), sip2dSigMin = cms.double(-99999.9), sip2dValMax = cms.double(99999.9), sip2dValMin = cms.double(-99999.9), sip3dSigMax = cms.double(10.0), 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(10.0), 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(True) ), svTagInfos = cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeTagInfos") ) process.pfDeepCSVPositiveTagInfos = 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), 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(0), 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(0), 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("pfInclusiveSecondaryVertexFinderTagInfos") ) process.pfDeepCSVTagInfos = 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), 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'), useTrackWeights = cms.bool(True), vertexFlip = cms.bool(False) ), svTagInfos = cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos") ) process.pfDeepDoubleBJetTags = cms.EDProducer("DeepDoubleBTFJetTagsProducer", batch_eval = cms.bool(False), flav_table = cms.PSet( probH = cms.vuint32(1), probQ = cms.vuint32(0) ), graph_path = cms.FileInPath('RecoBTag/Combined/data/DeepDoubleB/V01/constant_graph_PtCut_MassSculptPen.pb'), input_names = cms.vstring( 'input_1', 'input_2', 'input_3' ), lp_names = cms.vstring('db_input_batchnorm/keras_learning_phase'), nThreads = cms.uint32(1), output_names = cms.vstring('ID_pred/Softmax'), singleThreadPool = cms.string('no_threads'), src = cms.InputTag("pfDeepDoubleBTagInfos") ) process.pfDeepDoubleBTagInfos = cms.EDProducer("DeepDoubleBTagInfoProducer", jet_radius = cms.double(0.8), jets = cms.InputTag("ak8PFJetsCHS"), min_candidate_pt = cms.double(0.95), secondary_vertices = cms.InputTag("inclusiveCandidateSecondaryVertices"), shallow_tag_infos = cms.InputTag("pfBoostedDoubleSVAK8TagInfos"), vertices = cms.InputTag("offlinePrimaryVertices") ) process.pfDeepFlavourJetTags = cms.EDProducer("DeepFlavourTFJetTagsProducer", batch_eval = cms.bool(False), flav_table = cms.PSet( probb = cms.vuint32(0), probbb = cms.vuint32(1), probc = cms.vuint32(3), probg = cms.vuint32(5), problepb = cms.vuint32(2), probuds = cms.vuint32(4) ), graph_path = cms.FileInPath('RecoBTag/Combined/data/DeepFlavourV03_10X_training/constant_graph.pb'), input_names = cms.vstring( 'input_1', 'input_2', 'input_3', 'input_4', 'input_5' ), lp_names = cms.vstring('cpf_input_batchnorm/keras_learning_phase'), nThreads = cms.uint32(1), output_names = cms.vstring( 'ID_pred/Softmax', 'regression_pred/BiasAdd' ), singleThreadPool = cms.string('no_threads'), src = cms.InputTag("pfDeepFlavourTagInfos") ) process.pfDeepFlavourTagInfos = cms.EDProducer("DeepFlavourTagInfoProducer", fallback_puppi_weight = cms.bool(False), fallback_vertex_association = cms.bool(False), flip = cms.bool(False), jet_radius = cms.double(0.4), jets = cms.InputTag("ak4PFJetsCHS"), min_candidate_pt = cms.double(0.95), puppi_value_map = cms.InputTag("puppi"), secondary_vertices = cms.InputTag("inclusiveCandidateSecondaryVertices"), shallow_tag_infos = cms.InputTag("pfDeepCSVTagInfos"), vertex_associator = cms.InputTag("primaryVertexAssociation","original"), vertices = cms.InputTag("offlinePrimaryVertices") ) process.pfDisplacedTrackerVertex = cms.EDProducer("PFDisplacedTrackerVertexProducer", displacedTrackerVertexColl = cms.InputTag("particleFlowDisplacedVertex"), trackColl = cms.InputTag("generalTracks") ) process.pfElectronInterestingEcalDetIdEB = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("pfElectronTranslator","pf"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.pfElectronInterestingEcalDetIdEE = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("pfElectronTranslator","pf"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), severityLevel = cms.int32(1) ) process.pfElectronTranslator = cms.EDProducer("PFElectronTranslator", CheckStatusFlag = cms.bool(True), ElectronMVA = cms.string('pf'), ElectronSC = cms.string('pf'), GSFTracks = cms.InputTag("electronGsfTracks"), MVACutBlock = cms.PSet( MVACut = cms.double(-1.0) ), PFBasicClusters = cms.string('pf'), PFCandidate = cms.InputTag("pfSelectedElectrons"), PFCandidateElectron = cms.InputTag("particleFlowTmp","electrons"), PFGsfElectron = cms.string('pf'), PFGsfElectronCore = cms.string('pf'), PFPreshowerClusters = cms.string('pf'), PFSuperClusters = cms.string('pf'), isolationValues = cms.PSet( pfSumChargedHadronPt = cms.InputTag("elPFIsoValueCharged04PFId"), pfSumNeutralHadronEt = cms.InputTag("elPFIsoValueNeutral04PFId"), pfSumPUPt = cms.InputTag("elPFIsoValuePU04PFId"), pfSumPhotonEt = cms.InputTag("elPFIsoValueGamma04PFId") ), useIsolationValues = cms.bool(False) ) process.pfGhostTrackBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateGhostTrackComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfGhostTrackVertexTagInfos")) ) process.pfGhostTrackVertexTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("secondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(False), 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(1), useTrackWeights = cms.bool(True), v0Filter = cms.PSet( k0sMassWindow = cms.double(0.05) ) ), vertexReco = cms.PSet( finder = cms.string('gtvr'), fitType = cms.string('RefitGhostTrackWithVertices'), maxFitChi2 = cms.double(10.0), mergeThreshold = cms.double(3.0), primcut = cms.double(2.0), seccut = cms.double(4.0) ), vertexSelection = cms.PSet( sortCriterium = cms.string('dist3dError') ) ) process.pfImpactParameterAK8TagInfos = cms.EDProducer("CandIPProducer", candidates = cms.InputTag("particleFlow"), computeGhostTrack = cms.bool(False), computeProbabilities = cms.bool(False), ghostTrackPriorDeltaR = cms.double(0.03), jetDirectionUsingGhostTrack = cms.bool(False), jetDirectionUsingTracks = cms.bool(False), jets = cms.InputTag("ak8PFJetsCHS"), maxDeltaR = cms.double(0.8), maximumChiSquared = cms.double(5.0), maximumLongitudinalImpactParameter = cms.double(17.0), maximumTransverseImpactParameter = cms.double(0.2), minimumNumberOfHits = cms.int32(0), minimumNumberOfPixelHits = cms.int32(1), minimumTransverseMomentum = cms.double(1.0), primaryVertex = cms.InputTag("offlinePrimaryVertices"), useTrackQuality = cms.bool(False) ) process.pfImpactParameterCA15TagInfos = cms.EDProducer("CandIPProducer", candidates = cms.InputTag("particleFlow"), computeGhostTrack = cms.bool(False), computeProbabilities = cms.bool(False), ghostTrackPriorDeltaR = cms.double(0.03), jetDirectionUsingGhostTrack = cms.bool(False), jetDirectionUsingTracks = cms.bool(False), jets = cms.InputTag("ca15PFJetsCHS"), maxDeltaR = cms.double(1.5), maximumChiSquared = cms.double(5.0), maximumLongitudinalImpactParameter = cms.double(17.0), maximumTransverseImpactParameter = cms.double(0.2), minimumNumberOfHits = cms.int32(0), minimumNumberOfPixelHits = cms.int32(1), minimumTransverseMomentum = cms.double(1.0), primaryVertex = cms.InputTag("offlinePrimaryVertices"), useTrackQuality = cms.bool(False) ) process.pfImpactParameterTagInfos = cms.EDProducer("CandIPProducer", candidates = cms.InputTag("particleFlow"), computeGhostTrack = cms.bool(True), computeProbabilities = cms.bool(True), ghostTrackPriorDeltaR = cms.double(0.03), jetDirectionUsingGhostTrack = cms.bool(False), jetDirectionUsingTracks = cms.bool(False), jets = cms.InputTag("ak4PFJetsCHS"), maxDeltaR = cms.double(0.4), maximumChiSquared = cms.double(5.0), maximumLongitudinalImpactParameter = cms.double(17.0), maximumTransverseImpactParameter = cms.double(0.2), minimumNumberOfHits = cms.int32(0), minimumNumberOfPixelHits = cms.int32(1), minimumTransverseMomentum = cms.double(1.0), primaryVertex = cms.InputTag("offlinePrimaryVertices"), useTrackQuality = cms.bool(False) ) process.pfInclusiveSecondaryVertexFinderAK8TagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveCandidateSecondaryVertices"), extSVDeltaRToJet = cms.double(0.8), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterAK8TagInfos"), 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(0.8), maxDecayLen = cms.double(99999.9), maxDistToAxis = cms.double(0.2), 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(1), 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(0), 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(0.8), 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.pfInclusiveSecondaryVertexFinderCA15TagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveCandidateSecondaryVertices"), extSVDeltaRToJet = cms.double(1.5), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterCA15TagInfos"), 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(1.5), maxDecayLen = cms.double(99999.9), maxDistToAxis = cms.double(0.2), 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(1), 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(0), 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(1.5), 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.pfInclusiveSecondaryVertexFinderCvsLTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveCandidateSecondaryVerticesCvsL"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), 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(1.5), 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.pfInclusiveSecondaryVertexFinderNegativeCvsLTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveCandidateSecondaryVerticesCvsL"), extSVDeltaRToJet = cms.double(-0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(True), usePVError = cms.bool(True), vertexCuts = cms.PSet( distSig2dMax = cms.double(-1.5), distSig2dMin = cms.double(-99999.9), distSig3dMax = cms.double(99999.9), distSig3dMin = cms.double(-99999.9), distVal2dMax = cms.double(-0.01), distVal2dMin = cms.double(-2.5), 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.pfInclusiveSecondaryVertexFinderNegativeTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveCandidateNegativeSecondaryVertices"), extSVDeltaRToJet = cms.double(-0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(True), usePVError = cms.bool(True), vertexCuts = cms.PSet( distSig2dMax = cms.double(-2.0), distSig2dMin = cms.double(-99999.9), distSig3dMax = cms.double(99999.9), distSig3dMin = cms.double(-99999.9), distVal2dMax = cms.double(-0.01), distVal2dMin = cms.double(-2.5), 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.pfInclusiveSecondaryVertexFinderTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("inclusiveCandidateSecondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), 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.pfJetBProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateJetBProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfJetProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateJetProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfMassDecorrelatedDeepBoostedDiscriminatorsJetTags = cms.EDProducer("BTagProbabilityToDiscriminator", discriminators = cms.VPSet( cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probTbcq"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probTbqq"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('TvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probTbcq"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probTbqq")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probWcq"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probWqq"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('WvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probWcq"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probWqq")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('ZHbbvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHbb")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('ZHccvsQCD'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHcc")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('bbvsLight'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb")) ), cms.PSet( denominator = cms.VInputTag( cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDbb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDb"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDothers") ), name = cms.string('ccvsLight'), numerator = cms.VInputTag(cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probZcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probHcc"), cms.InputTag("pfMassDecorrelatedDeepBoostedJetTags","probQCDcc")) ) ) ) process.pfMassDecorrelatedDeepBoostedJetTags = cms.EDProducer("DeepBoostedJetTagsProducer", debugMode = cms.untracked.bool(False), flav_names = cms.vstring( 'probTbcq', 'probTbqq', 'probTbc', 'probTbq', 'probWcq', 'probWqq', 'probZbb', 'probZcc', 'probZqq', 'probHbb', 'probHcc', 'probHqqqq', 'probQCDbb', 'probQCDcc', 'probQCDb', 'probQCDc', 'probQCDothers' ), model_path = cms.FileInPath('RecoBTag/Combined/data/DeepBoostedJet/V01/decorrelated/resnet-symbol.json'), param_path = cms.FileInPath('RecoBTag/Combined/data/DeepBoostedJet/V01/decorrelated/resnet-0000.params'), preprocessParams = cms.PSet( input_names = cms.vstring( 'pfcand', 'sv' ), pfcand = cms.PSet( input_shape = cms.vuint32(1, 42, 100, 1), var_infos = cms.PSet( pfcand_VTX_ass = cms.PSet( median = cms.double(7.0), upper = cms.double(7.0) ), pfcand_abseta = cms.PSet( median = cms.double(0.599505603313), upper = cms.double(1.21494185925) ), pfcand_btagEtaRel = cms.PSet( median = cms.double(0.0), upper = cms.double(3.23048327446) ), pfcand_btagJetDistVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_btagPParRatio = cms.PSet( median = cms.double(0.0), upper = cms.double(0.997295975685) ), pfcand_btagPtRatio = cms.PSet( median = cms.double(0.0), upper = cms.double(0.174372568727) ), pfcand_btagSip2dSig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.565274050236) ), pfcand_btagSip2dVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00165283482056) ), pfcand_btagSip3dSig = cms.PSet( median = cms.double(0.0), upper = cms.double(1.03450630188) ), pfcand_btagSip3dVal = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00417172765359) ), pfcand_charge = cms.PSet( median = cms.double(0.0), upper = cms.double(1.0) ), pfcand_deltaR = cms.PSet( median = cms.double(0.22575956583), upper = cms.double(0.488191870451) ), pfcand_detadeta = cms.PSet( median = cms.double(0.0), upper = cms.double(5.08303287461e-07) ), pfcand_dlambdadz = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_dphidphi = cms.PSet( median = cms.double(0.0), upper = cms.double(7.63271316373e-07) ), pfcand_dphidxy = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_dptdpt = cms.PSet( median = cms.double(0.0), upper = cms.double(6.11870564171e-06) ), pfcand_drminsv = cms.PSet( median = cms.double(0.177426457405), upper = cms.double(0.555181086063) ), pfcand_drsubjet1 = cms.PSet( median = cms.double(0.231124095619), upper = cms.double(0.549522156715) ), pfcand_drsubjet2 = cms.PSet( median = cms.double(0.263272643089), upper = cms.double(0.605471189022) ), pfcand_dxy = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00254638679326) ), pfcand_dxydxy = cms.PSet( median = cms.double(0.0), upper = cms.double(2.14965821215e-05) ), pfcand_dxydz = cms.PSet( median = cms.double(0.0), upper = cms.double(1.31130221348e-07) ), pfcand_dxysig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.496566288471) ), pfcand_dz = cms.PSet( median = cms.double(0.0), upper = cms.double(0.00448730448261) ), pfcand_dzdz = cms.PSet( median = cms.double(0.0), upper = cms.double(3.40332044289e-05) ), pfcand_dzsig = cms.PSet( median = cms.double(0.0), upper = cms.double(0.596591930389) ), pfcand_erel_log = cms.PSet( median = cms.double(-5.38983869553), upper = cms.double(-3.53490426064) ), pfcand_etarel = cms.PSet( median = cms.double(-0.0054658302106), upper = cms.double(0.174858552814) ), pfcand_hcalFrac = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isChargedHad = cms.PSet( median = cms.double(1.0), upper = cms.double(1.0) ), pfcand_isEl = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isGamma = cms.PSet( median = cms.double(0.0), upper = cms.double(1.0) ), pfcand_isMu = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_isNeutralHad = cms.PSet( median = cms.double(0.0), upper = cms.double(0.0) ), pfcand_lostInnerHits = cms.PSet( median = cms.double(-1.0), upper = cms.double(-1.0) ), pfcand_normchi2 = cms.PSet( median = cms.double(999.0), upper = cms.double(999.0) ), pfcand_phirel = cms.PSet( median = cms.double(-5.10289683007e-05), upper = cms.double(0.215602903366) ), pfcand_pt_log = cms.PSet( median = cms.double(1.09469842911), upper = cms.double(3.02194809914) ), pfcand_ptrel_log = cms.PSet( median = cms.double(-5.38205528259), upper = cms.double(-3.52304198265) ), pfcand_puppiw = cms.PSet( median = cms.double(1.0), upper = cms.double(1.0) ), pfcand_quality = cms.PSet( median = cms.double(0.0), upper = cms.double(5.0) ) ), var_length = cms.uint32(100), var_names = cms.vstring( 'pfcand_pt_log', 'pfcand_ptrel_log', 'pfcand_erel_log', 'pfcand_phirel', 'pfcand_etarel', 'pfcand_deltaR', 'pfcand_abseta', 'pfcand_puppiw', 'pfcand_drminsv', 'pfcand_drsubjet1', 'pfcand_drsubjet2', 'pfcand_charge', 'pfcand_isMu', 'pfcand_isEl', 'pfcand_isChargedHad', 'pfcand_isGamma', 'pfcand_isNeutralHad', 'pfcand_hcalFrac', 'pfcand_VTX_ass', 'pfcand_lostInnerHits', 'pfcand_normchi2', 'pfcand_quality', 'pfcand_dz', 'pfcand_dzsig', 'pfcand_dxy', 'pfcand_dxysig', 'pfcand_dptdpt', 'pfcand_detadeta', 'pfcand_dphidphi', 'pfcand_dxydxy', 'pfcand_dzdz', 'pfcand_dxydz', 'pfcand_dphidxy', 'pfcand_dlambdadz', 'pfcand_btagEtaRel', 'pfcand_btagPtRatio', 'pfcand_btagPParRatio', 'pfcand_btagSip2dVal', 'pfcand_btagSip2dSig', 'pfcand_btagSip3dVal', 'pfcand_btagSip3dSig', 'pfcand_btagJetDistVal' ) ), sv = cms.PSet( input_shape = cms.vuint32(1, 15, 7, 1), var_infos = cms.PSet( sv_abseta = cms.PSet( median = cms.double(0.579698801041), upper = cms.double(1.2257443285) ), sv_costhetasvpv = cms.PSet( median = cms.double(0.999744534492), upper = cms.double(0.999992311001) ), sv_d3d = cms.PSet( median = cms.double(0.496477723122), upper = cms.double(4.83165483475) ), sv_d3dsig = cms.PSet( median = cms.double(6.50515079498), upper = cms.double(36.9069334412) ), sv_deltaR = cms.PSet( median = cms.double(0.105607174337), upper = cms.double(0.323846782446) ), sv_dxy = cms.PSet( median = cms.double(0.369336694479), upper = cms.double(3.97735537529) ), sv_dxysig = cms.PSet( median = cms.double(6.49603271484), upper = cms.double(36.8943783569) ), sv_erel_log = cms.PSet( median = cms.double(-2.77275466919), upper = cms.double(-1.7486346817) ), sv_etarel = cms.PSet( median = cms.double(-0.00318800867535), upper = cms.double(0.0951088288426) ), sv_mass = cms.PSet( median = cms.double(1.36728298664), upper = cms.double(4.75960615158) ), sv_normchi2 = cms.PSet( median = cms.double(0.796081960201), upper = cms.double(2.15187430382) ), sv_ntracks = cms.PSet( median = cms.double(3.0), upper = cms.double(5.0) ), sv_phirel = cms.PSet( median = cms.double(0.000510219600983), upper = cms.double(0.110185634494) ), sv_pt_log = cms.PSet( median = cms.double(3.77797603607), upper = cms.double(4.90166530609) ), sv_ptrel_log = cms.PSet( median = cms.double(-2.7622461319), upper = cms.double(-1.73727185726) ) ), var_length = cms.uint32(7), var_names = cms.vstring( 'sv_pt_log', 'sv_ptrel_log', 'sv_erel_log', 'sv_phirel', 'sv_etarel', 'sv_deltaR', 'sv_abseta', 'sv_mass', 'sv_ntracks', 'sv_normchi2', 'sv_dxy', 'sv_dxysig', 'sv_d3d', 'sv_d3dsig', 'sv_costhetasvpv' ) ) ), src = cms.InputTag("pfDeepBoostedJetTagInfos") ) process.pfMet = cms.EDProducer("PFMETProducer", alias = cms.string('pfMet'), calculateSignificance = cms.bool(False), globalThreshold = cms.double(999.0), src = cms.InputTag("particleFlow") ) process.pfNegativeCombinedCvsBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('charmTagsNegativeComputerCvsB'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfNegativeCombinedCvsLJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('charmTagsNegativeComputerCvsL'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfNegativeCombinedInclusiveSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeTagInfos")) ) process.pfNegativeCombinedMVAV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeCombinedMVAV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfSecondaryVertexNegativeTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfNegativeCombinedSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfSecondaryVertexNegativeTagInfos")) ) process.pfNegativeDeepCMVAJetTags = cms.EDProducer("DeepFlavourJetTagsProducer", NNConfig = cms.FileInPath('RecoBTag/Combined/data/Model_DeepCMVA.json'), checkSVForDefaults = cms.bool(False), meanPadding = cms.bool(False), src = cms.InputTag("pfDeepCMVANegativeTagInfos"), toAdd = cms.PSet( ) ) process.pfNegativeDeepCSVJetTags = cms.EDProducer("DeepFlavourJetTagsProducer", NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'), checkSVForDefaults = cms.bool(True), meanPadding = cms.bool(True), src = cms.InputTag("pfDeepCSVNegativeTagInfos"), toAdd = cms.PSet( ) ) process.pfNegativeDeepFlavourJetTags = cms.EDProducer("DeepFlavourTFJetTagsProducer", batch_eval = cms.bool(False), flav_table = cms.PSet( probb = cms.vuint32(0), probbb = cms.vuint32(1), probc = cms.vuint32(3), probg = cms.vuint32(5), problepb = cms.vuint32(2), probuds = cms.vuint32(4) ), graph_path = cms.FileInPath('RecoBTag/Combined/data/DeepFlavourV03_10X_training/constant_graph.pb'), input_names = cms.vstring( 'input_1', 'input_2', 'input_3', 'input_4', 'input_5' ), lp_names = cms.vstring('cpf_input_batchnorm/keras_learning_phase'), nThreads = cms.uint32(1), output_names = cms.vstring( 'ID_pred/Softmax', 'regression_pred/BiasAdd' ), singleThreadPool = cms.string('no_threads'), src = cms.InputTag("pfNegativeDeepFlavourTagInfos") ) process.pfNegativeDeepFlavourTagInfos = cms.EDProducer("DeepFlavourTagInfoProducer", fallback_puppi_weight = cms.bool(False), fallback_vertex_association = cms.bool(False), flip = cms.bool(True), jet_radius = cms.double(0.4), jets = cms.InputTag("ak4PFJetsCHS"), min_candidate_pt = cms.double(0.95), puppi_value_map = cms.InputTag("puppi"), secondary_vertices = cms.InputTag("inclusiveCandidateNegativeSecondaryVertices"), shallow_tag_infos = cms.InputTag("pfDeepCSVNegativeTagInfos"), vertex_associator = cms.InputTag("primaryVertexAssociation","original"), vertices = cms.InputTag("offlinePrimaryVertices") ) process.pfNegativeOnlyJetBProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeOnlyJetBProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfNegativeOnlyJetProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeOnlyJetProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfNegativeSimpleInclusiveSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeTagInfos")) ) process.pfNegativeSimpleInclusiveSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfInclusiveSecondaryVertexFinderNegativeTagInfos")) ) process.pfNegativeSimpleSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfSecondaryVertexNegativeTagInfos")) ) process.pfNegativeSimpleSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfSecondaryVertexNegativeTagInfos")) ) process.pfNegativeTrackCountingHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeTrackCounting3D2ndComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfNegativeTrackCountingHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateNegativeTrackCounting3D3rdComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfNoPileUp = cms.EDProducer("TPPFCandidatesOnPFCandidates", bottomCollection = cms.InputTag("particleFlowTmpPtrs"), enable = cms.bool(False), name = cms.untracked.string('pileUpOnPFCandidates'), topCollection = cms.InputTag("pfPileUp"), verbose = cms.untracked.bool(False) ) process.pfNoPileUpIso = cms.EDProducer("TPPFCandidatesOnPFCandidates", bottomCollection = cms.InputTag("particleFlowTmpPtrs"), enable = cms.bool(False), name = cms.untracked.string('pileUpOnPFCandidates'), topCollection = cms.InputTag("pfPileUpIso"), verbose = cms.untracked.bool(False) ) process.pfNoPileUpJME = cms.EDProducer("TPPFCandidatesOnPFCandidates", bottomCollection = cms.InputTag("particleFlowPtrs"), enable = cms.bool(True), name = cms.untracked.string('pileUpOnPFCandidates'), topCollection = cms.InputTag("pfPileUpJME"), verbose = cms.untracked.bool(False) ) process.pfNuclear = cms.EDProducer("PFNuclearProducer", likelihoodCut = cms.double(0.1), nuclearColList = cms.VInputTag(cms.InputTag("firstnuclearInteractionMaker")) ) process.pfPhotonInterestingEcalDetIdEB = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("pfPhotonTranslator","pfphot"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), severityLevel = cms.int32(1) ) process.pfPhotonInterestingEcalDetIdEE = cms.EDProducer("InterestingDetIdCollectionProducer", basicClustersLabel = cms.InputTag("pfPhotonTranslator","pfphot"), etaSize = cms.int32(5), interestingDetIdCollection = cms.string(''), keepNextToBoundary = cms.bool(True), keepNextToDead = cms.bool(True), phiSize = cms.int32(5), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), severityLevel = cms.int32(1) ) process.pfPhotonTranslator = cms.EDProducer("PFPhotonTranslator", EGPhotons = cms.string('photons'), PFBasicClusters = cms.string('pfphot'), PFCandidate = cms.InputTag("pfSelectedPhotons"), PFConversionCollection = cms.string('pfphot'), PFPhotonCores = cms.string('pfphot'), PFPhotons = cms.string('pfphot'), PFPreshowerClusters = cms.string('pfphot'), PFSuperClusters = cms.string('pfphot'), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), isolationValues = cms.PSet( pfChargedHadrons = cms.InputTag("phPFIsoValueCharged04PFId"), pfNeutralHadrons = cms.InputTag("phPFIsoValueNeutral04PFId"), pfPhotons = cms.InputTag("phPFIsoValueGamma04PFId") ), primaryVertexProducer = cms.string('offlinePrimaryVerticesWithBS') ) process.pfPileUp = cms.EDProducer("PFPileUp", Enable = cms.bool(True), PFCandidates = cms.InputTag("particleFlowTmpPtrs"), Vertices = cms.InputTag("offlinePrimaryVertices"), checkClosestZVertex = cms.bool(True), enable = cms.bool(False), verbose = cms.untracked.bool(False) ) process.pfPileUpIso = cms.EDProducer("PFPileUp", Enable = cms.bool(True), PFCandidates = cms.InputTag("particleFlowTmpPtrs"), Vertices = cms.InputTag("offlinePrimaryVertices"), checkClosestZVertex = cms.bool(True), enable = cms.bool(False), verbose = cms.untracked.bool(False) ) process.pfPileUpJME = cms.EDProducer("PFPileUp", Enable = cms.bool(True), PFCandidates = cms.InputTag("particleFlowPtrs"), Vertices = cms.InputTag("goodOfflinePrimaryVertices"), checkClosestZVertex = cms.bool(False), verbose = cms.untracked.bool(False) ) process.pfPositiveCombinedCvsBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('charmTagsPositiveComputerCvsB'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfPositiveCombinedCvsLJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('charmTagsPositiveComputerCvsL'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfPositiveCombinedInclusiveSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidatePositiveCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos")) ) process.pfPositiveCombinedMVAV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidatePositiveCombinedMVAV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfSecondaryVertexTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.pfPositiveCombinedSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidatePositiveCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfSecondaryVertexTagInfos")) ) process.pfPositiveDeepCMVAJetTags = cms.EDProducer("DeepFlavourJetTagsProducer", NNConfig = cms.FileInPath('RecoBTag/Combined/data/Model_DeepCMVA.json'), checkSVForDefaults = cms.bool(False), meanPadding = cms.bool(False), src = cms.InputTag("pfDeepCMVAPositiveTagInfos"), toAdd = cms.PSet( ) ) process.pfPositiveDeepCSVJetTags = cms.EDProducer("DeepFlavourJetTagsProducer", NNConfig = cms.FileInPath('RecoBTag/Combined/data/DeepCSV_PhaseI.json'), checkSVForDefaults = cms.bool(True), meanPadding = cms.bool(True), src = cms.InputTag("pfDeepCSVPositiveTagInfos"), toAdd = cms.PSet( ) ) process.pfPositiveOnlyJetBProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidatePositiveOnlyJetBProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfPositiveOnlyJetProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidatePositiveOnlyJetProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfRecoTauDiscriminationAgainstElectron = cms.EDProducer("PFRecoTauDiscriminationAgainstElectron", ApplyCut_BremCombined = cms.bool(False), ApplyCut_BremsRecoveryEOverPLead = cms.bool(False), ApplyCut_EOverPLead = cms.bool(False), ApplyCut_EcalCrackCut = cms.bool(False), ApplyCut_ElectronPreID = cms.bool(False), ApplyCut_ElectronPreID_2D = cms.bool(False), ApplyCut_EmFraction = cms.bool(False), ApplyCut_Hcal3x3OverPLead = cms.bool(False), ApplyCut_HcalMaxOverPLead = cms.bool(False), ApplyCut_HcalTotOverPLead = cms.bool(False), ApplyCut_PFElectronMVA = cms.bool(True), BremCombined_Fraction = cms.double(0.99), BremCombined_HOP = cms.double(0.1), BremCombined_Mass = cms.double(0.55), BremCombined_StripSize = cms.double(0.03), BremsRecoveryEOverPLead_maxValue = cms.double(1.8), BremsRecoveryEOverPLead_minValue = cms.double(0.8), EOverPLead_maxValue = cms.double(1.8), EOverPLead_minValue = cms.double(0.8), ElecPreID0_EOverPLead_maxValue = cms.double(0.95), ElecPreID0_HOverPLead_minValue = cms.double(0.05), ElecPreID1_EOverPLead_maxValue = cms.double(0.8), ElecPreID1_HOverPLead_minValue = cms.double(0.15), EmFraction_maxValue = cms.double(0.9), Hcal3x3OverPLead_minValue = cms.double(0.1), HcalMaxOverPLead_minValue = cms.double(0.1), HcalTotOverPLead_minValue = cms.double(0.1), PFElectronMVA_maxValue = cms.double(-0.1), PFTauProducer = cms.InputTag("pfRecoTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ) ) process.pfRecoTauDiscriminationAgainstElectronDeadECAL = cms.EDProducer("PFRecoTauDiscriminationAgainstElectronDeadECAL", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), dR = cms.double(0.08), minStatus = cms.uint32(12) ) process.pfRecoTauDiscriminationAgainstElectronMVA6 = cms.EDProducer("PFRecoTauDiscriminationAgainstElectronMVA6", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), loadMVAfromDB = cms.bool(True), method = cms.string('BDTG'), minMVANoEleMatchWOgWOgsfBL = cms.double(0.0), minMVANoEleMatchWOgWOgsfEC = cms.double(0.0), minMVANoEleMatchWgWOgsfBL = cms.double(0.0), minMVANoEleMatchWgWOgsfEC = cms.double(0.0), minMVAWOgWgsfBL = cms.double(0.0), minMVAWOgWgsfEC = cms.double(0.0), minMVAWgWgsfBL = cms.double(0.0), minMVAWgWgsfEC = cms.double(0.0), mvaName_NoEleMatch_wGwoGSF_BL = cms.string('gbr_NoEleMatch_wGwoGSF_BL'), mvaName_NoEleMatch_wGwoGSF_EC = cms.string('gbr_NoEleMatch_wGwoGSF_EC'), mvaName_NoEleMatch_woGwoGSF_BL = cms.string('gbr_NoEleMatch_woGwoGSF_BL'), mvaName_NoEleMatch_woGwoGSF_EC = cms.string('gbr_NoEleMatch_woGwoGSF_EC'), mvaName_wGwGSF_BL = cms.string('gbr_wGwGSF_BL'), mvaName_wGwGSF_EC = cms.string('gbr_wGwGSF_EC'), mvaName_woGwGSF_BL = cms.string('gbr_woGwGSF_BL'), mvaName_woGwGSF_EC = cms.string('gbr_woGwGSF_EC'), returnMVA = cms.bool(True), srcGsfElectrons = cms.InputTag("gedGsfElectrons"), usePhiAtEcalEntranceExtrapolation = cms.bool(False) ) process.pfRecoTauDiscriminationAgainstMuon = cms.EDProducer("PFRecoTauDiscriminationAgainstMuon", HoPMin = cms.double(0.2), PFTauProducer = cms.InputTag("pfRecoTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), a = cms.double(0.5), b = cms.double(0.5), c = cms.double(0.0), checkNumMatches = cms.bool(False), discriminatorOption = cms.string('noSegMatch'), maxNumberOfMatches = cms.int32(0) ) process.pfRecoTauDiscriminationAgainstMuon2 = cms.EDProducer("PFRecoTauDiscriminationAgainstMuon2", HoPMin = cms.double(0.2), PFTauProducer = cms.InputTag("pfRecoTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), dRmuonMatch = cms.double(0.3), dRmuonMatchLimitedToJetArea = cms.bool(False), discriminatorOption = cms.string('loose'), 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(0), maxNumberOfMatches = cms.int32(0), minPtMatchedMuon = cms.double(5.0), srcMuons = cms.InputTag("muons"), verbosity = cms.int32(0) ) process.pfRecoTauDiscriminationAgainstMuonMVA = cms.EDProducer("PFRecoTauDiscriminationAgainstMuonMVA", PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), dRmuonMatch = cms.double(0.3), loadMVAfromDB = cms.bool(True), mvaMin = cms.double(0.0), mvaName = cms.string('againstMuonMVA'), returnMVA = cms.bool(True), srcMuons = cms.InputTag("muons") ) process.pfRecoTauDiscriminationByIsolation = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(True), ApplyDiscriminationByTrackerIsolation = cms.bool(True), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("pfRecoTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(False), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(True), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), deltaBetaFactor = cms.string('0.38'), 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(0.5), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.pfRecoTauDiscriminationByLeadingObjectPtCut = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut", MinPtLeadingObject = cms.double(5.0), PFTauProducer = cms.InputTag("pfRecoTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ), UseOnlyChargedHadrons = cms.bool(False) ) process.pfRecoTauDiscriminationByLeadingTrackFinding = cms.EDProducer("PFRecoTauDiscriminationByLeadingObjectPtCut", MinPtLeadingObject = cms.double(0.0), PFTauProducer = cms.InputTag("pfRecoTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and') ), UseOnlyChargedHadrons = cms.bool(True) ) process.pfRecoTauTagInfoProducer = cms.EDProducer("PFRecoTauTagInfoProducer", ChargedHadrCand_AssociationCone = cms.double(0.8), ChargedHadrCand_tkPVmaxDZ = cms.double(0.2), ChargedHadrCand_tkmaxChi2 = cms.double(100.0), ChargedHadrCand_tkmaxipt = cms.double(0.03), ChargedHadrCand_tkminPixelHitsn = cms.int32(0), ChargedHadrCand_tkminPt = cms.double(0.5), ChargedHadrCand_tkminTrackerHitsn = cms.int32(3), GammaCand_EcalclusMinEt = cms.double(1.0), NeutrHadrCand_HcalclusMinEt = cms.double(1.0), PFCandidateProducer = cms.InputTag("particleFlow"), PFJetTracksAssociatorProducer = cms.InputTag("ak4PFJetTracksAssociatorAtVertex"), PVProducer = cms.InputTag("offlinePrimaryVertices"), UsePVconstraint = cms.bool(True), smearedPVsigmaX = cms.double(0.0015), smearedPVsigmaY = cms.double(0.0015), smearedPVsigmaZ = cms.double(0.005), tkPVmaxDZ = cms.double(0.2), tkmaxChi2 = cms.double(100.0), tkmaxipt = cms.double(0.03), tkminPixelHitsn = cms.int32(0), tkminPt = cms.double(0.5), tkminTrackerHitsn = cms.int32(3) ) process.pfSecondaryVertexNegativeTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("secondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(False), usePVError = cms.bool(True), vertexCuts = cms.PSet( distSig2dMax = cms.double(-3.0), distSig2dMin = cms.double(-99999.9), distSig3dMax = cms.double(99999.9), distSig3dMin = cms.double(-99999.9), distVal2dMax = cms.double(-0.01), distVal2dMin = cms.double(-2.5), distVal3dMax = cms.double(99999.9), distVal3dMin = cms.double(-99999.9), fracPV = cms.double(0.65), 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.pfSecondaryVertexTagInfos = cms.EDProducer("CandSecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("secondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("pfImpactParameterTagInfos"), 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), 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(1), 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(0), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(False), 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.pfSimpleInclusiveSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos")) ) process.pfSimpleInclusiveSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfInclusiveSecondaryVertexFinderTagInfos")) ) process.pfSimpleSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfSecondaryVertexTagInfos")) ) process.pfSimpleSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateSimpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfSecondaryVertexTagInfos")) ) process.pfTrack = cms.EDProducer("PFTrackProducer", GsfTrackModuleLabel = cms.InputTag("electronGsfTracks"), GsfTracksInEvents = cms.bool(True), MuColl = cms.InputTag("muons1stStep"), PrimaryVertexLabel = cms.InputTag("offlinePrimaryVertices"), TkColList = cms.VInputTag(cms.InputTag("generalTracks")), TrackQuality = cms.string('highPurity'), TrajInEvents = cms.bool(False), UseQuality = cms.bool(True) ) process.pfTrackCountingHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateTrackCounting3D2ndComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfTrackCountingHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('candidateTrackCounting3D3rdComputer'), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos")) ) process.pfTrackElec = cms.EDProducer("PFElecTkProducer", AbsEtaBarrelEndcapsSeparation = cms.double(1.479), Fitter = cms.string('GsfElectronFittingSmoother'), GsfTrackModuleLabel = cms.InputTag("electronGsfTracks"), MaxConvBremRecoPT = cms.double(49.0), MinDEtaGsfSC = cms.double(0.06), MinDPhiGsfSC = cms.double(0.15), MinSCEnergy = cms.double(4.0), ModeMomentum = cms.bool(True), PFConversions = cms.InputTag("pfConversions"), PFEcalClusters = cms.InputTag("particleFlowClusterECAL"), PFNuclear = cms.InputTag("pfDisplacedTrackerVertex"), PFRecTrackLabel = cms.InputTag("pfTrack"), PFV0 = cms.InputTag("pfV0"), PrimaryVertexLabel = cms.InputTag("offlinePrimaryVertices"), Propagator = cms.string('fwdElectronPropagator'), PtLowHighSeparation = cms.double(20), TTRHBuilder = cms.string('WithTrackAngle'), TrajInEvents = cms.bool(False), applyAlsoGsfAngularCleaning = cms.bool(True), applyEGSelection = cms.bool(False), applyGsfTrackCleaning = cms.bool(True), debugGsfCleaning = cms.bool(False), maxDEtaGsfAngularCleaning = cms.double(0.05), maxDPhiBremTangGsfAngularCleaning = cms.double(0.05), pf_convBremFinderID_mvaCutBarrelHighPt = cms.double(0.97), pf_convBremFinderID_mvaCutBarrelLowPt = cms.double(0.6), pf_convBremFinderID_mvaCutEndcapsHighPt = cms.double(0.995), pf_convBremFinderID_mvaCutEndcapsLowPt = cms.double(0.9), pf_convBremFinderID_mvaWeightFileBarrelHighPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetgt20absetalt1_479_BDT.weights.xml'), pf_convBremFinderID_mvaWeightFileBarrelLowPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetlt20absetalt1_479_BDT.weights.xml'), pf_convBremFinderID_mvaWeightFileEndcapsHighPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetgt20absetagt1_479_BDT.weights.xml'), pf_convBremFinderID_mvaWeightFileEndcapsLowPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetlt20absetagt1_479_BDT.weights.xml'), useConvBremFinder = cms.bool(True), useConversions = cms.bool(False), useFifthStepForEcalDrivenGsf = cms.bool(False), useFifthStepForTrackerDrivenGsf = cms.bool(False), useNuclear = cms.bool(False), useV0 = cms.bool(False) ) process.pfV0 = cms.EDProducer("PFV0Producer", V0List = cms.VInputTag(cms.InputTag("generalV0Candidates","Kshort"), cms.InputTag("generalV0Candidates","Lambda")) ) process.phPFIsoDepositCharged = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(0), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfSelectedPhotons"), trackType = cms.string('candidate') ) process.phPFIsoDepositChargedAll = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(0), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfSelectedPhotons"), trackType = cms.string('candidate') ) process.phPFIsoDepositGamma = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('PFCandWithSuperClusterExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(0), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), MissHitSCMatch_Veto = cms.bool(False), SCMatch_Veto = cms.bool(True), inputCandView = cms.InputTag("pfAllPhotons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfSelectedPhotons"), trackType = cms.string('candidate') ) process.phPFIsoDepositNeutral = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(0), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfAllNeutralHadrons") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfSelectedPhotons"), trackType = cms.string('candidate') ) process.phPFIsoDepositPU = cms.EDProducer("CandIsoDepositProducer", ExtractorPSet = cms.PSet( ComponentName = cms.string('CandViewExtractor'), DR_Max = cms.double(0.4), DR_Veto = cms.double(0), DepositLabel = cms.untracked.string(''), Diff_r = cms.double(99999.99), Diff_z = cms.double(99999.99), inputCandView = cms.InputTag("pfPileUpAllChargedParticles") ), MultipleDepositsFlag = cms.bool(False), src = cms.InputTag("pfSelectedPhotons"), trackType = cms.string('candidate') ) process.phPFIsoValueCharged03PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositCharged"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositCharged__RECO') ) process.phPFIsoValueCharged04PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositCharged"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositCharged__RECO') ) process.phPFIsoValueChargedAll03PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositChargedAll"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositChargedAll__RECO') ) process.phPFIsoValueChargedAll04PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositChargedAll"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositChargedAll__RECO') ) process.phPFIsoValueGamma03PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.05)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositGamma__RECO') ) process.phPFIsoValueGamma04PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositGamma"), vetos = cms.vstring('EcalEndcaps:ConeVeto(0.05)'), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositGamma__RECO') ) process.phPFIsoValueNeutral03PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositNeutral__RECO') ) process.phPFIsoValueNeutral04PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositNeutral"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositNeutral__RECO') ) process.phPFIsoValuePU03PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.3), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositPU"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositPU__RECO') ) process.phPFIsoValuePU04PFId = cms.EDProducer("PFCandIsolatorFromDeposits", deposits = cms.VPSet(cms.PSet( PivotCoordinatesForEBEE = cms.bool(True), deltaR = cms.double(0.4), mode = cms.string('sum'), skipDefaultVeto = cms.bool(True), src = cms.InputTag("phPFIsoDepositPU"), vetos = cms.vstring(), weight = cms.string('1') )), mightGet = cms.untracked.vstring('recoIsoDepositedmValueMap_phPFIsoDepositPU__RECO') ) process.photonConvTrajSeedFromQuadruplets = cms.EDProducer("PhotonConversionTrajectorySeedProducerFromQuadruplets", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(50000), MaxNumberOfPixelClusters = cms.uint32(10000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), doClusterCheck = cms.bool(True) ), DoxcheckSeedCandidates = cms.bool(False), OrderedHitsFactoryPSet = cms.PSet( SeedingLayers = cms.InputTag("conv2LayerPairs"), maxElement = cms.uint32(900000) ), QuadCutPSet = cms.PSet( Cut_BeamPipeRadius = cms.double(3.0), Cut_DeltaRho = cms.double(12.0), Cut_maxLegPt = cms.double(10.0), Cut_minLegPt = cms.double(0.6), Cut_zCA = cms.double(100), apply_Arbitration = cms.bool(True), apply_ClusterShapeFilter = cms.bool(True), apply_DeltaPhiCuts = cms.bool(True), apply_zCACut = cms.bool(False), rejectAllQuads = cms.bool(False) ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducerFromBeamSpot'), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), originHalfLength = cms.double(12.0), originRadius = cms.double(3.0), precise = cms.bool(True), ptMin = cms.double(0.2) ) ), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(False), FilterStripHits = cms.bool(True) ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedForPhotonConversionFromQuadruplets'), SeedMomentumForBOFF = cms.double(5.0), propagator = cms.string('PropagatorWithMaterial') ), TrackRefitter = cms.InputTag("generalTracks"), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), newSeedCandidates = cms.string('conv2SeedCandidates'), primaryVerticesTag = cms.InputTag("pixelVertices"), xcheckSeedCandidates = cms.string('xcheckSeedCandidates') ) process.photonConvTrajSeedFromSingleLeg = cms.EDProducer("PhotonConversionTrajectorySeedProducerFromSingleLeg", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), DoxcheckSeedCandidates = cms.bool(False), OrderedHitsFactoryPSet = cms.PSet( SeedingLayers = cms.InputTag("convLayerPairs"), maxElement = cms.uint32(100000), maxHitPairsPerTrackAndGenerator = cms.uint32(10) ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalTrackingRegionWithVerticesProducer'), RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.2), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(True), originRadius = cms.double(0), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.9), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedForPhotonConversion1Leg'), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), propagator = cms.string('PropagatorWithMaterial') ), TrackRefitter = cms.InputTag("generalTracks"), applyTkVtxConstraint = cms.bool(True), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), maxDZSigmas = cms.double(10.0), maxNumSelVtx = cms.uint32(2), newSeedCandidates = cms.string('convSeedCandidates'), primaryVerticesTag = cms.InputTag("firstStepPrimaryVertices"), vtxMinDoF = cms.double(999999.0), xcheckSeedCandidates = cms.string('xcheckSeedCandidates') ) process.photonCore = cms.EDProducer("PhotonCoreProducer", conversionProducer = cms.InputTag(""), minSCEt = cms.double(10.0), photonCoreCollection = cms.string(''), pixelSeedProducer = cms.InputTag("electronMergedSeeds"), risolveConversionAmbiguity = cms.bool(True), scHybridBarrelProducer = cms.InputTag("correctedHybridSuperClusters"), scIslandEndcapProducer = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower") ) process.photonCoreFromMultiCl = cms.EDProducer("PhotonCoreProducer", conversionProducer = cms.InputTag(""), minSCEt = cms.double(10.0), photonCoreCollection = cms.string(''), pixelSeedProducer = cms.InputTag("electronMergedSeedsFromMultiCl"), risolveConversionAmbiguity = cms.bool(True), scHybridBarrelProducer = cms.InputTag("correctedHybridSuperClusters"), scIslandEndcapProducer = cms.InputTag("particleFlowSuperClusterHGCalFromMultiCl") ) process.photonEcalPFClusterIsolationProducer = cms.EDProducer("PhotonEcalPFClusterIsolationProducer", candidateProducer = cms.InputTag("gedPhotonsTmp"), drMax = cms.double(0.3), drVetoBarrel = cms.double(0), drVetoEndcap = cms.double(0), energyBarrel = cms.double(0), energyEndcap = cms.double(0), etaStripBarrel = cms.double(0), etaStripEndcap = cms.double(0), pfClusterProducer = cms.InputTag("particleFlowClusterECAL") ) process.photonHcalPFClusterIsolationProducer = cms.EDProducer("PhotonHcalPFClusterIsolationProducer", candidateProducer = cms.InputTag("gedPhotonsTmp"), drMax = cms.double(0.3), drVetoBarrel = cms.double(0), drVetoEndcap = cms.double(0), energyBarrel = cms.double(0), energyEndcap = cms.double(0), etaStripBarrel = cms.double(0), etaStripEndcap = cms.double(0), pfClusterProducerHCAL = cms.InputTag("particleFlowClusterHCAL"), useHF = cms.bool(False) ) process.photonIsolationHIProducerpp = cms.EDProducer("photonIsolationHIProducer", basicClusterBarrel = cms.InputTag("islandBasicClusters","islandBarrelBasicClusters"), basicClusterEndcap = cms.InputTag("islandBasicClusters","islandEndcapBasicClusters"), ebRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), eeRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hbhe = cms.InputTag("hbhereco"), hf = cms.InputTag("hfreco"), ho = cms.InputTag("horeco"), photonProducer = cms.InputTag("photons"), trackCollection = cms.InputTag("generalTracks"), trackQuality = cms.string('highPurity') ) process.photonIsolationHIProducerppGED = cms.EDProducer("photonIsolationHIProducer", basicClusterBarrel = cms.InputTag("islandBasicClusters","islandBarrelBasicClusters"), basicClusterEndcap = cms.InputTag("islandBasicClusters","islandEndcapBasicClusters"), ebRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), eeRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hbhe = cms.InputTag("hbhereco"), hf = cms.InputTag("hfreco"), ho = cms.InputTag("horeco"), photonProducer = cms.InputTag("gedPhotons"), trackCollection = cms.InputTag("generalTracks"), trackQuality = cms.string('highPurity') ) process.photonIsolationHIProducerppIsland = cms.EDProducer("photonIsolationHIProducer", basicClusterBarrel = cms.InputTag("islandBasicClusters","islandBarrelBasicClusters"), basicClusterEndcap = cms.InputTag("islandBasicClusters","islandEndcapBasicClusters"), ebRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), eeRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), hbhe = cms.InputTag("hbhereco"), hf = cms.InputTag("hfreco"), ho = cms.InputTag("horeco"), photonProducer = cms.InputTag("islandPhotons"), trackCollection = cms.InputTag("generalTracks"), trackQuality = cms.string('highPurity') ) process.photonPtSumOutsideSignalCone = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), 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(False), customOuterCone = cms.double(0.5), deltaBetaFactor = cms.string('0.38'), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(False), storeRawPhotonSumPt_outsideSignalCone = cms.bool(True), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.photons = cms.EDProducer("GEDPhotonProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromEcalEnergy'), checkHcalStatus = cms.bool(True), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.5), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(0.94), minR9Endcap = cms.double(0.95), minSCEtBarrel = cms.double(10.0), minSCEtEndcap = cms.double(10.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), outputPhotonCollection = cms.string(''), pfEgammaCandidates = cms.InputTag(""), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), photonProducer = cms.InputTag("photonCore"), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), preshowerHits = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), reconstructionStep = cms.string('tmp'), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True), valueMapPhotons = cms.string('') ) process.photonsFromMultiCl = cms.EDProducer("GEDPhotonProducer", RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), barrelEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEB"), candidateP4type = cms.string('fromEcalEnergy'), checkHcalStatus = cms.bool(True), ecalRecHitSumEtOffsetBarrel = cms.double(999999999), ecalRecHitSumEtOffsetEndcap = cms.double(999999999), ecalRecHitSumEtSlopeBarrel = cms.double(0.0), ecalRecHitSumEtSlopeEndcap = cms.double(0.0), endcapEcalHits = cms.InputTag("ecalRecHit","EcalRecHitsEE"), energyRegressionWeightsDBLocation = cms.string('wgbrph'), energyRegressionWeightsFileLocation = cms.string('/afs/cern.ch/user/b/bendavid/cmspublic/regweights/gbrph.root'), hOverEConeSize = cms.double(0.15), hbheInstance = cms.string(''), hbheModule = cms.string('hbhereco'), hcalTowerSumEtOffsetBarrel = cms.double(999999999), hcalTowerSumEtOffsetEndcap = cms.double(999999999), hcalTowerSumEtSlopeBarrel = cms.double(0.0), hcalTowerSumEtSlopeEndcap = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), highEt = cms.double(100.0), isolationSumsCalculatorSet = cms.PSet( ComponentName = cms.string('isolationSumsCalculator'), EcalRecHitEtaSliceA_Barrel = cms.double(2.5), EcalRecHitEtaSliceA_Endcap = cms.double(2.5), EcalRecHitEtaSliceB_Barrel = cms.double(2.5), EcalRecHitEtaSliceB_Endcap = cms.double(2.5), EcalRecHitInnerRadiusA_Barrel = cms.double(3.5), EcalRecHitInnerRadiusA_Endcap = cms.double(3.5), EcalRecHitInnerRadiusB_Barrel = cms.double(3.5), EcalRecHitInnerRadiusB_Endcap = cms.double(3.5), EcalRecHitOuterRadiusA_Barrel = cms.double(0.4), EcalRecHitOuterRadiusA_Endcap = cms.double(0.4), EcalRecHitOuterRadiusB_Barrel = cms.double(0.3), EcalRecHitOuterRadiusB_Endcap = cms.double(0.3), EcalRecHitThreshEA_Barrel = cms.double(0.095), EcalRecHitThreshEA_Endcap = cms.double(0.0), EcalRecHitThreshEB_Barrel = cms.double(0.095), EcalRecHitThreshEB_Endcap = cms.double(0.0), EcalRecHitThreshEtA_Barrel = cms.double(0.0), EcalRecHitThreshEtA_Endcap = cms.double(0.11), EcalRecHitThreshEtB_Barrel = cms.double(0.0), EcalRecHitThreshEtB_Endcap = cms.double(0.11), HcalDepth1TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth1TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth1TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth1TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth1TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth1TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth1TowerThreshEA_Barrel = cms.double(0.0), HcalDepth1TowerThreshEA_Endcap = cms.double(0.0), HcalDepth1TowerThreshEB_Barrel = cms.double(0.0), HcalDepth1TowerThreshEB_Endcap = cms.double(0.0), HcalDepth2TowerInnerRadiusA_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusA_Endcap = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Barrel = cms.double(0.15), HcalDepth2TowerInnerRadiusB_Endcap = cms.double(0.15), HcalDepth2TowerOuterRadiusA_Barrel = cms.double(0.4), HcalDepth2TowerOuterRadiusA_Endcap = cms.double(0.4), HcalDepth2TowerOuterRadiusB_Barrel = cms.double(0.3), HcalDepth2TowerOuterRadiusB_Endcap = cms.double(0.3), HcalDepth2TowerThreshEA_Barrel = cms.double(0.0), HcalDepth2TowerThreshEA_Endcap = cms.double(0.0), HcalDepth2TowerThreshEB_Barrel = cms.double(0.0), HcalDepth2TowerThreshEB_Endcap = cms.double(0.0), HcalRecHitCollection = cms.InputTag("towerMaker"), HcalTowerInnerRadiusA_Barrel = cms.double(0.15), HcalTowerInnerRadiusA_Endcap = cms.double(0.15), HcalTowerInnerRadiusB_Barrel = cms.double(0.15), HcalTowerInnerRadiusB_Endcap = cms.double(0.15), HcalTowerOuterRadiusA_Barrel = cms.double(0.4), HcalTowerOuterRadiusA_Endcap = cms.double(0.4), HcalTowerOuterRadiusB_Barrel = cms.double(0.3), HcalTowerOuterRadiusB_Endcap = cms.double(0.3), HcalTowerThreshEA_Barrel = cms.double(0.0), HcalTowerThreshEA_Endcap = cms.double(0.0), HcalTowerThreshEB_Barrel = cms.double(0.0), HcalTowerThreshEB_Endcap = cms.double(0.0), TrackConeInnerRadiusA_Barrel = cms.double(0.04), TrackConeInnerRadiusA_Endcap = cms.double(0.04), TrackConeInnerRadiusB_Barrel = cms.double(0.04), TrackConeInnerRadiusB_Endcap = cms.double(0.04), TrackConeOuterRadiusA_Barrel = cms.double(0.4), TrackConeOuterRadiusA_Endcap = cms.double(0.4), TrackConeOuterRadiusB_Barrel = cms.double(0.3), TrackConeOuterRadiusB_Endcap = cms.double(0.3), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotProducer = cms.InputTag("offlineBeamSpot"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), isolationtrackEtaSliceA_Barrel = cms.double(0.015), isolationtrackEtaSliceA_Endcap = cms.double(0.015), isolationtrackEtaSliceB_Barrel = cms.double(0.015), isolationtrackEtaSliceB_Endcap = cms.double(0.015), isolationtrackThresholdA_Barrel = cms.double(0.0), isolationtrackThresholdA_Endcap = cms.double(0.0), isolationtrackThresholdB_Barrel = cms.double(0.0), isolationtrackThresholdB_Endcap = cms.double(0.0), longImpactParameterA_Barrel = cms.double(0.2), longImpactParameterA_Endcap = cms.double(0.2), longImpactParameterB_Barrel = cms.double(0.2), longImpactParameterB_Endcap = cms.double(0.2), moduleEtaBoundary = cms.vdouble( 0.0, 0.02, 0.43, 0.46, 0.78, 0.81, 1.13, 1.15, 1.45, 1.58 ), modulePhiBoundary = cms.double(0.0087), trackProducer = cms.InputTag("generalTracks"), transImpactParameterA_Barrel = cms.double(0.1), transImpactParameterA_Endcap = cms.double(0.1), transImpactParameterB_Barrel = cms.double(0.1), transImpactParameterB_Endcap = cms.double(0.1), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False) ), maxHoverEBarrel = cms.double(0.5), maxHoverEEndcap = cms.double(0.5), minR9Barrel = cms.double(0.94), minR9Endcap = cms.double(0.95), minSCEtBarrel = cms.double(10.0), minSCEtEndcap = cms.double(10.0), mipVariableSet = cms.PSet( ComponentName = cms.string('mipVariable'), HaloDiscThreshold = cms.double(70.0), ResidualWidth = cms.double(0.23), XRangeFit = cms.double(180.0), YRangeFit = cms.double(7.0), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE") ), nTrackHollowConeBarrel = cms.double(999999999), nTrackHollowConeEndcap = cms.double(999999999), nTrackSolidConeBarrel = cms.double(999999999), nTrackSolidConeEndcap = cms.double(999999999), outputPhotonCollection = cms.string(''), pfEgammaCandidates = cms.InputTag(""), photonEcalEnergyCorrFunction = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), photonProducer = cms.InputTag("photonCoreFromMultiCl"), posCalcParameters = cms.PSet( LogWeighted = cms.bool(True), T0_barl = cms.double(7.4), T0_endc = cms.double(6.3), T0_endcPresh = cms.double(3.6), W0 = cms.double(4.2), X0 = cms.double(0.89) ), posCalc_logweight = cms.bool(True), posCalc_t0_barl = cms.double(7.7), posCalc_t0_endc = cms.double(6.3), posCalc_t0_endcPresh = cms.double(3.6), posCalc_w0 = cms.double(4.2), posCalc_x0 = cms.double(0.89), preshowerHits = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), reconstructionStep = cms.string('tmp'), regressionWeightsFromDB = cms.bool(True), runMIPTagger = cms.bool(True), sigmaIetaIetaCutBarrel = cms.double(999999999), sigmaIetaIetaCutEndcap = cms.double(999999999), superClusterCrackEnergyCorrFunction = cms.string('EcalClusterCrackCorrection'), superClusterEnergyCorrFunction = cms.string('EcalClusterEnergyCorrection'), superClusterEnergyErrorFunction = cms.string('EcalClusterEnergyUncertainty'), trackPtSumHollowConeBarrel = cms.double(999999999), trackPtSumHollowConeEndcap = cms.double(999999999), trackPtSumSolidConeBarrel = cms.double(999999999), trackPtSumSolidConeEndcap = cms.double(999999999), usePrimaryVertex = cms.bool(True), valueMapPhotons = cms.string('') ) process.pixelFitterByConformalMappingAndLine = cms.EDProducer("PixelFitterByConformalMappingAndLineProducer", TTRHBuilder = cms.string('PixelTTRHBuilderWithoutAngle'), fixImpactParameter = cms.double(0), useFixImpactParameter = cms.bool(False) ) process.pixelFitterByHelixProjections = cms.EDProducer("PixelFitterByHelixProjectionsProducer", scaleErrorsForBPix1 = cms.bool(True), scaleFactor = cms.double(0.65) ) process.pixelLessLayerPairs4PixelLessTracking = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( ), FPix = cms.PSet( ), MTEC = cms.PSet( ), MTIB = cms.PSet( ), MTID = cms.PSet( ), MTOB = cms.PSet( ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TIB = cms.PSet( ), TIB1 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useSimpleRphiHitsCleaner = cms.bool(False) ), TIB2 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useSimpleRphiHitsCleaner = cms.bool(False) ), TIB3 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useSimpleRphiHitsCleaner = cms.bool(False) ), TID = cms.PSet( ), TID1 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(3), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TID2 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(3), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TID3 = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHitUnmatched"), stereoRecHits = cms.InputTag("siStripMatchedRecHits","stereoRecHitUnmatched"), useRingSlector = cms.bool(True), useSimpleRphiHitsCleaner = cms.bool(False) ), TOB = cms.PSet( ), layerList = cms.vstring( 'TIB1+TIB2', 'TIB1+TIB3', 'TIB2+TIB3', 'TIB1+TID1_pos', 'TIB1+TID1_neg', 'TIB2+TID1_pos', 'TIB2+TID1_neg', 'TIB1+TID2_pos', 'TIB1+TID2_neg', 'TID1_pos+TID2_pos', 'TID2_pos+TID3_pos', 'TID3_pos+TEC2_pos', 'TEC1_pos+TEC2_pos', 'TEC2_pos+TEC3_pos', 'TID1_neg+TID2_neg', 'TID2_neg+TID3_neg', 'TID3_neg+TEC2_neg', 'TEC1_neg+TEC2_neg', 'TEC2_neg+TEC3_neg' ) ) process.pixelLessStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorPixelLessStep_Phase1') ), qualityCuts = cms.vdouble(-0.4, 0.0, 0.8), src = cms.InputTag("pixelLessStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.pixelLessStepClassifier1 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter5_13TeV') ), qualityCuts = cms.vdouble(-0.4, 0.0, 0.4), src = cms.InputTag("pixelLessStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.pixelLessStepClassifier2 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter0_13TeV') ), qualityCuts = cms.vdouble(-0.0, 0.0, 0.0), src = cms.InputTag("pixelLessStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.pixelLessStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("mixedTripletStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("mixedTripletStep","QualityMasks"), trajectories = cms.InputTag("mixedTripletStepTracks") ) process.pixelLessStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("pixelLessStepSeedLayers"), trackingRegions = cms.InputTag("pixelLessStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.pixelLessStepHitTriplets = cms.EDProducer("MultiHitFromChi2EDProducer", ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), TTRHBuilder = cms.string('WithTrackAngle'), chi2VsPtCut = cms.bool(True), chi2_cuts = cms.vdouble(3, 4, 5, 5), detIdsToDebug = cms.vint32(0, 0, 0), doublets = cms.InputTag("pixelLessStepHitDoublets"), extraHitRPhitolerance = cms.double(0), extraHitRZtolerance = cms.double(0), extraPhiKDBox = cms.double(0.005), extraRKDBox = cms.double(0.2), extraZKDBox = cms.double(0.2), fnSigmaRZ = cms.double(2), maxChi2 = cms.double(5), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_pixelLessStepHitDoublets__RECO'), phiPreFiltering = cms.double(0.3), pt_interv = cms.vdouble(0.4, 0.7, 1, 2), refitHits = cms.bool(True), useFixedPreFiltering = cms.bool(False) ) process.pixelLessStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("mixedTripletStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("mixedTripletStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("mixedTripletStepTracks") ) process.pixelLessStepSeedClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("mixedTripletStepSeedClusterMask"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("pixelLessStepSeeds") ) process.pixelLessStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", MTEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), maxRing = cms.int32(3), minRing = cms.int32(3), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("pixelLessStepClusters"), useRingSlector = cms.bool(True) ), MTIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("pixelLessStepClusters") ), MTID = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), maxRing = cms.int32(3), minRing = cms.int32(3), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("pixelLessStepClusters"), useRingSlector = cms.bool(True) ), TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("pixelLessStepClusters"), useRingSlector = cms.bool(True) ), TIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("pixelLessStepClusters") ), TID = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("pixelLessStepClusters"), useRingSlector = cms.bool(True) ), layerList = cms.vstring( 'TIB1+TIB2+MTIB3', 'TIB1+TIB2+MTIB4', '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', 'TID1_pos+TID2_pos+MTEC1_pos', 'TID1_neg+TID2_neg+MTEC1_neg', 'TID2_pos+TID3_pos+TEC1_pos', 'TID2_neg+TID3_neg+TEC1_neg', 'TID2_pos+TID3_pos+MTEC1_pos', 'TID2_neg+TID3_neg+MTEC1_neg', 'TEC1_pos+TEC2_pos+TEC3_pos', 'TEC1_neg+TEC2_neg+TEC3_neg', 'TEC1_pos+TEC2_pos+MTEC3_pos', 'TEC1_neg+TEC2_neg+MTEC3_neg', 'TEC1_pos+TEC2_pos+TEC4_pos', 'TEC1_neg+TEC2_neg+TEC4_neg', 'TEC1_pos+TEC2_pos+MTEC4_pos', 'TEC1_neg+TEC2_neg+MTEC4_neg', 'TEC2_pos+TEC3_pos+TEC4_pos', 'TEC2_neg+TEC3_neg+TEC4_neg', 'TEC2_pos+TEC3_pos+MTEC4_pos', 'TEC2_neg+TEC3_neg+MTEC4_neg', 'TEC2_pos+TEC3_pos+TEC5_pos', 'TEC2_neg+TEC3_neg+TEC5_neg', 'TEC2_pos+TEC3_pos+TEC6_pos', 'TEC2_neg+TEC3_neg+TEC6_neg', 'TEC3_pos+TEC4_pos+TEC5_pos', 'TEC3_neg+TEC4_neg+TEC5_neg', 'TEC3_pos+TEC4_pos+MTEC5_pos', 'TEC3_neg+TEC4_neg+MTEC5_neg', 'TEC3_pos+TEC5_pos+TEC6_pos', 'TEC3_neg+TEC5_neg+TEC6_neg', 'TEC4_pos+TEC5_pos+TEC6_pos', 'TEC4_neg+TEC5_neg+TEC6_neg' ) ) process.pixelLessStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsTripletOnlyEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('CombinedSeedComparitor'), comparitors = cms.VPSet( cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('pixelLessStepClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(False), FilterStripHits = cms.bool(True) ), cms.PSet( ComponentName = cms.string('StripSubClusterShapeSeedFilter'), FilterAtHelixStage = cms.bool(False), label = cms.untracked.string('Seeds'), 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) ) ), mode = cms.string('and') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring( 'RegionsSeedingHitSets_pixelLessStepHitTriplets__RECO', 'BaseTrackerRecHitsOwned_pixelLessStepHitTriplets__RECO' ), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("pixelLessStepHitTriplets") ) process.pixelLessStepSelector = cms.EDProducer("MultiTrackSelector", GBRForestLabel = cms.string('MVASelectorIter5'), beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("pixelLessStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.5), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.3, 4.0), d0_par2 = cms.vdouble(1.3, 4.0), dz_par1 = cms.vdouble(1.3, 4.0), dz_par2 = cms.vdouble(1.3, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(1), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('pixelLessStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.35), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(1.1, 4.0), d0_par2 = cms.vdouble(1.1, 4.0), dz_par1 = cms.vdouble(1.1, 4.0), dz_par2 = cms.vdouble(1.1, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(0), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('pixelLessStepTight'), preFilterName = cms.string('pixelLessStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(0.2), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.9, 4.0), d0_par2 = cms.vdouble(0.9, 4.0), dz_par1 = cms.vdouble(0.9, 4.0), dz_par2 = cms.vdouble(0.9, 4.0), keepAllTracks = cms.bool(True), maxNumberLostLayers = cms.uint32(0), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(4), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('QualityMasks'), preFilterName = cms.string('pixelLessStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useAnyMVA = cms.bool(False), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("pixelVertices") ) process.pixelLessStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('pixelLessStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('pixelLessStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("pixelLessStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), reverseTrajectories = cms.bool(False), src = cms.InputTag("pixelLessStepSeeds"), useHitsSplitting = cms.bool(True) ) process.pixelLessStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(3.0), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(0.7), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(True), originRadius = cms.double(1.0), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(2.0), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(35000), scalingStartNPix = cms.double(20000), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.pixelLessStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('pixelLessStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("pixelLessStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.pixelPairElectronHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(1000000), produceIntermediateHitDoublets = cms.bool(False), produceSeedingHitSets = cms.bool(True), seedingLayers = cms.InputTag("pixelPairElectronSeedLayers"), trackingRegions = cms.InputTag("pixelPairElectronTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.pixelPairElectronSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("tripletElectronClusterMask") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("tripletElectronClusterMask") ), 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', 'BPix2+FPix1_pos', 'BPix2+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.pixelPairElectronSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_pixelPairElectronHitDoublets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("pixelPairElectronHitDoublets") ) process.pixelPairElectronTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.03), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.015), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(8.0), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.pixelPairStep = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorPixelPairStep_Phase1') ), qualityCuts = cms.vdouble(-0.2, 0.0, 0.9), src = cms.InputTag("pixelPairStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.pixelPairStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("detachedTripletStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("detachedTripletStep","QualityMasks"), trajectories = cms.InputTag("detachedTripletStepTracks") ) process.pixelPairStepHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(1000000), produceIntermediateHitDoublets = cms.bool(False), produceSeedingHitSets = cms.bool(True), seedingLayers = cms.InputTag("pixelPairStepSeedLayers"), trackingRegions = cms.InputTag("pixelPairStepTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.pixelPairStepHitDoubletsB = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(1000000), produceIntermediateHitDoublets = cms.bool(False), produceSeedingHitSets = cms.bool(True), seedingLayers = cms.InputTag(""), trackingRegions = cms.InputTag(""), trackingRegionsSeedingLayers = cms.InputTag("pixelPairStepTrackingRegionsSeedLayersB") ) process.pixelPairStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("detachedTripletStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("detachedTripletStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("detachedTripletStepTracks") ) process.pixelPairStepSeedClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("initialStepSeedClusterMask"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("pixelPairStepSeeds") ) process.pixelPairStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("pixelPairStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("pixelPairStepClusters") ), layerList = cms.vstring( 'BPix1+BPix2', 'BPix1+BPix3', 'BPix2+BPix3', 'BPix1+FPix1_pos', 'BPix1+FPix1_neg', 'BPix2+FPix1_pos', 'BPix2+FPix1_neg' ) ) process.pixelPairStepSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(False) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_pixelPairStepHitDoubletsB__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("pixelPairStepHitDoubletsB") ) process.pixelPairStepSeedsA = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(False) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_pixelPairStepHitDoublets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("pixelPairStepHitDoublets") ) process.pixelPairStepSeedsB = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(True), FilterStripHits = cms.bool(False) ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_pixelPairStepHitDoubletsB__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("pixelPairStepHitDoubletsB") ) process.pixelPairStepSelector = cms.EDProducer("MultiTrackSelector", GBRForestLabel = cms.string('MVASelectorIter2'), beamspot = cms.InputTag("offlineBeamSpot"), src = cms.InputTag("pixelPairStepTracks"), trackSelectors = cms.VPSet( cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), chi2n_par = cms.double(1.6), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), d0_par1 = cms.vdouble(0.55, 4.0), d0_par2 = cms.vdouble(0.55, 4.0), dz_par1 = cms.vdouble(0.65, 4.0), dz_par2 = cms.vdouble(0.45, 4.0), keepAllTracks = cms.bool(False), maxNumberLostLayers = cms.uint32(999), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(0), minNumberLayers = cms.uint32(0), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('pixelPairStepLoose'), preFilterName = cms.string(''), qualityBit = cms.string('loose'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('pixelPairStepTight'), preFilterName = cms.string('pixelPairStepLoose'), qualityBit = cms.string('tight'), res_par = cms.vdouble(0.003, 0.01), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ), cms.PSet( applyAbsCutsIfNoPV = cms.bool(False), applyAdaptedPVCuts = cms.bool(True), chi2n_no1Dmod_par = cms.double(9999), 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(True), maxNumberLostLayers = cms.uint32(2), max_d0 = 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), minHitsToBypassChecks = cms.uint32(20), minNumber3DLayers = cms.uint32(3), minNumberLayers = cms.uint32(3), min_eta = cms.double(-9999.0), min_nhits = cms.uint32(0), nSigmaZ = cms.double(4.0), name = cms.string('QualityMasks'), preFilterName = cms.string('pixelPairStepTight'), qualityBit = cms.string('highPurity'), res_par = cms.vdouble(0.003, 0.001), vertexCut = cms.string('ndof>=2&!isFake'), vtxNumber = cms.int32(-1) ) ), useAnyMVA = cms.bool(True), useVertices = cms.bool(True), useVtxError = cms.bool(False), vertices = cms.InputTag("pixelVertices") ) process.pixelPairStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('pixelPairStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("pixelPairStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("pixelPairStepSeeds"), useHitsSplitting = cms.bool(True) ) process.pixelPairStepTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.03), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(5), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.015), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(0.6), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.pixelPairStepTrackingRegionsSeedLayersB = cms.EDProducer("PixelInactiveAreaTrackingRegionsSeedingLayersProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("pixelPairStepClusters") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('WithTrackAngle'), skipClusters = cms.InputTag("pixelPairStepClusters") ), MTEC = cms.PSet( ), MTIB = cms.PSet( ), MTID = cms.PSet( ), MTOB = cms.PSet( ), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), deltaEta_Cand = cms.double(-1), deltaPhi_Cand = cms.double(-1), extraEta = cms.double(0), extraPhi = cms.double(0), input = cms.InputTag(""), maxNVertices = cms.int32(5), measurementTrackerName = cms.InputTag(""), nSigmaZBeamSpot = cms.double(4), nSigmaZVertex = cms.double(3), operationMode = cms.string('VerticesFixed'), originRadius = cms.double(0.015), precise = cms.bool(True), ptMin = cms.double(0.6), searchOpt = cms.bool(False), seedingMode = cms.string('Global'), vertexCollection = cms.InputTag("firstStepPrimaryVertices"), whereToUseMeasurementTracker = cms.string('Never'), zErrorBeamSpot = cms.double(24.2), zErrorVertex = cms.double(0.03) ), TEC = cms.PSet( ), TIB = cms.PSet( ), TID = cms.PSet( ), TOB = cms.PSet( ), badPixelFEDChannelCollectionLabels = cms.VInputTag("siPixelDigis"), createPlottingFiles = cms.untracked.bool(False), debug = cms.untracked.bool(False), ignoreSingleFPixPanelModules = cms.bool(True), inactivePixelDetectorLabels = cms.VInputTag("siPixelDigis"), 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.pixelPairStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('pixelPairStep'), Fitter = cms.string('FlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("pixelPairStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.pixelTrackFilterByKinematics = cms.EDProducer("PixelTrackFilterByKinematicsProducer", chi2 = cms.double(1000), nSigmaInvPtTolerance = cms.double(0), nSigmaTipMaxTolerance = cms.double(0), ptMin = cms.double(0.1), tipMax = cms.double(1) ) process.pixelTracks = cms.EDProducer("PixelTrackProducer", Cleaner = cms.string('pixelTrackCleanerBySharedHits'), Filter = cms.InputTag("pixelTrackFilterByKinematics"), Fitter = cms.InputTag("pixelFitterByHelixProjections"), SeedingHitSets = cms.InputTag("pixelTracksHitQuadruplets"), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_pixelTracksHitQuadruplets__RECO'), passLabel = cms.string('pixelTracks') ) process.pixelTracksHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag(""), layerPairs = cms.vuint32(0, 1, 2), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("pixelTracksSeedLayers"), trackingRegions = cms.InputTag("pixelTracksTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.pixelTracksHitQuadruplets = cms.EDProducer("CAHitQuadrupletEDProducer", CAHardPtCut = cms.double(0), CAPhiCut = cms.double(0.2), CAThetaCut = cms.double(0.0012), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCachePreSplitting"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("pixelTracksHitDoublets"), 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), value1 = cms.double(200), value2 = cms.double(50) ), mightGet = cms.untracked.vstring('IntermediateHitDoublets_pixelTracksHitDoublets__RECO'), useBendingCorrection = cms.bool(True) ) process.pixelTracksHitTriplets = cms.EDProducer("PixelTripletHLTEDProducer", SeedComparitorPSet = cms.PSet( ComponentName = cms.string('LowPtClusterShapeSeedComparitor'), clusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCachePreSplitting"), clusterShapeHitFilter = cms.string('ClusterShapeHitFilter') ), doublets = cms.InputTag("pixelTracksHitDoublets"), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_pixelTracksHitDoublets__RECO'), 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.pixelTracksSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHitsPreSplitting'), TTRHBuilder = cms.string('WithTrackAngle') ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHitsPreSplitting'), TTRHBuilder = cms.string('WithTrackAngle') ), 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.pixelTracksTrackingRegions = cms.EDProducer("GlobalTrackingRegionEDProducer", RegionPSet = cms.PSet( originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), originXPos = cms.double(0), originYPos = cms.double(0), originZPos = cms.double(0), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ) process.pixelVertices = 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(3.0), dzCutOff = cms.double(4.0), uniquetrkweight = cms.double(0.9), vertexSize = cms.double(0.01), zmerge = cms.double(0.01) ), algorithm = cms.string('DA_vect') ), TkFilterParameters = cms.PSet( algorithm = cms.string('filter'), maxD0Significance = cms.double(100.0), maxEta = cms.double(100.0), maxNormalizedChi2 = cms.double(100.0), minPixelLayersWithHits = cms.int32(3), minPt = cms.double(0.0), minSiliconLayersWithHits = cms.int32(3), trackQuality = cms.string('any') ), TrackLabel = cms.InputTag("pixelTracks"), beamSpotLabel = cms.InputTag("offlineBeamSpot"), 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(2.0), minNdof = cms.double(2.0), useBeamConstraint = cms.bool(False) )) ) process.positiveCombinedInclusiveSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("inclusiveSecondaryVertexFinderTagInfos")) ) process.positiveCombinedMVAV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveCombinedMVAV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("secondaryVertexPositiveTagInfos"), cms.InputTag("inclusiveSecondaryVertexFinderPositiveTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")) ) process.positiveCombinedSecondaryVertexV2BJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveCombinedSecondaryVertexV2Computer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos"), cms.InputTag("secondaryVertexTagInfos")) ) process.positiveOnlyJetBProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveOnlyJetBProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.positiveOnlyJetProbabilityBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveOnlyJetProbabilityComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.positiveSoftPFElectronBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFElectronComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.positiveSoftPFElectronByIP2dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFElectronByIP2dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.positiveSoftPFElectronByIP3dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFElectronByIP3dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.positiveSoftPFElectronByPtBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFElectronByPtComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.positiveSoftPFMuonBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFMuonComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.positiveSoftPFMuonByIP2dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFMuonByIP2dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.positiveSoftPFMuonByIP3dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFMuonByIP3dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.positiveSoftPFMuonByPtBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('positiveSoftPFMuonByPtComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.preDuplicateMergingDisplacedTracks = cms.EDProducer("TrackCollectionMerger", allowFirstHitShare = cms.bool(True), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), enableMerging = cms.bool(True), foundHitBonus = cms.double(100.0), inputClassifiers = cms.vstring( 'muonSeededTracksInOutClassifier', 'muonSeededTracksOutInDisplacedClassifier' ), lostHitPenalty = cms.double(1.0), minQuality = cms.string('loose'), minShareHits = cms.uint32(2), shareFrac = cms.double(0.19), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder'), trackProducers = cms.VInputTag("muonSeededTracksInOut", "muonSeededTracksOutInDisplaced") ) process.preDuplicateMergingGeneralTracks = cms.EDProducer("TrackCollectionMerger", allowFirstHitShare = cms.bool(True), copyExtras = cms.untracked.bool(True), copyTrajectories = cms.untracked.bool(False), enableMerging = cms.bool(True), foundHitBonus = cms.double(100.0), inputClassifiers = cms.vstring( 'earlyGeneralTracks', 'muonSeededTracksInOutClassifier', 'muonSeededTracksOutInClassifier' ), lostHitPenalty = cms.double(1.0), minQuality = cms.string('loose'), minShareHits = cms.uint32(2), shareFrac = cms.double(0.19), trackAlgoPriorityOrder = cms.string('trackAlgoPriorityOrder'), trackProducers = cms.VInputTag("earlyGeneralTracks", "muonSeededTracksInOut", "muonSeededTracksOutIn") ) process.primaryVertexAssociation = cms.EDProducer("PFCandidatePrimaryVertexSorter", assignment = cms.PSet( 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) ), jets = cms.InputTag("ak4PFJets"), particles = cms.InputTag("particleFlow"), 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("offlinePrimaryVertices") ) process.puCorrPtSum = cms.EDProducer("PFRecoTauDiscriminationByIsolation", ApplyDiscriminationByECALIsolation = cms.bool(False), ApplyDiscriminationByTrackerIsolation = cms.bool(False), ApplyDiscriminationByWeightedECALIsolation = cms.bool(False), PFTauProducer = cms.InputTag("pfTauProducer"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), leadTrack = cms.PSet( Producer = cms.InputTag("pfRecoTauDiscriminationByLeadingTrackFinding"), cut = cms.double(0.5) ) ), UseAllPFCandsForWeights = cms.bool(False), WeightECALIsolation = cms.double(1.0), applyDeltaBetaCorrection = cms.bool(True), applyFootprintCorrection = cms.bool(False), applyOccupancyCut = cms.bool(False), applyPhotonPtSumOutsideSignalConeCut = cms.bool(False), applyRelativeSumPtCut = cms.bool(False), applyRhoCorrection = cms.bool(False), applySumPtCut = cms.bool(False), customOuterCone = cms.double(0.5), deltaBetaFactor = cms.string('0.38'), 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(0.8), maxAbsPhotonSumPt_outsideSignalCone = cms.double(1000000000.0), maxRelPhotonSumPt_outsideSignalCone = cms.double(0.1), maximumOccupancy = cms.uint32(0), maximumSumPtCut = cms.double(6.0), minTauPtForNoIso = cms.double(-99.0), particleFlowSrc = cms.InputTag("particleFlow"), 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(8), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(1.0), minTrackVertexWeight = cms.double(-1.0) ), leadingTrkOrPFCandOption = cms.string('leadPFCand'), primaryVertexSrc = cms.InputTag("offlinePrimaryVertices"), pvFindingAlgo = cms.string('closestInDeltaZ'), recoverLeadingTrk = cms.bool(False), signalQualityCuts = cms.PSet( maxDeltaZ = cms.double(0.4), maxTrackChi2 = cms.double(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), 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(100.0), maxTransverseImpactParameter = cms.double(0.1), minGammaEt = cms.double(1.0), minTrackHits = cms.uint32(3), minTrackPixelHits = cms.uint32(0), minTrackPt = cms.double(0.5), minTrackVertexWeight = cms.double(-1.0) ) ), relativeSumPtCut = cms.double(0.0), relativeSumPtOffset = cms.double(0.0), rhoConeSize = cms.double(0.5), rhoProducer = cms.InputTag("fixedGridRhoFastjetAll"), rhoUEOffsetCorrection = cms.double(1.0), storeRawPUsumPt = cms.bool(True), storeRawSumPt = cms.bool(False), verbosity = cms.int32(0), vertexSrc = cms.InputTag("offlinePrimaryVertices") ) process.puppi = cms.EDProducer("PuppiProducer", DeltaZCut = cms.double(0.3), MinPuppiWeight = cms.double(0.01), PtMaxNeutrals = cms.double(200.0), UseDeltaZCut = cms.bool(True), algos = cms.VPSet( cms.PSet( EtaMaxExtrap = cms.double(2.0), MedEtaSF = cms.vdouble(1.0), MinNeutralPt = cms.vdouble(0.2), MinNeutralPtSlope = cms.vdouble(0.015), RMSEtaSF = cms.vdouble(1.0), etaMax = cms.vdouble(2.5), etaMin = cms.vdouble(0.0), ptMin = cms.vdouble(0.0), puppiAlgos = cms.VPSet(cms.PSet( algoId = cms.int32(5), applyLowPUCorr = cms.bool(True), combOpt = cms.int32(0), cone = cms.double(0.4), rmsPtMin = cms.double(0.1), rmsScaleFactor = cms.double(1.0), useCharged = cms.bool(True) )) ), cms.PSet( EtaMaxExtrap = cms.double(2.0), MedEtaSF = cms.vdouble(0.9, 0.75), MinNeutralPt = cms.vdouble(1.7, 2.0), MinNeutralPtSlope = cms.vdouble(0.08, 0.08), RMSEtaSF = cms.vdouble(1.2, 0.95), etaMax = cms.vdouble(3.0, 10.0), etaMin = cms.vdouble(2.5, 3.0), ptMin = cms.vdouble(0.0, 0.0), puppiAlgos = cms.VPSet(cms.PSet( algoId = cms.int32(5), applyLowPUCorr = cms.bool(True), combOpt = cms.int32(0), cone = cms.double(0.4), rmsPtMin = cms.double(0.5), rmsScaleFactor = cms.double(1.0), useCharged = cms.bool(False) )) ) ), applyCHS = cms.bool(True), candName = cms.InputTag("particleFlow"), clonePackedCands = cms.bool(False), invertPuppi = cms.bool(False), puppiDiagnostics = cms.bool(False), puppiForLeptons = cms.bool(False), useExistingWeights = cms.bool(False), useExp = cms.bool(False), useWeightsNoLep = cms.bool(False), vertexName = cms.InputTag("offlinePrimaryVertices"), vtxNdofCut = cms.int32(4), vtxZCut = cms.double(24) ) process.quickTrackAssociatorByHits = cms.EDProducer("QuickTrackAssociatorByHitsProducer", AbsoluteNumberOfHits = cms.bool(False), Cut_RecoToSim = cms.double(0.75), PixelHitWeight = cms.double(1.0), Purity_SimToReco = cms.double(0.75), Quality_SimToReco = cms.double(0.5), SimToRecoDenominator = cms.string('reco'), ThreeHitTracksAreSpecial = cms.bool(True), cluster2TPSrc = cms.InputTag("tpClusterProducer"), useClusterTPAssociation = cms.bool(True) ) process.quickTrackAssociatorByHitsTrackerHitAssociator = cms.EDProducer("QuickTrackAssociatorByHitsProducer", AbsoluteNumberOfHits = cms.bool(False), Cut_RecoToSim = cms.double(0.75), PixelHitWeight = cms.double(1.0), Purity_SimToReco = cms.double(0.75), Quality_SimToReco = cms.double(0.5), SimToRecoDenominator = cms.string('reco'), ThreeHitTracksAreSpecial = cms.bool(True), associatePixel = cms.bool(True), associateStrip = cms.bool(True), cluster2TPSrc = cms.InputTag("tpClusterProducer"), pixelSimLinkSrc = cms.InputTag("simSiPixelDigis"), stripSimLinkSrc = cms.InputTag("simSiStripDigis"), useClusterTPAssociation = cms.bool(False) ) process.randomEngineStateProducer = cms.EDProducer("RandomEngineStateProducer") process.rawDataMapperByLabel = cms.EDProducer("RawDataMapperByLabel", mainCollection = cms.InputTag("rawDataMapperByLabel"), rawCollectionList = cms.VInputTag("rawDataCollector::@skipCurrentProcess", "rawDataRepacker", "rawDataReducedFormat") ) process.recoTauAK4PFJets08Region = cms.EDProducer("RecoTauJetRegionProducer", deltaR = cms.double(0.8), maxJetAbsEta = cms.double(2.5), minJetPt = cms.double(999999.0), pfCandAssocMapSrc = cms.InputTag(""), pfCandSrc = cms.InputTag("particleFlow"), src = cms.InputTag("ak4PFJets") ) process.recoTauDiscriminantCutMultiplexer = cms.EDProducer("RecoTauDiscriminantCutMultiplexer", PFTauProducer = cms.InputTag("fixme"), Prediscriminants = cms.PSet( BooleanOperator = cms.string('and'), decayMode = cms.PSet( Producer = cms.InputTag("fixme"), cut = cms.double(0.0) ) ), key = cms.InputTag("fixme"), loadMVAfromDB = cms.bool(True), mapping = cms.VPSet( cms.PSet( category = cms.uint32(0), cut = cms.double(0.5) ), cms.PSet( category = cms.uint32(1), cut = cms.double(0.2) ) ), toMultiplex = cms.InputTag("fixme") ) process.reducedEcalRecHitsEB = cms.EDProducer("ReducedRecHitCollectionProducer", interestingDetIdCollections = cms.VInputTag( cms.InputTag("interestingEcalDetIdEB"), cms.InputTag("interestingEcalDetIdEBU"), cms.InputTag("interestingEcalDetIdPFEB"), cms.InputTag("interestingEcalDetIdRefinedEB"), cms.InputTag("interestingGedEleIsoDetIdEB"), cms.InputTag("interestingGedGamIsoDetIdEB"), cms.InputTag("interestingGamIsoDetIdEB"), cms.InputTag("muonEcalDetIds"), cms.InputTag("interestingTrackEcalDetIds") ), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEB"), reducedHitsCollection = cms.string('') ) process.reducedEcalRecHitsEE = cms.EDProducer("ReducedRecHitCollectionProducer", interestingDetIdCollections = cms.VInputTag( cms.InputTag("interestingEcalDetIdEE"), cms.InputTag("interestingEcalDetIdPFEE"), cms.InputTag("interestingEcalDetIdRefinedEE"), cms.InputTag("interestingGedEleIsoDetIdEE"), cms.InputTag("interestingGedGamIsoDetIdEE"), cms.InputTag("interestingGamIsoDetIdEE"), cms.InputTag("muonEcalDetIds"), cms.InputTag("interestingTrackEcalDetIds") ), recHitsLabel = cms.InputTag("ecalRecHit","EcalRecHitsEE"), reducedHitsCollection = cms.string('') ) process.reducedEcalRecHitsES = cms.EDProducer("ReducedESRecHitCollectionProducer", EcalRecHitCollectionES = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES"), EndcapSuperClusterCollection = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower"), OutputLabel_ES = cms.string(''), interestingDetIds = cms.VInputTag(cms.InputTag("interestingEcalDetIdPFES"), cms.InputTag("interestingEcalDetIdRefinedES")), interestingDetIdsNotToClean = cms.VInputTag(cms.InputTag("interestingGedEgammaIsoESDetId")), scEtThreshold = cms.double(15) ) process.reducedHcalRecHits = cms.EDProducer("HcalHitSelection", hbheTag = cms.InputTag("hbhereco"), hfTag = cms.InputTag("hfreco"), hoSeverityLevel = cms.int32(13), hoTag = cms.InputTag("horeco"), interestingDetIds = cms.VInputTag(cms.InputTag("interestingGedEgammaIsoHCALDetId")) ) process.refittedStandAloneMuons = cms.EDProducer("StandAloneMuonProducer", InputObjects = cms.InputTag("ancientMuonSeed"), MuonTrajectoryBuilder = cms.string('Exhaustive'), STATrajBuilderParameters = cms.PSet( BWFilterParameters = cms.PSet( BWSeedType = cms.string('fromGenerator'), CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableGEMMeasurement = cms.bool(False), EnableME0Measurement = cms.bool(False), EnableRPCMeasurement = cms.bool(True), FitDirection = cms.string('outsideIn'), GEMRecSegmentLabel = cms.InputTag("gemRecHits"), ME0RecSegmentLabel = cms.InputTag("me0Segments"), 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('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits") ), DoBackwardFilter = cms.bool(True), DoRefit = cms.bool(True), DoSeedRefit = cms.bool(False), FilterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableGEMMeasurement = cms.bool(False), EnableME0Measurement = cms.bool(False), EnableRPCMeasurement = cms.bool(True), FitDirection = cms.string('insideOut'), GEMRecSegmentLabel = cms.InputTag("gemRecHits"), ME0RecSegmentLabel = cms.InputTag("me0Segments"), 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('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits") ), NavigationType = cms.string('Standard'), RefitterParameters = cms.PSet( FitterName = cms.string('KFFitterSmootherSTA'), ForceAllIterations = cms.bool(False), MaxFractionOfLostHits = cms.double(0.05), NumberOfIterations = cms.uint32(3), RescaleError = cms.double(100.0) ), SeedPosition = cms.string('in'), SeedPropagator = cms.string('SteppingHelixPropagatorAny'), SeedTransformerParameters = cms.PSet( Fitter = cms.string('KFFitterSmootherSTA'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), NMinRecHits = cms.uint32(2), Propagator = cms.string('SteppingHelixPropagatorAny'), RescaleError = cms.double(100.0), UseSubRecHits = cms.bool(False) ) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(True), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.regionalCosmicCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('CosmicNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('GroupedCkfTrajectoryBuilderP5') ), TrajectoryCleaner = cms.string('TrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("regionalCosmicTrackerSeeds"), useHitsSplitting = cms.bool(True) ) process.regionalCosmicTrackerSeedingLayers = cms.EDProducer("SeedingLayersEDProducer", TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), maxRing = cms.int32(7), minRing = cms.int32(6), useRingSlector = cms.bool(False) ), TOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ) ), layerList = cms.vstring( 'TOB6+TOB5', 'TOB6+TOB4', 'TOB6+TOB3', 'TOB5+TOB4', 'TOB5+TOB3', 'TOB4+TOB3', 'TEC1_neg+TOB6', 'TEC1_neg+TOB5', 'TEC1_neg+TOB4', 'TEC1_pos+TOB6', 'TEC1_pos+TOB5', 'TEC1_pos+TOB4' ) ) process.regionalCosmicTrackerSeeds = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(10000), MaxNumberOfPixelClusters = cms.uint32(10000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), doClusterCheck = cms.bool(False) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('GenericPairGenerator'), LayerSrc = cms.InputTag("regionalCosmicTrackerSeedingLayers") ), RegionFactoryPSet = cms.PSet( CollectionsPSet = cms.PSet( recoL2MuonsCollection = cms.InputTag(""), recoMuonsCollection = cms.InputTag(""), recoTrackMuonsCollection = cms.InputTag("cosmicMuons") ), ComponentName = cms.string('CosmicRegionalSeedGenerator'), RegionInJetsCheckPSet = cms.PSet( deltaRExclusionSize = cms.double(0.3), doJetsExclusionCheck = cms.bool(True), jetsPtMin = cms.double(5), recoCaloJetsCollection = cms.InputTag("ak4CaloJets") ), RegionPSet = cms.PSet( deltaEtaRegion = cms.double(0.1), deltaPhiRegion = cms.double(0.1), measurementTrackerName = cms.string(''), precise = cms.bool(True), ptMin = cms.double(1.0), rVertex = cms.double(5), zVertex = cms.double(5) ), ToolsPSet = cms.PSet( regionBase = cms.string('seedOnCosmicMuon'), thePropagatorName = cms.string('AnalyticalPropagator') ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('CosmicSeedCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), maxseeds = cms.int32(10000), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.regionalCosmicTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('ctf'), Fitter = cms.string('FittingSmootherRKP5'), GeometricInnerState = cms.bool(True), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("regionalCosmicCkfTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.rpcCPPFRawToDigi = cms.EDProducer("RPCAMCRawToDigi", RPCAMCUnpacker = cms.string('RPCCPPFUnpacker'), RPCAMCUnpackerSettings = cms.PSet( bxMax = cms.int32(2), bxMin = cms.int32(-2), fillAMCCounters = cms.bool(True) ), calculateCRC = cms.bool(True), fillCounters = cms.bool(True), inputTag = cms.InputTag("rawDataMapperByLabel") ) process.rpcNewRecHits = 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("muonRPCNewDigis") ) process.rpcRecHits = 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("muonRPCDigis") ) process.rpcTwinMuxRawToDigi = cms.EDProducer("RPCTwinMuxRawToDigi", bxMax = cms.int32(2), bxMin = cms.int32(-2), calculateCRC = cms.bool(True), fillCounters = cms.bool(True), inputTag = cms.InputTag("rawDataMapperByLabel") ) process.scalersRawToDigi = cms.EDProducer("ScalersRawToDigi", scalersInputTag = cms.InputTag("rawDataMapperByLabel") ) process.secondaryVertexNegativeTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("secondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(False), usePVError = cms.bool(True), vertexCuts = cms.PSet( distSig2dMax = cms.double(-3.0), distSig2dMin = cms.double(-99999.9), distSig3dMax = cms.double(99999.9), distSig3dMin = cms.double(-99999.9), distVal2dMax = cms.double(-0.01), distVal2dMin = cms.double(-2.5), distVal3dMax = cms.double(99999.9), distVal3dMin = cms.double(-99999.9), fracPV = cms.double(0.65), 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.secondaryVertexTagInfos = cms.EDProducer("SecondaryVertexProducer", beamSpotTag = cms.InputTag("offlineBeamSpot"), constraint = cms.string('BeamSpot'), extSVCollection = cms.InputTag("secondaryVertices"), extSVDeltaRToJet = cms.double(0.3), minimumTrackWeight = cms.double(0.5), trackIPTagInfos = cms.InputTag("impactParameterTagInfos"), 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), 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(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(8), useVariableJTA = cms.bool(False) ), trackSort = cms.string('sip3dSig'), useExternalSV = cms.bool(False), 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.seedClusterRemover = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("initialStepSeeds") ) process.seedClusterRemoverPhase2 = cms.EDProducer("SeedClusterRemoverPhase2", phase2OTClusters = cms.InputTag("siPhase2Clusters"), pixelClusters = cms.InputTag("siPixelClusters"), trajectories = cms.InputTag("initialStepSeeds") ) process.seedGeneratorFromRegionHitsEDProducer = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", ClusterCheckPSet = cms.PSet( ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(100000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 100000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True) ), OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string(''), SeedingLayers = cms.InputTag(""), maxElement = cms.uint32(1000000) ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('GlobalRegionProducerFromBeamSpot'), RegionPSet = cms.PSet( beamSpot = cms.InputTag("offlineBeamSpot"), originHalfLength = cms.double(21.2), originRadius = cms.double(0.2), precise = cms.bool(True), ptMin = cms.double(0.9), useMultipleScattering = cms.bool(False) ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedCreatorPSet = cms.PSet( ComponentName = cms.string('SeedFromConsecutiveHitsCreator'), MinOneOverPtError = cms.double(1.0), OriginTransverseErrorMultiplier = cms.double(1.0), SeedMomentumForBOFF = cms.double(5.0), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), propagator = cms.string('PropagatorWithMaterialParabolicMf') ) ) process.seedingLayersEDProducer = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( ), FPix = cms.PSet( ), 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() ) process.selectDigi = cms.EDProducer("EcalDigiSelector", EcalEBDigiTag = cms.InputTag("ecalDigis","ebDigis"), EcalEBRecHitTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), EcalEEDigiTag = cms.InputTag("ecalDigis","eeDigis"), EcalEERecHitTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), barrelSuperClusterProducer = cms.InputTag("uncleanedHybridSuperClusters"), cluster_pt_thresh = cms.double(10.0), endcapSuperClusterProducer = cms.InputTag("correctedMulti5x5SuperClustersWithPreshower"), nclus_sel = cms.int32(2), selectedEcalEBDigiCollection = cms.string('selectedEcalEBDigiCollection'), selectedEcalEEDigiCollection = cms.string('selectedEcalEEDigiCollection'), single_cluster_thresh = cms.double(15.0) ) process.siPhase2Clusters = cms.EDProducer("Phase2TrackerClusterizer", maxClusterSize = cms.uint32(0), maxNumberClusters = cms.uint32(0), src = cms.InputTag("mix","Tracker") ) process.siPixelClusterShapeCache = cms.EDProducer("SiPixelClusterShapeCacheProducer", onDemand = cms.bool(False), src = cms.InputTag("siPixelClusters") ) process.siPixelClusterShapeCachePreSplitting = cms.EDProducer("SiPixelClusterShapeCacheProducer", onDemand = cms.bool(False), src = cms.InputTag("siPixelClustersPreSplitting") ) process.siPixelClusters = cms.EDProducer("JetCoreClusterSplitter", centralMIPCharge = cms.double(26000), chargeFractionMin = cms.double(2.0), chargePerUnit = cms.double(2000), cores = cms.InputTag("jetsForCoreTrackingPreSplitting"), deltaRmax = cms.double(0.05), forceXError = cms.double(100), forceYError = cms.double(150), fractionalWidth = cms.double(0.4), pixelCPE = cms.string('PixelCPEGeneric'), pixelClusters = cms.InputTag("siPixelClustersPreSplitting"), ptMin = cms.double(200), verbose = cms.bool(False), vertices = cms.InputTag("firstStepPrimaryVerticesPreSplitting") ) process.siPixelClustersPreSplitting = cms.EDProducer("SiPixelClusterProducer", ChannelThreshold = cms.int32(10), ClusterThreshold = cms.int32(4000), ClusterThreshold_L1 = cms.int32(2000), ElectronPerADCGain = cms.double(135.0), MissCalibrate = cms.untracked.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(-1), payloadType = cms.string('Offline'), src = cms.InputTag("siPixelDigis") ) process.siPixelDigis = cms.EDProducer("SiPixelRawToDigi", CablingMapLabel = cms.string(''), ErrorList = cms.vint32(29), IncludeErrors = cms.bool(True), InputLabel = cms.InputTag("rawDataMapperByLabel"), Regions = cms.PSet( ), Timing = cms.untracked.bool(False), UsePhase1 = cms.bool(True), UsePilotBlade = cms.bool(False), UseQualityInfo = cms.bool(False), UserErrorList = cms.vint32(40) ) process.siPixelRecHits = cms.EDProducer("SiPixelRecHitConverter", CPE = cms.string('PixelCPEGeneric'), VerboseLevel = cms.untracked.int32(0), src = cms.InputTag("siPixelClusters") ) process.siPixelRecHitsPreSplitting = cms.EDProducer("SiPixelRecHitConverter", CPE = cms.string('PixelCPEGeneric'), VerboseLevel = cms.untracked.int32(0), src = cms.InputTag("siPixelClustersPreSplitting") ) process.siStripClusters = cms.EDProducer("SiStripClusterizer", Clusterizer = cms.PSet( Algorithm = cms.string('ThreeThresholdAlgorithm'), ChannelThreshold = cms.double(2.0), ClusterThreshold = cms.double(5.0), MaxAdjacentBad = cms.uint32(0), MaxSequentialBad = cms.uint32(1), MaxSequentialHoles = cms.uint32(0), QualityLabel = cms.string(''), RemoveApvShots = cms.bool(True), SeedThreshold = cms.double(3.0), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ) ), DigiProducersList = cms.VInputTag(cms.InputTag("siStripDigis","ZeroSuppressed"), cms.InputTag("siStripZeroSuppression","VirginRaw"), cms.InputTag("siStripZeroSuppression","ProcessedRaw"), cms.InputTag("siStripZeroSuppression","ScopeMode")) ) process.siStripDigis = cms.EDProducer("SiStripRawToDigiModule", AppendedBytes = cms.int32(0), DoAPVEmulatorCheck = cms.bool(False), DoAllCorruptBufferChecks = cms.bool(False), ErrorThreshold = cms.uint32(7174), LegacyUnpacker = cms.bool(False), MarkModulesOnMissingFeds = cms.bool(True), ProductLabel = cms.InputTag("rawDataMapperByLabel"), TriggerFedId = cms.int32(0), UnpackBadChannels = cms.bool(False), UnpackCommonModeValues = cms.bool(False), UseDaqRegister = cms.bool(False), UseFedKey = cms.bool(False) ) process.siStripElectronToTrackAssociator = cms.EDProducer("SiStripElectronAssociator", electronsLabel = cms.InputTag("siStripElectrons"), siStripElectronCollection = cms.InputTag("siStripElectrons"), trackCollection = cms.InputTag("egammaCTFFinalFitWithMaterial") ) process.siStripElectrons = cms.EDProducer("SiStripElectronProducer", maxHitsOnDetId = cms.int32(4), maxNormResid = cms.double(10.0), maxReducedChi2 = cms.double(10000.0), minHits = cms.int32(5), originUncertainty = cms.double(15.0), phiBandWidth = cms.double(0.01), siHitProducer = cms.string('siStripMatchedRecHits'), siMatchedHitCollection = cms.string('matchedRecHit'), siRphiHitCollection = cms.string('rphiRecHit'), siStereoHitCollection = cms.string('stereoRecHit'), siStripElectronsLabel = cms.string(''), superClusterCollection = cms.string(''), superClusterProducer = cms.string('correctedHybridSuperClusters'), trackCandidatesLabel = cms.string('') ) process.siStripMatchedRecHits = cms.EDProducer("SiStripRecHitConverter", ClusterProducer = cms.InputTag("siStripClusters"), MaskBadAPVFibers = cms.bool(False), Matcher = cms.ESInputTag("SiStripRecHitMatcherESProducer","StandardMatcher"), StripCPE = cms.ESInputTag("StripCPEfromTrackAngleESProducer","StripCPEfromTrackAngle"), VerbosityLevel = cms.untracked.int32(1), matchedRecHits = cms.string('matchedRecHit'), rphiRecHits = cms.string('rphiRecHit'), siStripQualityLabel = cms.ESInputTag(""), stereoRecHits = cms.string('stereoRecHit'), useSiStripQuality = cms.bool(False) ) process.siStripZeroSuppression = cms.EDProducer("SiStripZeroSuppression", Algorithms = cms.PSet( APVInspectMode = cms.string('BaselineFollower'), APVRestoreMode = cms.string('BaselineFollower'), ApplyBaselineCleaner = cms.bool(True), ApplyBaselineRejection = cms.bool(True), CleaningSequence = cms.uint32(1), CommonModeNoiseSubtractionMode = cms.string('IteratedMedian'), CutToAvoidSignal = cms.double(2.0), DeltaCMThreshold = cms.uint32(20), Deviation = cms.uint32(25), ForceNoRestore = cms.bool(False), Fraction = cms.double(0.2), Iterations = cms.int32(3), MeanCM = cms.int32(0), PedestalSubtractionFedMode = cms.bool(False), SiStripFedZeroSuppressionMode = cms.uint32(4), TruncateInSuppressor = cms.bool(True), Use10bitsTruncation = cms.bool(False), consecThreshold = cms.uint32(5), discontinuityThreshold = cms.int32(12), distortionThreshold = cms.uint32(20), doAPVRestore = cms.bool(True), filteredBaselineDerivativeSumSquare = cms.double(30), filteredBaselineMax = cms.double(6), hitStripThreshold = cms.uint32(40), lastGradient = cms.int32(10), minStripsToFit = cms.uint32(4), nSaturatedStrip = cms.uint32(2), nSigmaNoiseDerTh = cms.uint32(4), nSmooth = cms.uint32(9), restoreThreshold = cms.double(0.5), sizeWindow = cms.int32(1), slopeX = cms.int32(3), slopeY = cms.int32(4), useCMMeanMap = cms.bool(False), useRealMeanCM = cms.bool(False), widthCluster = cms.int32(64) ), RawDigiProducersList = cms.VInputTag(cms.InputTag("siStripDigis","VirginRaw"), cms.InputTag("siStripDigis","ProcessedRaw"), cms.InputTag("siStripDigis","ScopeMode")), fixCM = cms.bool(False), produceBaselinePoints = cms.bool(False), produceCalculatedBaseline = cms.bool(False), produceHybridFormat = cms.bool(False), produceRawDigis = cms.bool(True), storeCM = cms.bool(True), storeInZScollBadAPV = cms.bool(True) ) process.simEcalTriggerPrimitiveDigis = cms.EDProducer("EcalTrigPrimProducer", BarrelOnly = cms.bool(False), Debug = cms.bool(False), Famos = cms.bool(False), InstanceEB = cms.string(''), InstanceEE = cms.string(''), Label = cms.string('simEcalUnsuppressedDigis'), TcpOutput = cms.bool(False), binOfMaximum = cms.int32(6) ) process.simPFProducer = cms.EDProducer("SimPFProducer", associators = cms.VInputTag(cms.InputTag("quickTrackAssociatorByHits")), caloParticlesSrc = cms.InputTag("mix","MergedCaloTruth"), gsfTrackSrc = cms.InputTag("electronGsfTracks"), muonSrc = cms.InputTag("muons1stStep"), neutralEMThreshold = cms.double(0.25), neutralHADThreshold = cms.double(0.25), pfRecTrackSrc = cms.InputTag("hgcalTrackCollection","TracksInHGCal"), simClusterTruthSrc = cms.InputTag("mix","MergedCaloTruth"), simClustersSrc = cms.InputTag("particleFlowClusterHGCal"), superClusterThreshold = cms.double(4.0), trackSrc = cms.InputTag("generalTracks"), trackingParticleSrc = cms.InputTag("mix","MergedTrackTruth") ) process.simpleInclusiveSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("inclusiveSecondaryVertexFinderFilteredTagInfos")) ) process.simpleInclusiveSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("inclusiveSecondaryVertexFinderFilteredTagInfos")) ) process.simpleSecondaryVertexHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex2TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("secondaryVertexTagInfos")) ) process.simpleSecondaryVertexHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('simpleSecondaryVertex3TrkComputer'), tagInfos = cms.VInputTag(cms.InputTag("secondaryVertexTagInfos")) ) process.sisCone5JetExtender = cms.EDProducer("JetExtender", coneSize = cms.double(0.5), jet2TracksAtCALO = cms.InputTag("sisCone5JetTracksAssociatorAtCaloFace"), jet2TracksAtVX = cms.InputTag("sisCone5JetTracksAssociatorAtVertex"), jets = cms.InputTag("sisCone5CaloJets") ) process.sisCone5JetTracksAssociatorAtCaloFace = cms.EDProducer("JetTracksAssociatorAtCaloFace", coneSize = cms.double(0.4), extrapolations = cms.InputTag("trackExtrapolator"), jets = cms.InputTag("sisCone5CaloJets"), trackQuality = cms.string('goodIterative'), tracks = cms.InputTag("generalTracks") ) process.sisCone5JetTracksAssociatorAtVertex = cms.EDProducer("JetTracksAssociatorAtVertex", coneSize = cms.double(0.4), jets = cms.InputTag("sisCone5CaloJets"), pvSrc = cms.InputTag("offlinePrimaryVertices"), tracks = cms.InputTag("generalTracks"), useAssigned = cms.bool(False) ) process.softKiller = cms.EDProducer("SoftKillerProducer", PFCandidates = cms.InputTag("particleFlow"), Rho_EtaMax = cms.double(5.0), rParam = cms.double(0.4) ) process.softPFElectronBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFElectronComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.softPFElectronByIP2dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFElectronByIP2dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.softPFElectronByIP3dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFElectronByIP3dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.softPFElectronByPtBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFElectronByPtComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFElectronsTagInfos")) ) process.softPFElectronsTagInfos = cms.EDProducer("SoftPFElectronTagInfoProducer", DeltaRElectronJet = cms.double(0.4), MaxSip3Dsig = cms.double(200), electrons = cms.InputTag("gedGsfElectrons"), jets = cms.InputTag("ak4PFJetsCHS"), primaryVertex = cms.InputTag("offlinePrimaryVertices") ) process.softPFMuonBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFMuonComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.softPFMuonByIP2dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFMuonByIP2dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.softPFMuonByIP3dBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFMuonByIP3dComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.softPFMuonByPtBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('softPFMuonByPtComputer'), tagInfos = cms.VInputTag(cms.InputTag("softPFMuonsTagInfos")) ) process.softPFMuonsTagInfos = cms.EDProducer("SoftPFMuonTagInfoProducer", filterIpsig = cms.double(4.0), filterPromptMuons = cms.bool(False), filterRatio1 = cms.double(0.4), filterRatio2 = cms.double(0.7), jets = cms.InputTag("ak4PFJetsCHS"), muonPt = cms.double(2.0), muonSIPsig = cms.double(200.0), muons = cms.InputTag("muons"), primaryVertex = cms.InputTag("offlinePrimaryVertices") ) process.sortedPrimaryVertices = cms.EDProducer("RecoChargedRefCandidatePrimaryVertexSorter", assignment = cms.PSet( maxDistanceToJetAxis = cms.double(0.07), maxDtSigForPrimaryAssignment = cms.double(4.0), 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) ), jets = cms.InputTag("ak4CaloJetsForTrk"), particles = cms.InputTag("trackRefsForJets"), produceAssociationToOriginalVertices = cms.bool(False), produceNoPileUpCollection = cms.bool(False), producePileUpCollection = cms.bool(False), produceSortedVertices = cms.bool(True), qualityForPrimary = cms.int32(3), sorting = cms.PSet( ), trackTimeResoTag = cms.InputTag(""), trackTimeTag = cms.InputTag(""), usePVMET = cms.bool(True), vertices = cms.InputTag("offlinePrimaryVertices") ) process.standAloneMuons = cms.EDProducer("StandAloneMuonProducer", InputObjects = cms.InputTag("ancientMuonSeed"), MuonTrajectoryBuilder = cms.string('Exhaustive'), STATrajBuilderParameters = cms.PSet( BWFilterParameters = cms.PSet( BWSeedType = cms.string('fromGenerator'), CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableGEMMeasurement = cms.bool(False), EnableME0Measurement = cms.bool(False), EnableRPCMeasurement = cms.bool(True), FitDirection = cms.string('outsideIn'), GEMRecSegmentLabel = cms.InputTag("gemRecHits"), ME0RecSegmentLabel = cms.InputTag("me0Segments"), 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('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits") ), DoBackwardFilter = cms.bool(True), DoRefit = cms.bool(False), DoSeedRefit = cms.bool(False), FilterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("cscSegments"), DTRecSegmentLabel = cms.InputTag("dt4DSegments"), EnableCSCMeasurement = cms.bool(True), EnableDTMeasurement = cms.bool(True), EnableGEMMeasurement = cms.bool(False), EnableME0Measurement = cms.bool(False), EnableRPCMeasurement = cms.bool(True), FitDirection = cms.string('insideOut'), GEMRecSegmentLabel = cms.InputTag("gemRecHits"), ME0RecSegmentLabel = cms.InputTag("me0Segments"), 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('SteppingHelixPropagatorAny'), RPCRecSegmentLabel = cms.InputTag("rpcRecHits") ), NavigationType = cms.string('Standard'), RefitterParameters = cms.PSet( FitterName = cms.string('KFFitterSmootherSTA'), ForceAllIterations = cms.bool(False), MaxFractionOfLostHits = cms.double(0.05), NumberOfIterations = cms.uint32(3), RescaleError = cms.double(100.0) ), SeedPosition = cms.string('in'), SeedPropagator = cms.string('SteppingHelixPropagatorAny'), SeedTransformerParameters = cms.PSet( Fitter = cms.string('KFFitterSmootherSTA'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), NMinRecHits = cms.uint32(2), Propagator = cms.string('SteppingHelixPropagatorAny'), RescaleError = cms.double(100.0), UseSubRecHits = cms.bool(False) ) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(True), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.standAloneSETMuons = cms.EDProducer("StandAloneMuonProducer", InputObjects = cms.InputTag("SETMuonSeed"), MuonTrajectoryBuilder = cms.string('DirectMuonTrajectoryBuilder'), STATrajBuilderParameters = cms.PSet( SeedTransformerParameters = cms.PSet( Fitter = cms.string('KFFitterSmootherSTA'), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), NMinRecHits = cms.uint32(2), Propagator = cms.string('SteppingHelixPropagatorAny'), RescaleError = cms.double(1.0), UseSubRecHits = cms.bool(False) ) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(False), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(True), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.stripPairElectronHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(1000000), produceIntermediateHitDoublets = cms.bool(False), produceSeedingHitSets = cms.bool(True), seedingLayers = cms.InputTag("stripPairElectronSeedLayers"), trackingRegions = cms.InputTag("stripPairElectronTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.stripPairElectronSeedLayers = cms.EDProducer("SeedingLayersEDProducer", TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("tripletElectronClusterMask"), useRingSlector = cms.bool(True) ), TIB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("tripletElectronClusterMask") ), TID = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutNone') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(2), minRing = cms.int32(1), skipClusters = cms.InputTag("tripletElectronClusterMask"), useRingSlector = cms.bool(True) ), layerList = cms.vstring( 'TIB1+TIB2', 'TIB1+TID1_pos', 'TIB1+TID1_neg', 'TID2_pos+TID3_pos', 'TID2_neg+TID3_neg', 'TEC1_pos+TEC2_pos', 'TEC2_pos+TEC3_pos', 'TEC3_pos+TEC4_pos', 'TEC3_pos+TEC5_pos', 'TEC1_neg+TEC2_neg', 'TEC2_neg+TEC3_neg', 'TEC3_neg+TEC4_neg', 'TEC3_neg+TEC5_neg' ) ) process.stripPairElectronSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_stripPairElectronHitDoublets__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("stripPairElectronHitDoublets") ) process.stripPairElectronTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.5), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.4), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(8.0), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.tauRegionalPixelSeedGenerator = cms.EDProducer("SeedGeneratorFromRegionHitsEDProducer", OrderedHitsFactoryPSet = cms.PSet( ComponentName = cms.string('StandardHitPairGenerator'), SeedingLayers = cms.InputTag("PixelLayerPairs") ), RegionFactoryPSet = cms.PSet( ComponentName = cms.string('TauRegionalPixelSeedGenerator'), RegionPSet = cms.PSet( JetSrc = cms.InputTag("iterativeConePu5CaloJets"), deltaEtaRegion = cms.double(0.1), deltaPhiRegion = cms.double(0.1), howToUseMeasurementTracker = cms.string('ForSiStrips'), measurementTrackerName = cms.InputTag("MeasurementTrackerEvent"), originHalfLength = cms.double(0.2), originRadius = cms.double(0.2), originZPos = cms.double(0.0), precise = cms.bool(True), ptMin = cms.double(5.0), vertexSrc = cms.InputTag("hiSelectedPixelVertex") ) ), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), TTRHBuilder = cms.string('WithTrackAngle') ) process.tcdsDigis = cms.EDProducer("TcdsRawToDigi", InputLabel = cms.InputTag("rawDataMapperByLabel") ) process.tcdsRawToDigi = cms.EDProducer("TcdsRawToDigi", InputLabel = cms.InputTag("rawDataCollector") ) process.tevMuons = cms.EDProducer("TevMuonProducer", MuonCollectionLabel = cms.InputTag("globalMuons"), RefitIndex = cms.vint32(1, 2, 3, 4), Refits = cms.vstring( 'default', 'firstHit', 'picky', 'dyt' ), RefitterParameters = cms.PSet( CSCRecSegmentLabel = cms.InputTag("csc2DRecHits"), Chi2CutCSC = cms.double(1.0), Chi2CutDT = cms.double(30.0), Chi2CutGEM = cms.double(1.0), Chi2CutME0 = cms.double(1.0), Chi2CutRPC = cms.double(1.0), Chi2ProbabilityCut = cms.double(30.0), DTRecSegmentLabel = cms.InputTag("dt1DRecHits"), DYTselector = cms.int32(1), DYTthrs = cms.vint32(10, 10), DYTupdator = cms.bool(True), DYTuseAPE = cms.bool(False), DoPredictionsOnly = cms.bool(False), Fitter = cms.string('KFFitterForRefitInsideOut'), GEMRecHitLabel = cms.InputTag("gemRecHits"), HitThreshold = cms.int32(1), ME0RecHitLabel = cms.InputTag("me0Segments"), MuonHitsOption = cms.int32(1), MuonRecHitBuilder = cms.string('MuonRecHitBuilder'), PropDirForCosmics = cms.bool(False), Propagator = cms.string('SmartPropagatorAnyRK'), PtCut = cms.double(1.0), RPCRecSegmentLabel = cms.InputTag("rpcRecHits"), RefitDirection = cms.string('insideOut'), RefitFlag = cms.bool(True), RefitRPCHits = cms.bool(True), SkipStation = cms.int32(-1), Smoother = cms.string('KFSmootherForRefitInsideOut'), TrackerRecHitBuilder = cms.string('WithAngleAndTemplate'), TrackerSkipSection = cms.int32(-1), TrackerSkipSystem = cms.int32(-1) ), ServiceParameters = cms.PSet( CSCLayers = cms.untracked.bool(True), GEMLayers = cms.untracked.bool(False), ME0Layers = cms.bool(False), Propagators = cms.untracked.vstring( 'SteppingHelixPropagatorAny', 'SteppingHelixPropagatorAlong', 'SteppingHelixPropagatorOpposite', 'SteppingHelixPropagatorL2Any', 'SteppingHelixPropagatorL2Along', 'SteppingHelixPropagatorL2Opposite', 'SteppingHelixPropagatorAnyNoError', 'SteppingHelixPropagatorAlongNoError', 'SteppingHelixPropagatorOppositeNoError', 'SteppingHelixPropagatorL2AnyNoError', 'SteppingHelixPropagatorL2AlongNoError', 'SteppingHelixPropagatorL2OppositeNoError', 'PropagatorWithMaterial', 'PropagatorWithMaterialOpposite', 'SmartPropagator', 'SmartPropagatorOpposite', 'SmartPropagatorAnyOpposite', 'SmartPropagatorAny', 'SmartPropagatorRK', 'SmartPropagatorAnyRK', 'StraightLinePropagator' ), RPCLayers = cms.bool(True), UseMuonNavigation = cms.untracked.bool(True) ), TrackLoaderParameters = cms.PSet( DoSmoothing = cms.bool(True), MuonUpdatorAtVertexParameters = cms.PSet( BeamSpotPositionErrors = cms.vdouble(0.1, 0.1, 5.3), MaxChi2 = cms.double(1000000.0), Propagator = cms.string('SteppingHelixPropagatorOpposite') ), Smoother = cms.string('KFSmootherForMuonTrackLoader'), TTRHBuilder = cms.string('WithAngleAndTemplate'), VertexConstraint = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot") ) ) process.tobTecStep = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorTobTecStep_Phase1') ), qualityCuts = cms.vdouble(-0.6, -0.3, 0.7), src = cms.InputTag("tobTecStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.tobTecStepClassifier1 = cms.EDProducer("TrackMVAClassifierDetached", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter6_13TeV') ), qualityCuts = cms.vdouble(-0.6, -0.45, -0.3), src = cms.InputTag("tobTecStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.tobTecStepClassifier2 = cms.EDProducer("TrackMVAClassifierPrompt", beamspot = cms.InputTag("offlineBeamSpot"), ignoreVertices = cms.bool(False), mva = cms.PSet( GBRForestFileName = cms.string(''), GBRForestLabel = cms.string('MVASelectorIter0_13TeV') ), qualityCuts = cms.vdouble(0.0, 0.0, 0.0), src = cms.InputTag("tobTecStepTracks"), vertices = cms.InputTag("firstStepPrimaryVertices") ) process.tobTecStepClusters = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('tight'), maxChi2 = cms.double(9.0), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag("pixelLessStepClusters"), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("pixelLessStep","QualityMasks"), trajectories = cms.InputTag("pixelLessStepTracks") ) process.tobTecStepHitDoubletsPair = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(1000000), produceIntermediateHitDoublets = cms.bool(False), produceSeedingHitSets = cms.bool(True), seedingLayers = cms.InputTag("tobTecStepSeedLayersPair"), trackingRegions = cms.InputTag("tobTecStepTrackingRegionsPair"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.tobTecStepHitDoubletsTripl = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("tobTecStepSeedLayersTripl"), trackingRegions = cms.InputTag("tobTecStepTrackingRegionsTripl"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.tobTecStepHitTripletsTripl = cms.EDProducer("MultiHitFromChi2EDProducer", ClusterShapeHitFilterName = cms.string('ClusterShapeHitFilter'), TTRHBuilder = cms.string('WithTrackAngle'), chi2VsPtCut = cms.bool(True), chi2_cuts = cms.vdouble(3, 4, 5, 5), detIdsToDebug = cms.vint32(0, 0, 0), doublets = cms.InputTag("tobTecStepHitDoubletsTripl"), extraHitRPhitolerance = cms.double(0), extraHitRZtolerance = cms.double(0), extraPhiKDBox = cms.double(0.01), extraRKDBox = cms.double(0.2), extraZKDBox = cms.double(0.2), fnSigmaRZ = cms.double(2), maxChi2 = cms.double(5), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_tobTecStepHitDoubletsTripl__RECO'), phiPreFiltering = cms.double(0.3), pt_interv = cms.vdouble(0.4, 0.7, 1, 2), refitHits = cms.bool(True), useFixedPreFiltering = cms.bool(False) ) process.tobTecStepMasks = cms.EDProducer("FastTrackerRecHitMaskProducer", TrackQuality = cms.string('tight'), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), minNumberOfLayersWithMeasBeforeFiltering_ = cms.int32(0), oldHitRemovalInfo = cms.InputTag("pixelLessStepMasks"), recHits = cms.InputTag("fastTrackerRecHits"), trackClassifier = cms.InputTag("pixelLessStep","QualityMasks"), trackQuality = cms.string('hightPurity'), trajectories = cms.InputTag("pixelLessStepTracks") ) process.tobTecStepSeedLayers = cms.EDProducer("SeedingLayersEDProducer", TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTiny') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(5), minRing = cms.int32(5), skipClusters = cms.InputTag("tobTecStepClusters"), useRingSlector = cms.bool(True) ), TOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTiny') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("tobTecStepClusters") ), layerList = cms.vstring( 'TOB1+TOB2', 'TOB1+TEC1_pos', 'TOB1+TEC1_neg', 'TEC1_pos+TEC2_pos', 'TEC2_pos+TEC3_pos', 'TEC3_pos+TEC4_pos', 'TEC4_pos+TEC5_pos', 'TEC5_pos+TEC6_pos', 'TEC6_pos+TEC7_pos', 'TEC1_neg+TEC2_neg', 'TEC2_neg+TEC3_neg', 'TEC3_neg+TEC4_neg', 'TEC4_neg+TEC5_neg', 'TEC5_neg+TEC6_neg', 'TEC6_neg+TEC7_neg' ) ) process.tobTecStepSeedLayersPair = cms.EDProducer("SeedingLayersEDProducer", TEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), maxRing = cms.int32(5), minRing = cms.int32(5), skipClusters = cms.InputTag("tobTecStepClusters"), useRingSlector = cms.bool(True) ), TOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("tobTecStepClusters") ), layerList = cms.vstring( 'TOB1+TEC1_pos', 'TOB1+TEC1_neg', 'TEC1_pos+TEC2_pos', 'TEC1_neg+TEC2_neg', 'TEC2_pos+TEC3_pos', 'TEC2_neg+TEC3_neg', 'TEC3_pos+TEC4_pos', 'TEC3_neg+TEC4_neg', 'TEC4_pos+TEC5_pos', 'TEC4_neg+TEC5_neg', 'TEC5_pos+TEC6_pos', 'TEC5_neg+TEC6_neg', 'TEC6_pos+TEC7_pos', 'TEC6_neg+TEC7_neg' ) ) process.tobTecStepSeedLayersTripl = cms.EDProducer("SeedingLayersEDProducer", MTEC = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), maxRing = cms.int32(7), minRing = cms.int32(6), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("tobTecStepClusters"), useRingSlector = cms.bool(True) ), MTOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), rphiRecHits = cms.InputTag("siStripMatchedRecHits","rphiRecHit"), skipClusters = cms.InputTag("tobTecStepClusters") ), TOB = cms.PSet( TTRHBuilder = cms.string('WithTrackAngle'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), matchedRecHits = cms.InputTag("siStripMatchedRecHits","matchedRecHit"), skipClusters = cms.InputTag("tobTecStepClusters") ), layerList = cms.vstring( 'TOB1+TOB2+MTOB3', 'TOB1+TOB2+MTOB4', 'TOB1+TOB2+MTEC1_pos', 'TOB1+TOB2+MTEC1_neg' ) ) process.tobTecStepSeeds = cms.EDProducer("SeedCombiner", seedCollections = cms.VInputTag(cms.InputTag("tobTecStepSeedsTripl"), cms.InputTag("tobTecStepSeedsPair")) ) process.tobTecStepSeedsPair = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('CombinedSeedComparitor'), comparitors = cms.VPSet( cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('tobTecStepClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(False), FilterStripHits = cms.bool(True) ), cms.PSet( ComponentName = cms.string('StripSubClusterShapeSeedFilter'), FilterAtHelixStage = cms.bool(False), label = cms.untracked.string('Seeds'), 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) ) ), mode = cms.string('and') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring('RegionsSeedingHitSets_tobTecStepHitDoubletsPair__RECO'), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("tobTecStepHitDoubletsPair") ) process.tobTecStepSeedsTripl = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('CombinedSeedComparitor'), comparitors = cms.VPSet( cms.PSet( ClusterShapeCacheSrc = cms.InputTag("siPixelClusterShapeCache"), ClusterShapeHitFilterName = cms.string('tobTecStepClusterShapeHitFilter'), ComponentName = cms.string('PixelClusterShapeSeedComparitor'), FilterAtHelixStage = cms.bool(True), FilterPixelHits = cms.bool(False), FilterStripHits = cms.bool(True) ), cms.PSet( ComponentName = cms.string('StripSubClusterShapeSeedFilter'), FilterAtHelixStage = cms.bool(False), label = cms.untracked.string('Seeds'), 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) ) ), mode = cms.string('and') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring( 'RegionsSeedingHitSets_tobTecStepHitTripletsTripl__RECO', 'BaseTrackerRecHitsOwned_tobTecStepHitTripletsTripl__RECO' ), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("tobTecStepHitTripletsTripl") ) process.tobTecStepTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('tobTecStepTrajectoryBuilder') ), TrajectoryCleaner = cms.string('tobTecStepTrajectoryCleanerBySharedHits'), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), cleanTrajectoryAfterInOut = cms.bool(True), clustersToSkip = cms.InputTag("tobTecStepClusters"), doSeedingRegionRebuilding = cms.bool(True), maxNSeeds = cms.uint32(500000), maxSeedsBeforeCleaning = cms.uint32(5000), numHitsForSeedCleaner = cms.int32(50), onlyPixelHitsForSeedCleaner = cms.bool(True), reverseTrajectories = cms.bool(False), src = cms.InputTag("tobTecStepSeeds"), useHitsSplitting = cms.bool(True) ) process.tobTecStepTrackingRegionsPair = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(7.5), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(0.7), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(True), originRadius = cms.double(6.0), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(2.0), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(35000), scalingStartNPix = cms.double(20000), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.tobTecStepTrackingRegionsTripl = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(5.0), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(0.7), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(True), originRadius = cms.double(3.5), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(2.0), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(35000), scalingStartNPix = cms.double(20000), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.tobTecStepTracks = cms.EDProducer("TrackProducer", AlgorithmName = cms.string('tobTecStep'), Fitter = cms.string('tobTecFlexibleKFFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('RungeKuttaTrackerPropagator'), SimpleMagneticField = cms.string(''), TTRHBuilder = cms.string('WithAngleAndTemplate'), TrajectoryInEvent = cms.bool(False), alias = cms.untracked.string('ctfWithMaterialTracks'), beamSpot = cms.InputTag("offlineBeamSpot"), clusterRemovalInfo = cms.InputTag(""), src = cms.InputTag("tobTecStepTrackCandidates"), useHitsSplitting = cms.bool(False), useSimpleMF = cms.bool(False) ) process.totemRPClusterProducer = cms.EDProducer("TotemRPClusterProducer", tagDigi = cms.InputTag("totemRPRawToDigi","TrackingStrip"), verbosity = cms.int32(0) ) process.totemRPLocalTrackFitter = cms.EDProducer("TotemRPLocalTrackFitter", tagUVPattern = cms.InputTag("totemRPUVPatternFinder"), verbosity = cms.int32(0) ) process.totemRPRawToDigi = cms.EDProducer("TotemVFATRawToDigi", RawToDigi = cms.PSet( BC_fraction = cms.untracked.double(0.6), BC_min = cms.untracked.uint32(10), EC_fraction = cms.untracked.double(0.6), EC_min = cms.untracked.uint32(10), printErrorSummary = cms.untracked.uint32(0), printUnknownFrameSummary = cms.untracked.uint32(0), testBCMostFrequent = cms.uint32(2), testCRC = cms.uint32(2), testECMostFrequent = cms.uint32(2), testFootprint = cms.uint32(2), testID = cms.uint32(2), verbosity = cms.untracked.uint32(0) ), RawUnpacking = cms.PSet( verbosity = cms.untracked.uint32(0) ), fedIds = cms.vuint32(), rawDataTag = cms.InputTag("rawDataMapperByLabel"), subSystem = cms.string('TrackingStrip') ) process.totemRPRecHitProducer = cms.EDProducer("TotemRPRecHitProducer", tagCluster = cms.InputTag("totemRPClusterProducer"), verbosity = cms.int32(0) ) process.totemRPUVPatternFinder = cms.EDProducer("TotemRPUVPatternFinder", allowAmbiguousCombination = cms.bool(False), clusterSize_a = cms.double(0.02), clusterSize_b = cms.double(0.3), exceptionalSettings = cms.VPSet(), maxHitsPerPlaneToSearch = cms.uint32(5), max_a_toFit = cms.double(10), minPlanesPerProjectionToFit = cms.uint32(3), minPlanesPerProjectionToSearch = cms.uint32(3), tagRecHit = cms.InputTag("totemRPRecHitProducer"), threshold = cms.double(2.99), verbosity = cms.untracked.uint32(0) ) process.totemTimingRawToDigi = cms.EDProducer("TotemVFATRawToDigi", RawToDigi = cms.PSet( printErrorSummary = cms.untracked.uint32(0), printUnknownFrameSummary = cms.untracked.uint32(0), testBCMostFrequent = cms.uint32(0), testCRC = cms.uint32(0), testECMostFrequent = cms.uint32(0), testFootprint = cms.uint32(0), testID = cms.uint32(0), verbosity = cms.untracked.uint32(0) ), RawUnpacking = cms.PSet( verbosity = cms.untracked.uint32(0) ), fedIds = cms.vuint32(), rawDataTag = cms.InputTag("rawDataMapperByLabel"), subSystem = cms.string('TotemTiming') ) process.totemTimingRecHits = cms.EDProducer("TotemTimingRecHitProducer", baselinePoints = cms.int32(8), calibrationFile = cms.string('/dev/null'), cfdFraction = cms.double(0.3), digiTag = cms.InputTag("totemTimingRawToDigi","TotemTiming"), hysteresis = cms.double(0.005), lowPassFrequency = cms.double(0.7), saturationLimit = cms.double(0.85), smoothingPoints = cms.int32(20) ) process.totemTriggerRawToDigi = cms.EDProducer("TotemTriggerRawToDigi", fedId = cms.uint32(0), rawDataTag = cms.InputTag("rawDataMapperByLabel") ) process.towerMaker = cms.EDProducer("CaloTowersCreator", AllowMissingInputs = cms.bool(False), EBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EBSumThreshold = cms.double(0.2), EBThreshold = cms.double(0.07), EBWeight = cms.double(1.0), EBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EEGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EESumThreshold = cms.double(0.45), EEThreshold = cms.double(0.3), EEWeight = cms.double(1.0), EEWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime', 'kWeird', 'kBad' ), EcalSeveritiesToBeUsedInBadTowers = cms.vstring(), EcutTower = cms.double(-1000.0), HBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HBThreshold = cms.double(0.7), HBThreshold1 = cms.double(0.7), HBThreshold2 = cms.double(0.7), HBWeight = cms.double(1.0), HBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HEDGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HEDThreshold = cms.double(0.2), HEDThreshold1 = cms.double(0.1), HEDWeight = cms.double(1.0), HEDWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HESGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HESThreshold = cms.double(0.2), HESThreshold1 = cms.double(0.1), HESWeight = cms.double(1.0), HESWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF1Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF1Threshold = cms.double(0.5), HF1Weight = cms.double(1.0), HF1Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF2Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF2Threshold = cms.double(0.85), HF2Weight = cms.double(1.0), HF2Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HOGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HOThreshold0 = cms.double(1.1), HOThresholdMinus1 = cms.double(3.5), HOThresholdMinus2 = cms.double(3.5), HOThresholdPlus1 = cms.double(3.5), HOThresholdPlus2 = cms.double(3.5), HOWeight = cms.double(1.0), HOWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), 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(True), UseRejectedHitsOnly = cms.bool(False), UseRejectedRecoveredEcalHits = cms.bool(False), UseRejectedRecoveredHcalHits = cms.bool(True), UseSymEBTreshold = cms.bool(True), UseSymEETreshold = cms.bool(True), ecalInputs = cms.VInputTag(cms.InputTag("ecalRecHit","EcalRecHitsEB"), cms.InputTag("ecalRecHit","EcalRecHitsEE")), hbheInput = cms.InputTag("hbhereco"), hfInput = cms.InputTag("hfreco"), hoInput = cms.InputTag("horeco"), missingHcalRescaleFactorForEcal = cms.double(0) ) process.towerMakerWithHO = cms.EDProducer("CaloTowersCreator", AllowMissingInputs = cms.bool(False), EBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EBSumThreshold = cms.double(0.2), EBThreshold = cms.double(0.07), EBWeight = cms.double(1.0), EBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EEGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), EESumThreshold = cms.double(0.45), EEThreshold = cms.double(0.3), EEWeight = cms.double(1.0), EEWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), EcalRecHitSeveritiesToBeExcluded = cms.vstring( 'kTime', 'kWeird', 'kBad' ), EcalSeveritiesToBeUsedInBadTowers = cms.vstring(), EcutTower = cms.double(-1000.0), HBGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HBThreshold = cms.double(0.7), HBThreshold1 = cms.double(0.7), HBThreshold2 = cms.double(0.7), HBWeight = cms.double(1.0), HBWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HEDGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HEDThreshold = cms.double(0.2), HEDThreshold1 = cms.double(0.1), HEDWeight = cms.double(1.0), HEDWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HESGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HESThreshold = cms.double(0.2), HESThreshold1 = cms.double(0.1), HESWeight = cms.double(1.0), HESWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF1Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF1Threshold = cms.double(0.5), HF1Weight = cms.double(1.0), HF1Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HF2Grid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HF2Threshold = cms.double(0.85), HF2Weight = cms.double(1.0), HF2Weights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), HOGrid = cms.vdouble(-1.0, 1.0, 10.0, 100.0, 1000.0), HOThreshold0 = cms.double(1.1), HOThresholdMinus1 = cms.double(3.5), HOThresholdMinus2 = cms.double(3.5), HOThresholdPlus1 = cms.double(3.5), HOThresholdPlus2 = cms.double(3.5), HOWeight = cms.double(1.0), HOWeights = cms.vdouble(1.0, 1.0, 1.0, 1.0, 1.0), 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(True), UseHcalRecoveredHits = cms.bool(True), UseRejectedHitsOnly = cms.bool(False), UseRejectedRecoveredEcalHits = cms.bool(False), UseRejectedRecoveredHcalHits = cms.bool(True), UseSymEBTreshold = cms.bool(True), UseSymEETreshold = cms.bool(True), ecalInputs = cms.VInputTag(cms.InputTag("ecalRecHit","EcalRecHitsEB"), cms.InputTag("ecalRecHit","EcalRecHitsEE")), hbheInput = cms.InputTag("hbhereco"), hfInput = cms.InputTag("hfreco"), hoInput = cms.InputTag("horeco"), missingHcalRescaleFactorForEcal = cms.double(0) ) process.tpClusterProducer = cms.EDProducer("ClusterTPAssociationProducer", phase2OTClusterSrc = cms.InputTag("siPhase2Clusters"), phase2OTSimLinkSrc = cms.InputTag("simSiPixelDigis","Tracker"), pixelClusterSrc = cms.InputTag("siPixelClusters"), pixelSimLinkSrc = cms.InputTag("simSiPixelDigis"), simTrackSrc = cms.InputTag("g4SimHits"), stripClusterSrc = cms.InputTag("siStripClusters"), stripSimLinkSrc = cms.InputTag("simSiStripDigis"), trackingParticleSrc = cms.InputTag("mix","MergedTrackTruth") ) process.trackClusterRemover = cms.EDProducer("TrackClusterRemover", TrackQuality = cms.string('highPurity'), maxChi2 = cms.double(30), minNumberOfLayersWithMeasBeforeFiltering = cms.int32(0), oldClusterRemovalInfo = cms.InputTag(""), overrideTrkQuals = cms.InputTag(""), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trackClassifier = cms.InputTag("","QualityMasks"), trajectories = cms.InputTag("") ) process.trackCountingHighEffBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('trackCounting3D2ndComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.trackCountingHighPurBJetTags = cms.EDProducer("JetTagProducer", jetTagComputer = cms.string('trackCounting3D3rdComputer'), tagInfos = cms.VInputTag(cms.InputTag("impactParameterTagInfos")) ) process.trackExtrapolator = cms.EDProducer("TrackExtrapolator", trackQuality = cms.string('goodIterative'), trackSrc = cms.InputTag("generalTracks") ) process.trackRefsForJets = cms.EDProducer("ChargedRefCandidateProducer", particleType = cms.string('pi+'), src = cms.InputTag("trackWithVertexRefSelector") ) process.trackRefsForJetsBeforeSorting = cms.EDProducer("ChargedRefCandidateProducer", particleType = cms.string('pi+'), src = cms.InputTag("trackWithVertexRefSelectorBeforeSorting") ) process.trackRefsForJetsBeforeSorting4D = cms.EDProducer("ChargedRefCandidateProducer", particleType = cms.string('pi+'), src = cms.InputTag("trackWithVertexRefSelectorBeforeSorting4D") ) process.trackTimeValueMapProducer = cms.EDProducer("TrackTimeValueMapProducer", associators = cms.VInputTag(cms.InputTag("quickTrackAssociatorByHits")), etaMax = cms.double(3.0), etaMaxForPtThreshold = cms.double(1.5), etaMin = cms.double(-1.0), pMin = cms.double(0.7), pileupSummaryInfo = cms.InputTag("addPileupInfo"), ptMin = cms.double(0.7), resolutionModels = cms.VPSet( cms.PSet( modelName = cms.string('ConfigurableFlatResolutionModel'), resolutionInNs = cms.double(0.03) ), cms.PSet( modelName = cms.string('PerfectResolutionModel') ) ), trackSrc = cms.InputTag("generalTracks"), trackingParticleSrc = cms.InputTag("mix","MergedTrackTruth"), trackingVertexSrc = cms.InputTag("mix","MergedTrackTruth") ) process.trackVertexArbitrator = cms.EDProducer("TrackVertexArbitrator", beamSpot = cms.InputTag("offlineBeamSpot"), dLenFraction = cms.double(0.333), dRCut = cms.double(0.4), distCut = cms.double(0.04), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxTimeSignificance = cms.double(3.5), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("vertexMerger"), sigCut = cms.double(5), trackMinLayers = cms.int32(4), trackMinPixels = cms.int32(1), trackMinPt = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.trackVertexArbitratorDefault = cms.EDProducer("TrackVertexArbitrator", beamSpot = cms.InputTag("offlineBeamSpot"), dLenFraction = cms.double(0.333), dRCut = cms.double(0.4), distCut = cms.double(0.04), fitterRatio = cms.double(0.25), fitterSigmacut = cms.double(3), fitterTini = cms.double(256), maxTimeSignificance = cms.double(3.5), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("vertexMerger"), sigCut = cms.double(5), trackMinLayers = cms.int32(4), trackMinPixels = cms.int32(1), trackMinPt = cms.double(0.4), tracks = cms.InputTag("generalTracks") ) process.trackWithVertexRefSelector = cms.EDProducer("TrackWithVertexRefSelector", 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), nVertices = cms.uint32(0), normalizedChi2 = cms.double(999999.0), numberOfLostHits = cms.uint32(999), numberOfValidHits = cms.uint32(0), numberOfValidPixelHits = cms.uint32(0), ptErrorCut = cms.double(0.2), ptMax = cms.double(500.0), ptMin = cms.double(0.3), quality = cms.string('highPurity'), rhoVtx = cms.double(0.2), src = cms.InputTag("generalTracks"), timeResosTag = cms.InputTag(""), timesTag = cms.InputTag(""), useVtx = cms.bool(True), vertexTag = cms.InputTag("offlinePrimaryVertices"), vtxFallback = cms.bool(True), zetaVtx = cms.double(1.0) ) process.trackWithVertexRefSelectorBeforeSorting = cms.EDProducer("TrackWithVertexRefSelector", 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), nVertices = cms.uint32(0), normalizedChi2 = cms.double(999999.0), numberOfLostHits = cms.uint32(999), numberOfValidHits = cms.uint32(0), numberOfValidPixelHits = cms.uint32(0), ptErrorCut = cms.double(9e+99), ptMax = cms.double(9e+99), ptMin = cms.double(0.3), quality = cms.string('highPurity'), rhoVtx = cms.double(0.2), src = cms.InputTag("generalTracks"), timeResosTag = cms.InputTag(""), timesTag = cms.InputTag(""), useVtx = cms.bool(True), vertexTag = cms.InputTag("unsortedOfflinePrimaryVertices"), vtxFallback = cms.bool(True), zetaVtx = cms.double(1.0) ) process.trackWithVertexRefSelectorBeforeSorting4D = cms.EDProducer("TrackWithVertexRefSelector", 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), nVertices = cms.uint32(0), normalizedChi2 = cms.double(999999.0), numberOfLostHits = cms.uint32(999), numberOfValidHits = cms.uint32(0), numberOfValidPixelHits = cms.uint32(0), ptErrorCut = cms.double(9e+99), ptMax = cms.double(9e+99), ptMin = cms.double(0.3), quality = cms.string('highPurity'), rhoVtx = cms.double(0.2), src = cms.InputTag("generalTracks"), timeResosTag = cms.InputTag(""), timesTag = cms.InputTag(""), useVtx = cms.bool(True), vertexTag = cms.InputTag("unsortedOfflinePrimaryVertices4D"), vtxFallback = cms.bool(True), zetaVtx = cms.double(1.0) ) process.trackerClusterCheck = cms.EDProducer("ClusterCheckerEDProducer", ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(150000), PixelClusterCollectionLabel = cms.InputTag("siPixelClusters"), cut = cms.string('strip < 1000000 && pixel < 150000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True), silentClusterCheck = cms.untracked.bool(False) ) process.trackerClusterCheckPreSplitting = cms.EDProducer("ClusterCheckerEDProducer", ClusterCollectionLabel = cms.InputTag("siStripClusters"), MaxNumberOfCosmicClusters = cms.uint32(400000), MaxNumberOfPixelClusters = cms.uint32(150000), PixelClusterCollectionLabel = cms.InputTag("siPixelClustersPreSplitting"), cut = cms.string('strip < 1000000 && pixel < 150000 && (strip < 50000 + 10*pixel) && (pixel < 5000 + strip/2.)'), doClusterCheck = cms.bool(True), silentClusterCheck = cms.untracked.bool(False) ) process.trackerDrivenElectronSeeds = cms.EDProducer("GoodSeedProducer", ApplyIsolation = cms.bool(False), ClusterThreshold = cms.double(0.5), EOverPLead_minValue = cms.double(0.95), 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), EtaMap = cms.string('RecoParticleFlow/PFBlockProducer/data/resmap_ECAL_eta.dat'), Fitter = cms.string('GsfTrajectoryFitter_forPreId'), HOverPLead_maxValue = cms.double(0.05), HcalWindow = cms.double(0.184), MaxEOverP = cms.double(3.0), MaxEta = cms.double(2.4), MaxPt = cms.double(50.0), MinEOverP = cms.double(0.3), MinPt = cms.double(5.0), Min_dr = cms.double(0.2), NHitsInSeed = cms.int32(3), PFEcalClusterLabel = cms.InputTag("particleFlowClusterECAL"), PFHcalClusterLabel = cms.InputTag("particleFlowClusterHCAL"), PFPSClusterLabel = cms.InputTag("particleFlowClusterPS"), PSThresholdFile = cms.string('RecoParticleFlow/PFTracking/data/PSThreshold.dat'), PhiMap = cms.string('RecoParticleFlow/PFBlockProducer/data/resmap_ECAL_phi.dat'), PreCkfLabel = cms.string('SeedsForCkf'), PreGsfLabel = cms.string('SeedsForGsf'), PreIdLabel = cms.string('preid'), ProducePreId = cms.untracked.bool(True), PtThresholdSavePreId = cms.untracked.double(1.0), Smoother = cms.string('GsfTrajectorySmoother_forPreId'), TMVAMethod = cms.string('BDT'), TTRHBuilder = cms.string('WithAngleAndTemplate'), ThresholdFile = cms.string('RecoParticleFlow/PFTracking/data/Threshold.dat'), TkColList = cms.VInputTag(cms.InputTag("generalTracks")), TrackQuality = cms.string('highPurity'), UsePreShower = cms.bool(False), UseQuality = cms.bool(True), UseTMVA = cms.untracked.bool(True), Weights1 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat1.xml'), Weights2 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat2.xml'), Weights3 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat3.xml'), Weights4 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat4.xml'), Weights5 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat5.xml'), Weights6 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat6.xml'), Weights7 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat7.xml'), Weights8 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat8.xml'), Weights9 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat9.xml') ) process.trackerDrivenElectronSeedsTmp = cms.EDProducer("GoodSeedProducer", ApplyIsolation = cms.bool(False), ClusterThreshold = cms.double(0.5), EOverPLead_minValue = cms.double(0.95), 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), EtaMap = cms.string('RecoParticleFlow/PFBlockProducer/data/resmap_ECAL_eta.dat'), Fitter = cms.string('GsfTrajectoryFitter_forPreId'), HOverPLead_maxValue = cms.double(0.05), HcalWindow = cms.double(0.184), MaxEOverP = cms.double(3.0), MaxEta = cms.double(2.4), MaxPt = cms.double(50.0), MinEOverP = cms.double(0.3), MinPt = cms.double(5.0), Min_dr = cms.double(0.2), NHitsInSeed = cms.int32(3), PFEcalClusterLabel = cms.InputTag("particleFlowClusterECAL"), PFHcalClusterLabel = cms.InputTag("particleFlowClusterHCAL"), PFPSClusterLabel = cms.InputTag("particleFlowClusterPS"), PSThresholdFile = cms.string('RecoParticleFlow/PFTracking/data/PSThreshold.dat'), PhiMap = cms.string('RecoParticleFlow/PFBlockProducer/data/resmap_ECAL_phi.dat'), PreCkfLabel = cms.string('SeedsForCkf'), PreGsfLabel = cms.string('SeedsForGsf'), PreIdLabel = cms.string('preid'), ProducePreId = cms.untracked.bool(True), PtThresholdSavePreId = cms.untracked.double(1.0), Smoother = cms.string('GsfTrajectorySmoother_forPreId'), TMVAMethod = cms.string('BDT'), TTRHBuilder = cms.string('WithAngleAndTemplate'), ThresholdFile = cms.string('RecoParticleFlow/PFTracking/data/Threshold.dat'), TkColList = cms.VInputTag(cms.InputTag("generalTracksBeforeMixing")), TrackQuality = cms.string('highPurity'), UsePreShower = cms.bool(False), UseQuality = cms.bool(True), UseTMVA = cms.untracked.bool(True), Weights1 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat1.xml'), Weights2 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat2.xml'), Weights3 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat3.xml'), Weights4 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat4.xml'), Weights5 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat5.xml'), Weights6 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat6.xml'), Weights7 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat7.xml'), Weights8 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat8.xml'), Weights9 = cms.string('RecoParticleFlow/PFTracking/data/MVA_BDTTrackDrivenSeed_cat9.xml') ) process.tripletElectronClusterMask = cms.EDProducer("SeedClusterRemover", Common = cms.PSet( maxChi2 = cms.double(9.0) ), oldClusterRemovalInfo = cms.InputTag("pixelLessStepSeedClusterMask"), pixelClusters = cms.InputTag("siPixelClusters"), stripClusters = cms.InputTag("siStripClusters"), trajectories = cms.InputTag("tripletElectronSeeds") ) process.tripletElectronHitDoublets = cms.EDProducer("HitPairEDProducer", clusterCheck = cms.InputTag("trackerClusterCheck"), layerPairs = cms.vuint32(0), maxElement = cms.uint32(0), produceIntermediateHitDoublets = cms.bool(True), produceSeedingHitSets = cms.bool(False), seedingLayers = cms.InputTag("tripletElectronSeedLayers"), trackingRegions = cms.InputTag("tripletElectronTrackingRegions"), trackingRegionsSeedingLayers = cms.InputTag("") ) process.tripletElectronHitTriplets = cms.EDProducer("PixelTripletHLTEDProducer", SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), doublets = cms.InputTag("tripletElectronHitDoublets"), extraHitRPhitolerance = cms.double(0.032), extraHitRZtolerance = cms.double(0.037), maxElement = cms.uint32(1000000), mightGet = cms.untracked.vstring('IntermediateHitDoublets_tripletElectronHitDoublets__RECO'), 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.tripletElectronSeedLayers = cms.EDProducer("SeedingLayersEDProducer", BPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('TTRHBuilderWithoutAngle4PixelTriplets'), skipClusters = cms.InputTag("pixelLessStepSeedClusterMask") ), FPix = cms.PSet( HitProducer = cms.string('siPixelRecHits'), TTRHBuilder = cms.string('TTRHBuilderWithoutAngle4PixelTriplets'), skipClusters = cms.InputTag("pixelLessStepSeedClusterMask") ), 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', 'BPix1+BPix3+FPix1_pos', 'BPix1+BPix3+FPix1_neg', 'BPix2+FPix1_pos+FPix2_pos', 'BPix2+FPix1_neg+FPix2_neg', 'BPix1+FPix1_pos+FPix2_pos', 'BPix1+FPix1_neg+FPix2_neg', 'BPix1+BPix2+FPix2_pos', 'BPix1+BPix2+FPix2_neg', 'FPix1_pos+FPix2_pos+FPix3_pos', 'FPix1_neg+FPix2_neg+FPix3_neg', 'BPix1+FPix2_pos+FPix3_pos', 'BPix1+FPix2_neg+FPix3_neg', 'BPix1+FPix1_pos+FPix3_pos', 'BPix1+FPix1_neg+FPix3_neg' ) ) process.tripletElectronSeeds = cms.EDProducer("SeedCreatorFromRegionConsecutiveHitsEDProducer", MinOneOverPtError = cms.double(1), OriginTransverseErrorMultiplier = cms.double(1), SeedComparitorPSet = cms.PSet( ComponentName = cms.string('none') ), SeedMomentumForBOFF = cms.double(5), TTRHBuilder = cms.string('WithTrackAngle'), forceKinematicWithRegionDirection = cms.bool(False), magneticField = cms.string('ParabolicMf'), mightGet = cms.untracked.vstring( 'RegionsSeedingHitSets_tripletElectronHitTriplets__RECO', 'IntermediateHitDoublets_tripletElectronHitDoublets__RECO' ), propagator = cms.string('PropagatorWithMaterialParabolicMf'), seedingHitSets = cms.InputTag("tripletElectronHitTriplets") ) process.tripletElectronTrackingRegions = cms.EDProducer("GlobalTrackingRegionWithVerticesEDProducer", RegionPSet = cms.PSet( VertexCollection = cms.InputTag("firstStepPrimaryVertices"), beamSpot = cms.InputTag("offlineBeamSpot"), fixedError = cms.double(0.5), halfLengthScaling4BigEvts = cms.bool(False), maxNVertices = cms.int32(-1), maxPtMin = cms.double(1000), minHalfLength = cms.double(0), minOriginR = cms.double(0), nSigmaZ = cms.double(4), originRScaling4BigEvts = cms.bool(False), originRadius = cms.double(0.02), pixelClustersForScaling = cms.InputTag("siPixelClusters"), precise = cms.bool(True), ptMin = cms.double(8.0), ptMinScaling4BigEvts = cms.bool(False), scalingEndNPix = cms.double(1), scalingStartNPix = cms.double(0), sigmaZVertex = cms.double(4.0), useFakeVertices = cms.bool(False), useFixedError = cms.bool(True), useFoundVertices = cms.bool(True), useMultipleScattering = cms.bool(False) ) ) process.twinMuxStage2Digis = cms.EDProducer("L1TTwinMuxRawToDigi", DTTM7_FED_Source = cms.InputTag("rawDataMapperByLabel"), amcsecmap = cms.untracked.vint64(20015998343868, 20015998343868, 20015998343868, 20015998343868, 20015998343868), debug = cms.untracked.bool(False), feds = cms.untracked.vint32(1395, 1391, 1390, 1393, 1394), wheels = cms.untracked.vint32(-2, -1, 0, 1, 2) ) process.uncleanedHybridSuperClusters = cms.EDProducer("HybridClusterProducer", HybridBarrelSeedThr = cms.double(1.0), RecHitFlagToBeExcluded = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitSeverityToBeExcluded = cms.vstring(), basicclusterCollection = cms.string('hybridBarrelBasicClusters'), clustershapecollection = cms.string(''), dynamicEThresh = cms.bool(False), dynamicPhiRoad = cms.bool(False), eThreshA = cms.double(0.003), eThreshB = cms.double(0.1), eseed = cms.double(0.35), ethresh = cms.double(0.1), ewing = cms.double(0.0), excludeFlagged = cms.bool(False), 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) ), recHitsCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), shapeAssociation = cms.string('hybridShapeAssoc'), step = cms.int32(17), superclusterCollection = cms.string(''), useEtForXi = cms.bool(True), xi = cms.double(0.0) ) process.uncleanedOnlyAllConversions = cms.EDProducer("ConversionProducer", AlgorithmName = cms.string('mixed'), AllowD0 = cms.bool(True), AllowDeltaCot = cms.bool(True), AllowDeltaPhi = cms.bool(False), AllowMinApproach = cms.bool(True), AllowOppCharge = cms.bool(True), AllowRightBC = cms.bool(False), AllowSingleLeg = cms.bool(False), AllowTrackBC = cms.bool(False), AllowVertex = cms.bool(True), DeltaCotTheta = cms.double(0.1), DeltaPhi = cms.double(0.2), EnergyBC = cms.double(0.3), EnergyTotalBC = cms.double(0.3), HalfwayEta = cms.double(0.1), MaxChi2Left = cms.double(10.0), MaxChi2Right = cms.double(10.0), MinApproachHigh = cms.double(1.0), MinApproachLow = cms.double(-0.25), MinHitsLeft = cms.int32(4), MinHitsRight = cms.int32(2), UsePvtx = cms.bool(True), bcBarrelCollection = cms.InputTag("hybridSuperClusters","uncleanOnlyHybridSuperClusters"), bcEndcapCollection = cms.InputTag("multi5x5SuperClusters","uncleanOnlyMulti5x5EndcapBasicClusters"), bypassPreselEcal = cms.bool(False), bypassPreselEcalEcal = cms.bool(True), bypassPreselGsf = cms.bool(True), convertedPhotonCollection = cms.string(''), d0 = cms.double(0.0), dEtaTrackBC = cms.double(0.2), dEtacutForSCmatching = cms.double(0.03), dPhiTrackBC = cms.double(1.0), dPhicutForSCmatching = cms.double(0.05), deltaEta = cms.double(0.4), dz = cms.double(5.0), maxDelta = cms.double(0.01), maxNbrOfIterations = cms.int32(40), maxNumOfTrackInPU = cms.int32(999999), maxReducedChiSq = cms.double(225.0), maxTrackRho = cms.double(120.0), maxTrackZ = cms.double(300.0), minChiSqImprovement = cms.double(50.0), minSCEt = cms.double(10.0), primaryVertexProducer = cms.InputTag("offlinePrimaryVerticesWithBS"), rCut = cms.double(2.0), scBarrelProducer = cms.InputTag("uncleanedOnlyCorrectedHybridSuperClusters"), scEndcapProducer = cms.InputTag("uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower"), src = cms.InputTag("uncleanedOnlyGsfGeneralInOutOutInConversionTrackMerger"), vtxChi2 = cms.double(0.0005) ) process.uncleanedOnlyCkfInOutTracksFromConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('inOutEcalSeededConv'), ComponentName = cms.string('uncleanedOnlyCkfInOutTracksFromConversions'), Fitter = cms.string('KFFittingSmootherForInOut'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('uncleanedOnlyConversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('inOutTrackSCAssociationCollection'), src = cms.InputTag("uncleanedOnlyConversionTrackCandidates","inOutTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection') ) process.uncleanedOnlyCkfOutInTracksFromConversions = cms.EDProducer("TrackProducerWithSCAssociation", AlgorithmName = cms.string('outInEcalSeededConv'), ComponentName = cms.string('uncleanedOnlyCkfOutInTracksFromConversions'), Fitter = cms.string('KFFitterForOutIn'), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('alongMomElePropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string('uncleanedOnlyConversionTrackCandidates'), recoTrackSCAssociationCollection = cms.string('outInTrackSCAssociationCollection'), src = cms.InputTag("uncleanedOnlyConversionTrackCandidates","outInTracksFromConversions"), trackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection') ) process.uncleanedOnlyConversionTrackCandidates = cms.EDProducer("ConversionTrackCandidateProducer", InOutRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), MeasurementTrackerName = cms.string(''), MissingHitPenalty = cms.double(20.0), OutInRedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), RecHitFlagToBeExcludedEB = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), RecHitFlagToBeExcludedEE = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), RecHitSeverityToBeExcludedEB = cms.vstring( 'kWeird', 'kBad', 'kTime' ), RecHitSeverityToBeExcludedEE = cms.vstring( 'kWeird', 'kBad', 'kTime' ), TrajectoryBuilder = cms.string('TrajectoryBuilderForConversions'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForConversions') ), TransientInitialStateEstimatorParameters = cms.PSet( numberMeasurementsForFit = cms.int32(4), propagatorAlongTISE = cms.string('alongMomElePropagator'), propagatorOppositeTISE = cms.string('oppositeToMomElePropagator') ), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), barrelEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEB"), bcBarrelCollection = cms.InputTag("hybridSuperClusters","uncleanOnlyHybridSuperClusters"), bcECut = cms.double(1.5), bcEndcapCollection = cms.InputTag("multi5x5SuperClusters","uncleanOnlyMulti5x5EndcapBasicClusters"), bcEtCut = cms.double(1.5), ecalIsoCut_offset = cms.double(999999999), ecalIsoCut_slope = cms.double(0.0), endcapEcalRecHitCollection = cms.InputTag("ecalRecHit","EcalRecHitsEE"), fractionShared = cms.double(0.5), hOverEConeSize = cms.double(0.15), hcalTowers = cms.InputTag("towerMaker"), inOutTrackCandidateCollection = cms.string('inOutTracksFromConversions'), inOutTrackCandidateSCAssociationCollection = cms.string('inOutTrackCandidateSCAssociationCollection'), isoConeR = cms.double(0.4), isoEMin = cms.double(0.08), isoEtMin = cms.double(0.0), isoEtaSlice = cms.double(2.5), isoInnerConeR = cms.double(3.5), maxHOverE = cms.double(0.15), maxNumOfSeedsInOut = cms.int32(50), maxNumOfSeedsOutIn = cms.int32(50), minSCEt = cms.double(20.0), outInTrackCandidateCollection = cms.string('outInTracksFromConversions'), outInTrackCandidateSCAssociationCollection = cms.string('outInTrackCandidateSCAssociationCollection'), scHybridBarrelProducer = cms.InputTag("uncleanedOnlyCorrectedHybridSuperClusters"), scIslandEndcapProducer = cms.InputTag("uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower"), useEtCut = cms.bool(True), useHitsSplitting = cms.bool(False), useNumXstals = cms.bool(True), vetoClusteredHits = cms.bool(False) ) process.uncleanedOnlyCorrectedHybridSuperClusters = cms.EDProducer("EgammaSCCorrectionMaker", applyCrackCorrection = cms.bool(True), applyEnergyCorrection = cms.bool(True), applyLocalContCorrection = cms.bool(True), corectedSuperClusterCollection = cms.string(''), crackCorrectorName = cms.string('EcalClusterCrackCorrection'), energyCorrectorName = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), etThresh = cms.double(0.0), hyb_fCorrPset = cms.PSet( brLinearHighThr = cms.double(8.0), brLinearLowThr = cms.double(1.1), fBremVec = cms.vdouble(-0.04382, 0.1169, 0.9267, -0.0009413, 1.419), fEtEtaVec = cms.vdouble( 0, 1.00121, -0.63672, 0, 0, 0, 0.5655, 6.457, 0.5081, 8.0, 1.023, -0.00181 ) ), localContCorrectorName = cms.string('EcalBasicClusterLocalContCorrection'), modeEB = cms.int32(0), modeEE = cms.int32(0), rawSuperClusterProducer = cms.InputTag("hybridSuperClusters","uncleanOnlyHybridSuperClusters"), recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEB"), sigmaElectronicNoise = cms.double(0.03), superClusterAlgo = cms.string('Hybrid') ) process.uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower = cms.EDProducer("EgammaSCCorrectionMaker", VerbosityLevel = cms.string('ERROR'), applyCrackCorrection = cms.bool(True), applyEnergyCorrection = cms.bool(True), applyLocalContCorrection = cms.bool(False), corectedSuperClusterCollection = cms.string(''), crackCorrectorName = cms.string('EcalClusterCrackCorrection'), energyCorrectorName = cms.string('EcalClusterEnergyCorrectionObjectSpecific'), etThresh = cms.double(0.0), fix_fCorrPset = cms.PSet( brLinearHighThr = cms.double(6.0), brLinearLowThr = cms.double(0.9), fBremVec = cms.vdouble(-0.05228, 0.08738, 0.9508, 0.002677, 1.221), fEtEtaVec = cms.vdouble( 1, -0.4386, -32.38, 0.6372, 15.67, -0.0928, -2.462, 1.138, 20.93 ) ), localContCorrectorName = cms.string('EcalBasicClusterLocalContCorrection'), modeEB = cms.int32(0), modeEE = cms.int32(0), rawSuperClusterProducer = cms.InputTag("uncleanedOnlyMulti5x5SuperClustersWithPreshower"), recHitProducer = cms.InputTag("ecalRecHit","EcalRecHitsEE"), sigmaElectronicNoise = cms.double(0.15), superClusterAlgo = cms.string('Multi5x5') ) process.uncleanedOnlyElectronCkfTrackCandidates = cms.EDProducer("CkfTrackCandidateMaker", MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), RedundantSeedCleaner = cms.string('CachingSeedCleanerBySharedInput'), SimpleMagneticField = cms.string(''), TrajectoryBuilder = cms.string('GroupedCkfTrajectoryBuilder'), TrajectoryBuilderPSet = cms.PSet( refToPSet_ = cms.string('TrajectoryBuilderForElectrons') ), TrajectoryCleaner = cms.string('electronTrajectoryCleanerBySharedHits'), 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(500000), maxSeedsBeforeCleaning = cms.uint32(5000), reverseTrajectories = cms.bool(False), src = cms.InputTag("uncleanedOnlyElectronSeeds"), useHitsSplitting = cms.bool(True) ) process.uncleanedOnlyElectronGsfTracks = cms.EDProducer("GsfTrackProducer", AlgorithmName = cms.string('gsf'), Fitter = cms.string('GsfElectronFittingSmoother'), GeometricInnerState = cms.bool(False), MeasurementTracker = cms.string(''), MeasurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), NavigationSchool = cms.string('SimpleNavigationSchool'), Propagator = cms.string('fwdGsfElectronPropagator'), TTRHBuilder = cms.string('WithTrackAngle'), TrajectoryInEvent = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), producer = cms.string(''), src = cms.InputTag("uncleanedOnlyElectronCkfTrackCandidates"), useHitsSplitting = cms.bool(False) ) process.uncleanedOnlyElectronSeeds = cms.EDProducer("ElectronSeedProducer", SeedConfiguration = cms.PSet( DeltaPhi1High = cms.double(0.08), DeltaPhi1Low = cms.double(0.23), DeltaPhi2B = cms.double(0.008), DeltaPhi2F = cms.double(0.012), HGCalConfig = cms.PSet( HGCBHInput = cms.InputTag("HGCalRecHit","HGCHEBRecHits"), HGCEEInput = cms.InputTag("HGCalRecHit","HGCEERecHits"), HGCFHInput = cms.InputTag("HGCalRecHit","HGCHEFRecHits") ), HighPtThreshold = cms.double(35.0), LowPtThreshold = cms.double(5.0), PhiMax2B = cms.double(0.002), PhiMax2F = cms.double(0.003), PhiMin2B = cms.double(-0.002), PhiMin2F = cms.double(-0.003), SCEtCut = cms.double(15.0), SizeWindowENeg = cms.double(0.675), allowHGCal = cms.bool(False), applyHOverECut = cms.bool(True), applySigmaIEtaIEtaCut = cms.bool(False), beamSpot = cms.InputTag("offlineBeamSpot"), deltaZ1WithVertex = cms.double(25.0), dynamicPhiRoad = cms.bool(True), ePhiMax1 = cms.double(0.075), ePhiMin1 = cms.double(-0.125), fromTrackerSeeds = cms.bool(True), hOverEConeSize = cms.double(0.15), hOverEHBMinE = cms.double(0.7), hOverEHFMinE = cms.double(0.8), hOverEPtMin = cms.double(0.0), hcalRecHits = cms.InputTag("hbhereco"), hcalTowers = cms.InputTag("towerMaker"), initialSeeds = cms.InputTag("newCombinedSeeds"), maxHBarrel = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEEndcaps = cms.double(0.15), maxSigmaIEtaIEtaBarrel = cms.double(0.5), maxSigmaIEtaIEtaEndcaps = cms.double(0.5), measurementTrackerEvent = cms.InputTag("MeasurementTrackerEvent"), measurementTrackerName = cms.string(''), nSigmasDeltaZ1 = cms.double(5.0), pPhiMax1 = cms.double(0.125), pPhiMin1 = cms.double(-0.075), preFilteredSeeds = cms.bool(False), r2MaxF = cms.double(0.15), r2MinF = cms.double(-0.15), rMaxI = cms.double(0.2), rMinI = cms.double(-0.2), searchInTIDTEC = cms.bool(True), useRecoVertex = cms.bool(False), vertices = cms.InputTag("offlinePrimaryVerticesWithBS"), z2MaxB = cms.double(0.09), z2MinB = cms.double(-0.09) ), barrelSuperClusters = cms.InputTag("uncleanedOnlyCorrectedHybridSuperClusters"), endcapSuperClusters = cms.InputTag("uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower") ) process.uncleanedOnlyGeneralConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('generalTracks'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(False), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(True), useTrajectory = cms.bool(False) ) process.uncleanedOnlyGeneralInOutOutInConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("uncleanedOnlyInOutOutInConversionTrackMerger"), TrackProducer2 = cms.InputTag("uncleanedOnlyGeneralConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(2), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.uncleanedOnlyGsfConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('uncleanedOnlyElectronGsfTracks'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(False), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(False), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(False), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.uncleanedOnlyGsfElectronCores = cms.EDProducer("GsfElectronCoreEcalDrivenProducer", ctfTracks = cms.InputTag("generalTracks"), gsfPfRecTracks = cms.InputTag("uncleanedOnlyPfTrackElec"), gsfTracks = cms.InputTag("uncleanedOnlyElectronGsfTracks"), useGsfPfRecTracks = cms.bool(True) ) process.uncleanedOnlyGsfElectrons = cms.EDProducer("GsfElectronEcalDrivenProducer", ElecMVAFilesString = cms.vstring( 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_10_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_12_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_20_17Feb2011.weights.xml', 'RecoEgamma/ElectronIdentification/data/TMVA_Category_BDTSimpleCat_22_17Feb2011.weights.xml' ), MaxElePtForOnlyMVA = cms.double(50.0), PreSelectMVA = cms.double(-0.1), SoftElecMVAFilesString = cms.vstring('RecoEgamma/ElectronIdentification/data/TMVA_BDTSoftElectrons_9Dec2013.weights.xml'), TransientInitialStateEstimatorParameters = cms.PSet( propagatorAlongTISE = cms.string('PropagatorWithMaterial'), propagatorOppositeTISE = cms.string('PropagatorWithMaterialOpposite') ), addPflowElectrons = cms.bool(True), ambClustersOverlapStrategy = cms.uint32(1), ambSortingStrategy = cms.uint32(1), applyAmbResolution = cms.bool(False), applyPreselection = cms.bool(False), barrelRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEB"), beamSpotTag = cms.InputTag("offlineBeamSpot"), checkHcalStatus = cms.bool(True), combinationRegressionWeightFile = cms.vstring(), combinationRegressionWeightLabels = cms.vstring(), combinationWeightsFromDB = cms.bool(True), crackCorrectionFunction = cms.string('EcalClusterCrackCorrection'), ctfTracksCheck = cms.bool(True), ctfTracksTag = cms.InputTag("generalTracks"), eMinBarrel = cms.double(0.095), eMinEndcaps = cms.double(0.0), ecalDrivenEcalEnergyFromClassBasedParameterization = cms.bool(True), ecalDrivenEcalErrorFromClassBasedParameterization = cms.bool(True), ecalRefinedRegressionWeightFiles = cms.vstring(), ecalRefinedRegressionWeightLabels = cms.vstring(), ecalWeightsFromDB = cms.bool(True), endcapRecHitCollectionTag = cms.InputTag("ecalRecHit","EcalRecHitsEE"), etMinBarrel = cms.double(0.0), etMinEndcaps = cms.double(0.11), etMinHcal = cms.double(0.0), gedElectronMode = cms.bool(False), gsfElectronCoresTag = cms.InputTag("uncleanedOnlyGsfElectronCores"), gsfPfRecTracksTag = cms.InputTag("uncleanedOnlyPfTrackElec"), hOverEConeSize = cms.double(0.15), hOverEConeSizePflow = cms.double(0.15), hOverEPtMin = cms.double(0.0), hOverEPtMinPflow = cms.double(0.0), hcalTowers = cms.InputTag("towerMaker"), intRadiusEcalBarrel = cms.double(3.0), intRadiusEcalEndcaps = cms.double(3.0), intRadiusHcal = cms.double(0.15), isBarrel = cms.bool(False), isBarrelPflow = cms.bool(False), isEndcaps = cms.bool(False), isEndcapsPflow = cms.bool(False), isFiducial = cms.bool(False), isFiducialPflow = cms.bool(False), jurassicWidth = cms.double(1.5), maxDeltaEtaBarrel = cms.double(0.02), maxDeltaEtaBarrelPflow = cms.double(999999999.0), maxDeltaEtaEndcaps = cms.double(0.02), maxDeltaEtaEndcapsPflow = cms.double(999999999.0), maxDeltaPhiBarrel = cms.double(0.15), maxDeltaPhiBarrelPflow = cms.double(999999999.0), maxDeltaPhiEndcaps = cms.double(0.15), maxDeltaPhiEndcapsPflow = cms.double(999999999.0), maxEOverPBarrel = cms.double(999999999.0), maxEOverPBarrelPflow = cms.double(999999999.0), maxEOverPEndcaps = cms.double(999999999.0), maxEOverPEndcapsPflow = cms.double(999999999.0), maxFbremBarrel = cms.double(999999999.0), maxFbremBarrelPflow = cms.double(999999999.0), maxFbremEndcaps = cms.double(999999999.0), maxFbremEndcapsPflow = cms.double(999999999.0), maxHBarrel = cms.double(0.0), maxHBarrelPflow = cms.double(0.0), maxHEndcaps = cms.double(0.0), maxHEndcapsPflow = cms.double(0.0), maxHOverEBarrel = cms.double(0.15), maxHOverEBarrelPflow = cms.double(999999999.0), maxHOverEEndcaps = cms.double(0.15), maxHOverEEndcapsPflow = cms.double(999999999.0), maxSigmaIetaIetaBarrel = cms.double(999999999.0), maxSigmaIetaIetaBarrelPflow = cms.double(999999999.0), maxSigmaIetaIetaEndcaps = cms.double(999999999.0), maxSigmaIetaIetaEndcapsPflow = cms.double(999999999.0), maxTIP = cms.double(999999999.0), maxTIPPflow = cms.double(999999999.0), minEOverPBarrel = cms.double(0.0), minEOverPBarrelPflow = cms.double(0.0), minEOverPEndcaps = cms.double(0.0), minEOverPEndcapsPflow = cms.double(0.0), minMVA = cms.double(-0.4), minMVAPflow = cms.double(-0.4), minMvaByPassForIsolated = cms.double(-0.4), minMvaByPassForIsolatedPflow = cms.double(-0.4), minSCEtBarrel = cms.double(15.0), minSCEtBarrelPflow = cms.double(0.0), minSCEtEndcaps = cms.double(15.0), minSCEtEndcapsPflow = cms.double(0.0), pfMvaTag = cms.InputTag(""), pflowGsfElectronsTag = cms.InputTag(""), previousGsfElectronsTag = cms.InputTag(""), pureTrackerDrivenEcalErrorFromSimpleParameterization = cms.bool(True), recHitFlagsToBeExcludedBarrel = cms.vstring( 'kFaultyHardware', 'kTowerRecovered', 'kDead' ), recHitFlagsToBeExcludedEndcaps = cms.vstring( 'kFaultyHardware', 'kNeighboursRecovered', 'kTowerRecovered', 'kDead', 'kWeird' ), recHitSeverityToBeExcludedBarrel = cms.vstring( 'kWeird', 'kBad', 'kTime' ), recHitSeverityToBeExcludedEndcaps = cms.vstring( 'kWeird', 'kBad', 'kTime' ), seedFromTEC = cms.bool(True), seedsTag = cms.InputTag("uncleanedOnlyElectronSeeds"), superClusterErrorFunction = cms.string('EcalClusterEnergyUncertaintyObjectSpecific'), trkIsol03Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.3), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), trkIsol04Cfg = cms.PSet( barrelCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ), endcapCuts = cms.PSet( algosToReject = cms.vstring('jetCoreRegionalStep'), allowedQualities = cms.vstring(), maxDPtPt = cms.double(-1), maxDR = cms.double(0.4), maxDZ = cms.double(0.2), minDEta = cms.double(0.015), minDR = cms.double(0.0), minHits = cms.int32(-1), minPixelHits = cms.int32(-1), minPt = cms.double(0.7) ) ), useCombinationRegression = cms.bool(False), useEcalRegression = cms.bool(False), useGsfPfRecTracks = cms.bool(True), useIsolationValues = cms.bool(False), useNumCrystals = cms.bool(True), vetoClustered = cms.bool(False), vtxTag = cms.InputTag("offlinePrimaryVertices") ) process.uncleanedOnlyGsfGeneralInOutOutInConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("uncleanedOnlyGeneralInOutOutInConversionTrackMerger"), TrackProducer2 = cms.InputTag("uncleanedOnlyGsfConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(-1), arbitratedMergedEcalGeneralPreferCollection = cms.int32(-1), arbitratedMergedPreferCollection = cms.int32(2), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.uncleanedOnlyInOutConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('uncleanedOnlyCkfInOutTracksFromConversions'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(True), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.uncleanedOnlyInOutOutInConversionTrackMerger = cms.EDProducer("ConversionTrackMerger", ShareFrac = cms.double(0.19), TrackProducer1 = cms.InputTag("uncleanedOnlyInOutConversionTrackProducer"), TrackProducer2 = cms.InputTag("uncleanedOnlyOutInConversionTrackProducer"), allowFirstHitShare = cms.bool(True), arbitratedEcalSeededPreferCollection = cms.int32(3), arbitratedMergedEcalGeneralPreferCollection = cms.int32(3), arbitratedMergedPreferCollection = cms.int32(3), checkCharge = cms.bool(True), minProb = cms.double(1e-06), outputPreferCollection = cms.int32(-1), trackerOnlyPreferCollection = cms.int32(-1) ) process.uncleanedOnlyMulti5x5SuperClustersWithPreshower = cms.EDProducer("PreshowerPhiClusterProducer", assocSClusterCollection = cms.string(''), endcapSClusterProducer = cms.InputTag("multi5x5SuperClusters","uncleanOnlyMulti5x5EndcapSuperClusters"), esPhiClusterDeltaEta = cms.double(0.15), esPhiClusterDeltaPhi = cms.double(0.12), esStripEnergyCut = cms.double(0.0), etThresh = cms.double(0.0), preshClusterCollectionX = cms.string('preshowerXClusters'), preshClusterCollectionY = cms.string('preshowerYClusters'), preshRecHitProducer = cms.InputTag("ecalPreshowerRecHit","EcalRecHitsES") ) process.uncleanedOnlyOutInConversionTrackProducer = cms.EDProducer("ConversionTrackProducer", TrackProducer = cms.string('uncleanedOnlyCkfOutInTracksFromConversions'), beamSpotInputTag = cms.InputTag("offlineBeamSpot"), filterOnConvTrackHyp = cms.bool(True), minConvRadius = cms.double(2.0), setArbitratedEcalSeeded = cms.bool(True), setArbitratedMerged = cms.bool(True), setArbitratedMergedEcalGeneral = cms.bool(True), setTrackerOnly = cms.bool(False), useTrajectory = cms.bool(False) ) process.uncleanedOnlyPfConversions = cms.EDProducer("PFConversionProducer", PrimaryVertexLabel = cms.InputTag("offlinePrimaryVertices"), conversionCollection = cms.InputTag("allConversions") ) process.uncleanedOnlyPfTrack = cms.EDProducer("PFTrackProducer", GsfTrackModuleLabel = cms.InputTag("uncleanedOnlyElectronGsfTracks"), GsfTracksInEvents = cms.bool(True), MuColl = cms.InputTag("muons1stStep"), PrimaryVertexLabel = cms.InputTag("offlinePrimaryVertices"), TkColList = cms.VInputTag(cms.InputTag("generalTracks")), TrackQuality = cms.string('highPurity'), TrajInEvents = cms.bool(False), UseQuality = cms.bool(True) ) process.uncleanedOnlyPfTrackElec = cms.EDProducer("PFElecTkProducer", AbsEtaBarrelEndcapsSeparation = cms.double(1.479), Fitter = cms.string('GsfElectronFittingSmoother'), GsfTrackModuleLabel = cms.InputTag("uncleanedOnlyElectronGsfTracks"), MaxConvBremRecoPT = cms.double(49.0), MinDEtaGsfSC = cms.double(0.06), MinDPhiGsfSC = cms.double(0.15), MinSCEnergy = cms.double(4.0), ModeMomentum = cms.bool(True), PFConversions = cms.InputTag("uncleanedOnlyPfConversions"), PFEcalClusters = cms.InputTag("particleFlowClusterECAL"), PFNuclear = cms.InputTag("pfDisplacedTrackerVertex"), PFRecTrackLabel = cms.InputTag("uncleanedOnlyPfTrack"), PFV0 = cms.InputTag("pfV0"), PrimaryVertexLabel = cms.InputTag("offlinePrimaryVertices"), Propagator = cms.string('fwdElectronPropagator'), PtLowHighSeparation = cms.double(20), TTRHBuilder = cms.string('WithTrackAngle'), TrajInEvents = cms.bool(False), applyAlsoGsfAngularCleaning = cms.bool(True), applyEGSelection = cms.bool(False), applyGsfTrackCleaning = cms.bool(True), debugGsfCleaning = cms.bool(False), maxDEtaGsfAngularCleaning = cms.double(0.05), maxDPhiBremTangGsfAngularCleaning = cms.double(0.05), pf_convBremFinderID_mvaCutBarrelHighPt = cms.double(0.97), pf_convBremFinderID_mvaCutBarrelLowPt = cms.double(0.6), pf_convBremFinderID_mvaCutEndcapsHighPt = cms.double(0.995), pf_convBremFinderID_mvaCutEndcapsLowPt = cms.double(0.9), pf_convBremFinderID_mvaWeightFileBarrelHighPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetgt20absetalt1_479_BDT.weights.xml'), pf_convBremFinderID_mvaWeightFileBarrelLowPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetlt20absetalt1_479_BDT.weights.xml'), pf_convBremFinderID_mvaWeightFileEndcapsHighPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetgt20absetagt1_479_BDT.weights.xml'), pf_convBremFinderID_mvaWeightFileEndcapsLowPt = cms.string('RecoParticleFlow/PFTracking/data/TMVAClassification_ConvBremFinder_Testetlt20absetagt1_479_BDT.weights.xml'), useConvBremFinder = cms.bool(True), useConversions = cms.bool(False), useFifthStepForEcalDrivenGsf = cms.bool(False), useFifthStepForTrackerDrivenGsf = cms.bool(False), useNuclear = cms.bool(False), useV0 = cms.bool(False) ) process.unsortedOfflinePrimaryVertices = cms.EDProducer("PrimaryVertexProducer", TkClusParameters = cms.PSet( TkGapClusParameters = cms.PSet( zSeparation = cms.double(1.0) ), algorithm = cms.string('gap') ), TkFilterParameters = cms.PSet( algorithm = cms.string('filter'), maxD0Significance = cms.double(2.0), maxEta = cms.double(2.4), maxNormalizedChi2 = cms.double(10.0), minPixelLayersWithHits = cms.int32(3), minPt = cms.double(0.7), minSiliconLayersWithHits = cms.int32(5), trackQuality = cms.string('highPurity') ), TrackLabel = cms.InputTag("generalTracks"), beamSpotLabel = cms.InputTag("offlineBeamSpot"), verbose = cms.untracked.bool(False), vertexCollections = cms.VPSet( cms.PSet( algorithm = cms.string('AdaptiveVertexFitter'), chi2cutoff = cms.double(2.5), 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(2.5), label = cms.string('WithBS'), maxDistanceToBeam = cms.double(1.0), minNdof = cms.double(2.0), useBeamConstraint = cms.bool(True) ) ) ) process.unsortedOfflinePrimaryVertices4D = cms.EDProducer("PrimaryVertexProducer", TkClusParameters = cms.PSet( TkDAClusParameters = cms.PSet( Tmin = cms.double(4.0), Tpurge = cms.double(4.0), Tstop = cms.double(2.0), coolingFactor = cms.double(0.6), d0CutOff = cms.double(3.0), dtCutOff = cms.double(4.0), dzCutOff = cms.double(3.0), tmerge = cms.double(0.1), uniquetrkweight = cms.double(0.8), verbose = cms.untracked.bool(False), vertexSize = cms.double(0.006), vertexSizeTime = cms.double(0.008), zmerge = cms.double(0.01) ), algorithm = cms.string('DA2D_vect') ), TkFilterParameters = cms.PSet( algorithm = cms.string('filter'), maxD0Significance = cms.double(2.0), maxEta = cms.double(2.4), maxNormalizedChi2 = cms.double(10.0), minPixelLayersWithHits = cms.int32(3), minPt = cms.double(0.0), minSiliconLayersWithHits = cms.int32(5), trackQuality = cms.string('highPurity') ), TrackLabel = cms.InputTag("generalTracks"), TrackTimeResosLabel = cms.InputTag("trackTimeValueMapProducer","generalTracksConfigurableFlatResolutionModelResolution"), TrackTimesLabel = cms.InputTag("trackTimeValueMapProducer","generalTracksConfigurableFlatResolutionModel"), beamSpotLabel = cms.InputTag("offlineBeamSpot"), verbose = cms.untracked.bool(False), vertexCollections = cms.VPSet( cms.PSet( algorithm = cms.string('AdaptiveVertexFitter'), chi2cutoff = cms.double(2.5), 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(2.5), label = cms.string('WithBS'), maxDistanceToBeam = cms.double(1.0), minNdof = cms.double(2.0), useBeamConstraint = cms.bool(True) ) ) ) process.vertexMerger = cms.EDProducer("VertexMerger", maxFraction = cms.double(0.7), minSignificance = cms.double(2), secondaryVertices = cms.InputTag("inclusiveVertexFinder") ) process.zdcreco = cms.EDProducer("ZdcHitReconstructor", AuxTSvec = cms.vint32(4, 5, 6, 7), Subdetector = cms.string('ZDC'), correctForPhaseContainment = cms.bool(False), correctForTimeslew = cms.bool(False), correctTiming = cms.bool(True), correctionPhaseNS = cms.double(0.0), digiLabelQIE10ZDC = cms.InputTag("hcalDigis","ZDC"), digiLabelcastor = cms.InputTag("castorDigis"), digiLabelhcal = cms.InputTag("hcalDigis"), dropZSmarkedPassed = cms.bool(True), lowGainFrac = cms.double(8.15), lowGainOffset = cms.int32(1), recoMethod = cms.int32(2), saturationParameters = cms.PSet( maxADCvalue = cms.int32(127) ), setHSCPFlags = cms.bool(True), setNoiseFlags = cms.bool(True), setSaturationFlags = cms.bool(True), setTimingTrustFlags = cms.bool(False) ) process.bVertexFilter = cms.EDFilter("BVertexFilter", minVertices = cms.int32(0), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("secondaryVertices"), useVertexKinematicAsJetAxis = cms.bool(True), vertexFilter = 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(0.1), minimumTrackWeight = cms.double(0.5), multiplicityMin = cms.uint32(2), useTrackWeights = cms.bool(True), v0Filter = cms.PSet( k0sMassWindow = cms.double(0.05) ) ) ) process.electronsWithPresel = cms.EDFilter("GsfElectronSelector", cut = cms.string('pt > 5 && ecalDrivenSeed && passingCutBasedPreselection'), src = cms.InputTag("ecalDrivenGsfElectrons") ) process.firstStepGoodPrimaryVertices = cms.EDFilter("PrimaryVertexObjectFilter", filterParams = cms.PSet( maxRho = cms.double(2.0), maxZ = cms.double(15.0), minNdof = cms.double(25.0) ), src = cms.InputTag("firstStepPrimaryVertices") ) process.goodOfflinePrimaryVertices = cms.EDFilter("VertexSelector", cut = cms.string('!isFake && ndof >= 4.0 && abs(z) <= 24.0 && abs(position.Rho) <= 2.0'), filter = cms.bool(False), src = cms.InputTag("offlinePrimaryVertices") ) process.inclusiveSecondaryVerticesFiltered = cms.EDFilter("BVertexFilter", minVertices = cms.int32(0), primaryVertices = cms.InputTag("offlinePrimaryVertices"), secondaryVertices = cms.InputTag("inclusiveSecondaryVertices"), useVertexKinematicAsJetAxis = cms.bool(True), vertexFilter = 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(0.1), minimumTrackWeight = cms.double(0.5), multiplicityMin = cms.uint32(2), useTrackWeights = cms.bool(True), v0Filter = cms.PSet( k0sMassWindow = cms.double(0.05) ) ) ) process.jetsForCoreTracking = cms.EDFilter("CandPtrSelector", cut = cms.string('pt > 100 && abs(eta) < 2.5'), src = cms.InputTag("ak4CaloJetsForTrk") ) process.jetsForCoreTrackingPreSplitting = cms.EDFilter("CandPtrSelector", cut = cms.string('pt > 100 && abs(eta) < 2.5'), src = cms.InputTag("ak4CaloJetsForTrkPreSplitting") ) process.pfAllChargedHadrons = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32( 211, -211, 321, -321, 999211, 2212, -2212 ), src = cms.InputTag("pfNoPileUpIso") ) process.pfAllChargedParticles = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32( 211, -211, 321, -321, 999211, 2212, -2212, 11, -11, 13, -13 ), src = cms.InputTag("pfNoPileUpIso") ) process.pfAllElectrons = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32(11, -11), src = cms.InputTag("pfNoMuon") ) process.pfAllMuons = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32(-13, 13), src = cms.InputTag("pfNoPileUp") ) process.pfAllNeutralHadrons = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32(111, 130, 310, 2112), src = cms.InputTag("pfNoPileUpIso") ) process.pfAllNeutralHadronsAndPhotons = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32(22, 111, 130, 310, 2112), src = cms.InputTag("pfNoPileUpIso") ) process.pfAllPhotons = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32(22), src = cms.InputTag("pfNoPileUpIso") ) process.pfNoPileUpCandidates = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32( 211, -211, 321, -321, 999211, 2212, -2212, 22, 111, 130, 310, 2112 ), src = cms.InputTag("pfNoPileUpIso") ) process.pfNoPileUpJMEHI = cms.EDFilter("GenericPFCandidateSelector", cut = cms.string('pt>9999'), src = cms.InputTag("particleFlow") ) process.pfPileUpAllChargedParticles = cms.EDFilter("PFCandidateFwdPtrCollectionPdgIdFilter", makeClones = cms.bool(True), pdgId = cms.vint32( 211, -211, 321, -321, 999211, 2212, -2212, 11, -11, 13, -13 ), src = cms.InputTag("pfPileUpIso") ) process.pfSelectedElectrons = cms.EDFilter("GenericPFCandidateSelector", cut = cms.string('abs(pdgId())==11'), src = cms.InputTag("particleFlowTmp") ) process.pfSelectedPhotons = cms.EDFilter("GenericPFCandidateSelector", cut = cms.string('pdgId()==22 && mva_nothing_gamma>0'), src = cms.InputTag("particleFlowTmp") ) process.recoTauPileUpVertices = cms.EDFilter("RecoTauPileUpVertexSelector", filter = cms.bool(False), minTrackSumPt = cms.double(5), src = cms.InputTag("offlinePrimaryVertices") ) process.MEtoMEComparitor = cms.EDAnalyzer("MEtoMEComparitor", Diffgoodness = cms.double(0.1), KSgoodness = cms.double(0.9), MEtoEDMLabel = cms.string('MEtoEDMConverter'), OverAllgoodness = cms.double(0.9), autoProcess = cms.bool(True), dirDepth = cms.uint32(1), lumiInstance = cms.string('MEtoEDMConverterLumi'), processNew = cms.string('RERECO'), processRef = cms.string('HLT'), runInstance = cms.string('MEtoEDMConverterRun') ) process.AODoutput = cms.OutputModule("PoolOutputModule", compressionAlgorithm = cms.untracked.string('LZMA'), compressionLevel = cms.untracked.int32(4), dataset = cms.untracked.PSet( dataTier = cms.untracked.string('RECO'), filterName = cms.untracked.string('') ), eventAutoFlushCompressedSize = cms.untracked.int32(31457280), #fileName = cms.untracked.string('SED_OUTPUT'), fileName = cms.untracked.string(options.outputFile), outputCommands = cms.untracked.vstring( ( 'drop *', 'keep ClusterSummary_clusterSummaryProducer_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_gemRecHits_*_*', 'keep *_gemSegments_*_*', 'keep *_castorreco_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep HcalUnpackerReport_castorDigis_*_*', 'keep HcalUnpackerReport_hcalDigiAlCaMB_*_*', 'keep HcalUnpackerReport_hcalDigis_*_*', 'keep *_zdcreco_*_*', 'keep ZDCDataFramesSorted_hcalDigis_*_*', 'keep ZDCDataFramesSorted_castorDigis_*_*', 'keep QIE10DataFrameHcalDataFrameContainer_hcalDigis_ZDC_*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep recoCaloClusters_hybridSuperClusters_*_*', 'keep recoSuperClusters_hybridSuperClusters_uncleanOnlyHybridSuperClusters_*', 'keep recoCaloClusters_multi5x5SuperClusters_multi5x5EndcapBasicClusters_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoCaloClusters_particleFlowSuperClusterOOTECAL_*_*', 'keep recoSuperClusters_correctedIslandBarrelSuperClusters_*_*', 'keep recoSuperClusters_correctedIslandEndcapSuperClusters_*_*', 'keep recoTracks_GsfGlobalElectronTest_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTracks_ctfPixelLess_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_dedxPixelHarmonic2_*_*', 'keep *_dedxHitInfo_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_generalTracks_MVAValues_*', 'keep *_generalTracks_MVAVals_*', 'keep recoTracks_hiConformalPixelTracks_*_*', 'keep *_ak4CaloJets_*_*', 'keep *_ak4PFJetsCHS_*_*', 'keep *_ak8PFJetsCHS_*_*', 'keep *_ak8PFJetsCHSSoftDrop_*_*', 'keep *_cmsTopTagPFJetsCHS_*_*', 'keep *_ak4PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt4_*_*', 'keep *_ak4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ak4JetTracksAssociatorAtVertex_*_*', 'keep *_ak4JetTracksAssociatorAtVertexPF_*_*', 'keep *_ak4JetTracksAssociatorExplicit_*_*', 'keep *_ak4JetExtender_*_*', 'keep *_ak4JetID_*_*', 'keep *_ak5CastorJets_*_*', 'keep *_ak5CastorJetID_*_*', 'keep *_ak7CastorJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep *_fixedGridRhoAll_*_*', 'keep *_fixedGridRhoFastjetAll_*_*', 'keep *_fixedGridRhoFastjetAllTmp_*_*', 'keep *_fixedGridRhoFastjetCentral_*_*', 'keep *_fixedGridRhoFastjetAllCalo_*_*', 'keep *_fixedGridRhoFastjetCentralCalo_*_*', 'keep *_fixedGridRhoFastjetCentralChargedPileUp_*_*', 'keep *_fixedGridRhoFastjetCentralNeutral_*_*', 'drop doubles_*Jets_rhos_*', 'drop doubles_*Jets_sigmas_*', 'keep *_ak8PFJetsCHSSoftDropMass_*_*', 'keep *_towerMaker_*_*', 'keep recoCentrality*_hiCentrality_*_*', 'keep recoClusterCompatibility*_hiClusterCompatibility_*_*', 'keep *_hiCentrality_*_*', 'keep *_hiFJRhoProducer_*_*', 'keep *_akPu3PFJets_*_*', 'keep *_akPu4PFJets_*_*', 'keep *_kt4PFJetsForRho_*_*', 'keep *_akCs4PFJets_*_*', 'keep *_akPu4CaloJets_*_*', 'drop *_caloTowers_*_*', 'keep recoCaloMETs_caloMet_*_*', 'keep recoCaloMETs_caloMetBE_*_*', 'keep recoCaloMETs_caloMetBEFO_*_*', 'keep recoCaloMETs_caloMetM_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoPFMETs_pfChMet_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'drop recoHcalNoiseRBXs_*_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep recoGlobalHaloData_GlobalHaloData_*_*', 'keep recoCSCHaloData_CSCHaloData_*_*', 'keep recoBeamHaloSummary_BeamHaloSummary_*_*', 'keep *_muons_*_*', 'keep *_particleFlow_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'drop recoIsoDepositedmValueMap_muons_*_*', 'drop doubleedmValueMap_muons_muPFIso*_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracks_displacedTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_displacedGlobalMuons_*_*', 'keep recoTrackExtras_displacedGlobalMuons_*_*', 'keep TrackingRecHitsOwned_displacedGlobalMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep recoTracks_displacedStandAloneMuons__*', 'keep recoTrackExtras_displacedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_displacedStandAloneMuons_*_*', 'keep *_softPFElectronBJetTags_*_*', 'keep *_softPFMuonBJetTags_*_*', 'keep *_pfTrackCountingHighEffBJetTags_*_*', 'keep *_pfJetProbabilityBJetTags_*_*', 'keep *_pfJetBProbabilityBJetTags_*_*', 'keep *_pfSimpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfSimpleInclusiveSecondaryVertexHighEffBJetTags_*_*', 'keep *_pfCombinedSecondaryVertexV2BJetTags_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTags_*_*', 'keep *_pfGhostTrackBJetTags_*_*', 'keep *_pfCombinedMVAV2BJetTags_*_*', 'keep *_inclusiveCandidateSecondaryVertices_*_*', 'keep *_inclusiveCandidateSecondaryVerticesCvsL_*_*', 'keep *_pfCombinedCvsLJetTags_*_*', 'keep *_pfCombinedCvsBJetTags_*_*', 'keep *_pfChargeBJetTags_*_*', 'keep *_pfDeepCSVJetTags_*_*', 'keep *_pfDeepCMVAJetTags_*_*', 'keep recoRecoTauPiZeros_hpsPFTauProducer_pizeros_*', 'keep recoPFTaus_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscriminationByDeadECALElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFinding_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingNewDMs_*_*', 'keep *_hpsPFTauDiscriminationByDecayModeFindingOldDMs_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseChargedIsolation_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByLooseMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits_*_*', 'keep *_hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03_*_*', 'keep *_hpsPFTauDiscriminationByTightMuonRejection3_*_*', 'keep *_hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauNeutralIsoPtSum_*_*', 'keep *_hpsPFTauPUcorrPtSum_*_*', 'keep *_hpsPFTauChargedIsoPtSum_*_*', 'keep *_hpsPFTauTransverseImpactParameters_*_*', 'keep *_hpsPFTauFootprintCorrection_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeight_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalCone_*_*', 'keep *_hpsPFTauDiscriminationByMVA6rawElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VLooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6LooseElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6MediumElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6TightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByMVA6VTightElectronRejection_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT_*_*', 'keep *_hpsPFTauChargedIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumdR03_*_*', 'keep *_hpsPFTauNeutralIsoPtSumWeightdR03_*_*', 'keep *_hpsPFTauFootprintCorrectiondR03_*_*', 'keep *_hpsPFTauPhotonPtSumOutsideSignalConedR03_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw_*_*', 'keep *_hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep *_inclusiveSecondaryVertices_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectronCores_gedGsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectrons_gedGsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep *_egmGedGsfElectronPFIsolation_*_*', 'drop *_egmGsfElectronIDs_*_*', 'drop *_egmPhotonIDs_*_*', 'keep recoPhotonCores_gedPhotonCore_*_*', 'keep recoPhotons_gedPhotons_*_*', 'keep *_particleBasedIsolation_*_*', 'drop *_gedPhotons_valMapPFEgammaCandToPhoton_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_ootPhotonCore_*_*', 'keep recoPhotons_ootPhotons_*_*', 'keep recoConversions_conversions_*_*', 'keep recoConversions_mustacheConversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoConversions_allConversionsOldEG_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*', 'keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_PhotonIDProdGED_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep recoRecoEcalCandidates_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_gedGsfElectronCores_*_*', 'keep *_gedGsfElectrons_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppGED_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerpp_*_*', 'keep recoHIPhotonIsolationedmValueMap_photonIsolationHIProducerppIsland_*_*', 'keep recoPhotonCores_islandPhotonCore_*_*', 'keep recoPhotons_islandPhotons_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'drop *_pfElectronTranslator_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHF_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHBHE_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHF_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoCaloClusters_particleFlowEGamma_*_*', 'keep recoSuperClusters_particleFlowEGamma_*_*', 'keep recoCaloClusters_particleFlowSuperClusterECAL_*_*', 'keep recoSuperClusters_particleFlowSuperClusterECAL_*_*', 'keep recoConversions_particleFlowEGamma_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_*_*', 'drop recoPFCandidates_particleFlowTmp__*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_particleFlow_muons_*', 'keep recoCaloClusters_pfElectronTranslator_*_*', 'keep recoPreshowerClusters_pfElectronTranslator_*_*', 'keep recoSuperClusters_pfElectronTranslator_*_*', 'keep recoCaloClusters_pfPhotonTranslator_*_*', 'keep recoPreshowerClusters_pfPhotonTranslator_*_*', 'keep recoSuperClusters_pfPhotonTranslator_*_*', 'keep recoPhotons_pfPhotonTranslator_*_*', 'keep recoPhotonCores_pfPhotonTranslator_*_*', 'keep recoConversions_pfPhotonTranslator_*_*', 'keep *_particleFlowPtrs_*_*', 'keep *_particleFlowTmpPtrs_*_*', 'keep *_chargedHadronPFTrackIsolation_*_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep LumiSummary_lumiProducer_*_*', 'keep *_gtStage2Digis_*_*', 'keep *_gmtStage2Digis_*_*', 'keep *_caloStage2Digis_*_*', 'drop *_hlt*_*_*', 'keep GlobalObjectMapRecord_hltGtStage2ObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep *_hltFEDSelectorL1_*_*', 'keep *_hltScoutingCaloPacker_*_*', 'keep *_hltScoutingEgammaPacker_*_*', 'keep *_hltScoutingMuonPackerCalo_*_*', 'keep *_hltScoutingMuonPacker_*_*', 'keep *_hltScoutingPFPacker_*_*', 'keep *_hltScoutingPrimaryVertexPackerCaloMuon_*_*', 'keep *_hltScoutingPrimaryVertexPacker_*_*', 'keep *_hltScoutingTrackPacker_*_*', 'keep edmTriggerResults_*_*_*', 'keep L1AcceptBunchCrossings_scalersRawToDigi_*_*', 'keep L1TriggerScalerss_scalersRawToDigi_*_*', 'keep Level1TriggerScalerss_scalersRawToDigi_*_*', 'keep LumiScalerss_scalersRawToDigi_*_*', 'keep BeamSpotOnlines_scalersRawToDigi_*_*', 'keep DcsStatuss_scalersRawToDigi_*_*', 'keep CTPPSRecord_onlineMetaDataDigis_*_*', 'keep DCSRecord_onlineMetaDataDigis_*_*', 'keep OnlineLuminosityRecord_onlineMetaDataDigis_*_*', 'keep recoBeamSpot_onlineMetaDataDigis_*_*', 'keep *_tcdsDigis_*_*', 'keep *_logErrorHarvester_*_*', 'keep *_pfIsolatedElectronsEI_*_*', 'keep *_pfIsolatedMuonsEI_*_*', 'keep recoPFJets_pfJetsEI_*_*', 'keep *_pfCombinedInclusiveSecondaryVertexV2BJetTagsEI_*_*', 'keep recoPFTaus_pfTausEI_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByDecayModeFinding_*_*', 'keep recoPFTauDiscriminator_pfTausDiscriminationByIsolation_*_*', 'keep recoPFMETs_pfMetEI_*_*', 'keep TotemTriggerCounters_totemTriggerRawToDigi_*_*', 'keep TotemFEDInfos_totemRPRawToDigi_*_*', 'keep TotemRPDigiedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_totemRPRawToDigi_*_*', 'keep TotemRPClusteredmDetSetVector_totemRPClusterProducer_*_*', 'keep TotemRPRecHitedmDetSetVector_totemRPRecHitProducer_*_*', 'keep TotemRPUVPatternedmDetSetVector_totemRPUVPatternFinder_*_*', 'keep TotemRPLocalTrackedmDetSetVector_totemRPLocalTrackFitter_*_*', 'keep TotemFEDInfos_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondDigiedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep TotemVFATStatusedmDetSetVector_ctppsDiamondRawToDigi_*_*', 'keep CTPPSDiamondRecHitedmDetSetVector_ctppsDiamondRecHits_*_*', 'keep CTPPSDiamondLocalTrackedmDetSetVector_ctppsDiamondLocalTracks_*_*', 'keep TotemTimingDigiedmDetSetVector_totemTimingRawToDigi_*_*', 'keep TotemTimingRecHitedmDetSetVector_totemTimingRecHits_*_*', 'keep CTPPSPixelDigiedmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelDataErroredmDetSetVector_ctppsPixelDigis_*_*', 'keep CTPPSPixelClusteredmDetSetVector_ctppsPixelClusters_*_*', 'keep CTPPSPixelRecHitedmDetSetVector_ctppsPixelRecHits_*_*', 'keep CTPPSPixelLocalTrackedmDetSetVector_ctppsPixelLocalTracks_*_*', 'keep CTPPSLocalTrackLites_ctppsLocalTrackLiteProducer_*_*' ) ) ) process.DBService = cms.Service("DBService") process.DQMStore = cms.Service("DQMStore") process.MessageLogger = cms.Service("MessageLogger", FrameworkJobReport = cms.untracked.PSet( FwkJob = cms.untracked.PSet( limit = cms.untracked.int32(10000000), optionalPSet = cms.untracked.bool(True) ), default = cms.untracked.PSet( limit = cms.untracked.int32(0) ), optionalPSet = cms.untracked.bool(True) ), categories = cms.untracked.vstring( 'FwkJob', 'FwkReport', 'FwkSummary', 'Root_NoDictionary' ), cerr = cms.untracked.PSet( FwkJob = cms.untracked.PSet( limit = cms.untracked.int32(0), optionalPSet = cms.untracked.bool(True) ), FwkReport = cms.untracked.PSet( limit = cms.untracked.int32(10000000), optionalPSet = cms.untracked.bool(True), reportEvery = cms.untracked.int32(1) ), FwkSummary = cms.untracked.PSet( limit = cms.untracked.int32(10000000), optionalPSet = cms.untracked.bool(True), reportEvery = cms.untracked.int32(1) ), INFO = cms.untracked.PSet( limit = cms.untracked.int32(0) ), Root_NoDictionary = cms.untracked.PSet( limit = cms.untracked.int32(0), optionalPSet = cms.untracked.bool(True) ), default = cms.untracked.PSet( limit = cms.untracked.int32(10000000) ), noTimeStamps = cms.untracked.bool(False), optionalPSet = cms.untracked.bool(True), threshold = cms.untracked.string('INFO') ), cerr_stats = cms.untracked.PSet( optionalPSet = cms.untracked.bool(True), output = cms.untracked.string('cerr'), threshold = cms.untracked.string('WARNING') ), cout = cms.untracked.PSet( placeholder = cms.untracked.bool(True) ), debugModules = cms.untracked.vstring(), debugs = cms.untracked.PSet( placeholder = cms.untracked.bool(True) ), default = cms.untracked.PSet( ), destinations = cms.untracked.vstring( 'warnings', 'errors', 'infos', 'debugs', 'cout', 'cerr' ), errors = cms.untracked.PSet( placeholder = cms.untracked.bool(True) ), fwkJobReports = cms.untracked.vstring('FrameworkJobReport'), infos = cms.untracked.PSet( Root_NoDictionary = cms.untracked.PSet( limit = cms.untracked.int32(0), optionalPSet = cms.untracked.bool(True) ), optionalPSet = cms.untracked.bool(True), placeholder = cms.untracked.bool(True) ), statistics = cms.untracked.vstring('cerr_stats'), suppressDebug = cms.untracked.vstring(), suppressInfo = cms.untracked.vstring(), suppressWarning = cms.untracked.vstring('particleFlowDisplacedVertexCandidate'), warnings = cms.untracked.PSet( placeholder = cms.untracked.bool(True) ) ) process.RandomNumberGeneratorService = cms.Service("RandomNumberGeneratorService", CTPPSFastRecHits = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(1357987) ), LHCTransport = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(87654321) ), MuonSimHits = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(987346) ), VtxSmeared = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(98765432) ), ecalPreshowerRecHit = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(6541321) ), ecalRecHit = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(654321) ), externalLHEProducer = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(234567) ), famosPileUp = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(918273) ), fastSimProducer = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(13579) ), fastTrackerRecHits = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(24680) ), g4SimHits = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(11) ), generator = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(123456789) ), hbhereco = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(541321) ), hfreco = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(541321) ), hiSignal = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(123456789) ), hiSignalG4SimHits = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(11) ), hiSignalLHCTransport = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(88776655) ), horeco = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(541321) ), l1ParamMuons = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(6453209) ), mix = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(12345) ), mixData = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(12345) ), mixGenPU = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(918273) ), mixRecoTracks = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(918273) ), mixSimCaloHits = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(918273) ), paramMuons = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(54525) ), saveFileName = cms.untracked.string(''), simBeamSpotFilter = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(87654321) ), simMuonCSCDigis = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(11223344) ), simMuonDTDigis = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(1234567) ), simMuonGEMDigis = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(1234567) ), simMuonRPCDigis = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(1234567) ), simSiStripDigiSimLink = cms.PSet( engineName = cms.untracked.string('MixMaxRng'), initialSeed = cms.untracked.uint32(1234567) ) ) process.AnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('AnalyticalPropagator'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('alongMomentum') ) process.AnalyticalPropagatorParabolicMF = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('AnalyticalPropagatorParabolicMf'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('alongMomentum'), SimpleMagneticField = cms.string('ParabolicMf') ) process.AnyDirectionAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('AnyDirectionAnalyticalPropagator'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('anyDirection') ) process.BeamHaloMPropagatorAlong = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('BeamHaloMPropagatorAlong'), Mass = cms.double(0.105), MaxDPhi = cms.double(10000), PropagationDirection = cms.string('alongMomentum'), SimpleMagneticField = cms.string(''), ptMin = cms.double(-1.0), useRungeKutta = cms.bool(True) ) process.BeamHaloMPropagatorOpposite = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('BeamHaloMPropagatorOpposite'), Mass = cms.double(0.105), MaxDPhi = cms.double(10000), PropagationDirection = cms.string('oppositeToMomentum'), SimpleMagneticField = cms.string(''), ptMin = cms.double(-1.0), useRungeKutta = cms.bool(True) ) process.BeamHaloPropagatorAlong = cms.ESProducer("BeamHaloPropagatorESProducer", ComponentName = cms.string('BeamHaloPropagatorAlong'), CrossingTrackerPropagator = cms.string('BeamHaloSHPropagatorAlong'), EndCapTrackerPropagator = cms.string('BeamHaloMPropagatorAlong'), PropagationDirection = cms.string('alongMomentum') ) process.BeamHaloPropagatorAny = cms.ESProducer("BeamHaloPropagatorESProducer", ComponentName = cms.string('BeamHaloPropagatorAny'), CrossingTrackerPropagator = cms.string('BeamHaloSHPropagatorAny'), EndCapTrackerPropagator = cms.string('BeamHaloMPropagatorAlong'), PropagationDirection = cms.string('anyDirection') ) process.BeamHaloPropagatorOpposite = cms.ESProducer("BeamHaloPropagatorESProducer", ComponentName = cms.string('BeamHaloPropagatorOpposite'), CrossingTrackerPropagator = cms.string('BeamHaloSHPropagatorOpposite'), EndCapTrackerPropagator = cms.string('BeamHaloMPropagatorOpposite'), PropagationDirection = cms.string('oppositeToMomentum') ) process.BeamHaloSHPropagatorAlong = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('BeamHaloSHPropagatorAlong'), 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.BeamHaloSHPropagatorAny = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('BeamHaloSHPropagatorAny'), 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.BeamHaloSHPropagatorOpposite = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('BeamHaloSHPropagatorOpposite'), 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.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), useCentreTIOffsets = cms.bool(False), useDDD = 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.CaloGeometryBuilder = cms.ESProducer("CaloGeometryBuilder", SelectedCalos = cms.vstring( 'HCAL', 'ZDC', 'CASTOR', '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") process.CastorDbProducer = cms.ESProducer("CastorDbProducer", appendToDataLabel = cms.string('') ) process.CastorGeometryFromDBEP = cms.ESProducer("CastorGeometryFromDBEP", applyAlignment = cms.bool(False) ) process.Chi2EstimatorForMuRefit = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2EstimatorForMuRefit'), MaxChi2 = cms.double(100000.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.Chi2EstimatorForMuonTrackLoader = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2EstimatorForMuonTrackLoader'), MaxChi2 = cms.double(100000.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.Chi2EstimatorForRefit = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2EstimatorForRefit'), MaxChi2 = cms.double(100000.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3.0) ) process.Chi2MeasurementEstimator = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2'), MaxChi2 = cms.double(30), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.Chi2MeasurementEstimatorForInOut = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2ForInOut'), MaxChi2 = cms.double(100.0), MaxDisplacement = cms.double(100), MaxSagitta = cms.double(-1), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.Chi2MeasurementEstimatorForOutIn = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2ForOutIn'), MaxChi2 = cms.double(500.0), MaxDisplacement = cms.double(100), MaxSagitta = cms.double(-1.0), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.Chi2MeasurementEstimatorForP5 = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2MeasurementEstimatorForP5'), MaxChi2 = cms.double(100.0), MaxDisplacement = cms.double(100), MaxSagitta = cms.double(-1), MinPtForHitRecoveryInGluedDet = cms.double(100000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(4.0) ) process.CloseComponentsMerger5D = cms.ESProducer("CloseComponentsMergerESProducer5D", ComponentName = cms.string('CloseComponentsMerger5D'), DistanceMeasure = cms.string('KullbackLeiblerDistance5D'), MaxComponents = cms.int32(12) ) process.CloseComponentsMerger_forPreId = cms.ESProducer("CloseComponentsMergerESProducer5D", ComponentName = cms.string('CloseComponentsMerger_forPreId'), DistanceMeasure = cms.string('KullbackLeiblerDistance5D'), MaxComponents = cms.int32(4) ) 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('SiStripClusterChargeCutNone') ) ) process.DTGeometryESModule = cms.ESProducer("DTGeometryESModule", alignmentsLabel = cms.string(''), appendToDataLabel = cms.string(''), applyAlignment = cms.bool(True), fromDDD = cms.bool(False) ) process.DummyDetLayerGeometry = cms.ESProducer("DetLayerGeometryESProducer", ComponentName = cms.string('DummyDetLayerGeometry') ) 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") process.EcalPreshowerGeometryFromDBEP = cms.ESProducer("EcalPreshowerGeometryFromDBEP", applyAlignment = cms.bool(True) ) process.EcalTrigTowerConstituentsMapBuilder = cms.ESProducer("EcalTrigTowerConstituentsMapBuilder", MapFile = cms.untracked.string('Geometry/EcalMapping/data/EndCap_TTMap.txt') ) process.ElectronChi2 = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('ElectronChi2'), MaxChi2 = cms.double(2000.0), MaxDisplacement = cms.double(100), MaxSagitta = cms.double(-1), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.ElectronMaterialEffects = cms.ESProducer("GsfMaterialEffectsESProducer", BetheHeitlerCorrection = cms.int32(2), BetheHeitlerParametrization = cms.string('BetheHeitler_cdfmom_nC6_O5.par'), ComponentName = cms.string('ElectronMaterialEffects'), EnergyLossUpdator = cms.string('GsfBetheHeitlerUpdator'), Mass = cms.double(0.000511), MultipleScatteringUpdator = cms.string('MultipleScatteringUpdator') ) process.ElectronMaterialEffects_forPreId = cms.ESProducer("GsfMaterialEffectsESProducer", BetheHeitlerCorrection = cms.int32(2), BetheHeitlerParametrization = cms.string('BetheHeitler_cdfmom_nC3_O5.par'), ComponentName = cms.string('ElectronMaterialEffects_forPreId'), EnergyLossUpdator = cms.string('GsfBetheHeitlerUpdator'), Mass = cms.double(0.000511), MultipleScatteringUpdator = cms.string('MultipleScatteringUpdator') ) process.EstimatorForSTA = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('Chi2STA'), MaxChi2 = cms.double(1000.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.FittingSmootherRKP5 = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(False), ComponentName = cms.string('FittingSmootherRKP5'), EstimateCut = cms.double(20.0), Fitter = cms.string('RKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(4), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('RKSmoother'), appendToDataLabel = cms.string('') ) process.FlexibleKFFittingSmoother = cms.ESProducer("FlexibleKFFittingSmootherESProducer", ComponentName = cms.string('FlexibleKFFittingSmoother'), appendToDataLabel = cms.string(''), looperFitter = cms.string('LooperFittingSmoother'), standardFitter = cms.string('KFFittingSmootherWithOutliersRejectionAndRK') ) process.GEMGeometryESModule = cms.ESProducer("GEMGeometryESModule", useDDD = cms.bool(False) ) process.GlbMuKFFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('GlbMuKFFitter'), Estimator = cms.string('Chi2EstimatorForMuRefit'), Propagator = cms.string('SmartPropagatorAnyRK'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.GlobalDetLayerGeometry = cms.ESProducer("GlobalDetLayerGeometryESProducer", ComponentName = cms.string('GlobalDetLayerGeometry') ) process.GlobalTrackingGeometryESProducer = cms.ESProducer("GlobalTrackingGeometryESProducer") process.GsfElectronFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('GsfElectronFittingSmoother'), EstimateCut = cms.double(-1), Fitter = cms.string('GsfTrajectoryFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('GsfTrajectorySmoother'), appendToDataLabel = cms.string('') ) process.GsfTrajectoryFitter = cms.ESProducer("GsfTrajectoryFitterESProducer", ComponentName = cms.string('GsfTrajectoryFitter'), GeometricalPropagator = cms.string('fwdAnalyticalPropagator'), MaterialEffectsUpdator = cms.string('ElectronMaterialEffects'), Merger = cms.string('CloseComponentsMerger5D'), RecoGeometry = cms.string('GlobalDetLayerGeometry') ) process.GsfTrajectoryFitter_forPreId = cms.ESProducer("GsfTrajectoryFitterESProducer", ComponentName = cms.string('GsfTrajectoryFitter_forPreId'), GeometricalPropagator = cms.string('fwdAnalyticalPropagator'), MaterialEffectsUpdator = cms.string('ElectronMaterialEffects_forPreId'), Merger = cms.string('CloseComponentsMerger_forPreId'), RecoGeometry = cms.string('GlobalDetLayerGeometry') ) process.GsfTrajectorySmoother = cms.ESProducer("GsfTrajectorySmootherESProducer", ComponentName = cms.string('GsfTrajectorySmoother'), ErrorRescaling = cms.double(100.0), GeometricalPropagator = cms.string('bwdAnalyticalPropagator'), MaterialEffectsUpdator = cms.string('ElectronMaterialEffects'), Merger = cms.string('CloseComponentsMerger5D'), RecoGeometry = cms.string('GlobalDetLayerGeometry') ) process.GsfTrajectorySmoother_forPreId = cms.ESProducer("GsfTrajectorySmootherESProducer", ComponentName = cms.string('GsfTrajectorySmoother_forPreId'), ErrorRescaling = cms.double(100.0), GeometricalPropagator = cms.string('bwdAnalyticalPropagator'), MaterialEffectsUpdator = cms.string('ElectronMaterialEffects_forPreId'), Merger = cms.string('CloseComponentsMerger_forPreId'), RecoGeometry = cms.string('GlobalDetLayerGeometry') ) process.HcalAlignmentEP = cms.ESProducer("HcalAlignmentEP") process.HcalGeometryFromDBEP = cms.ESProducer("HcalGeometryFromDBEP", applyAlignment = cms.bool(True) ) process.KFFitterForRefitInsideOut = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitterForRefitInsideOut'), Estimator = cms.string('Chi2EstimatorForRefit'), Propagator = cms.string('SmartPropagatorAnyRK'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFFitterForRefitOutsideIn = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitterForRefitOutsideIn'), Estimator = cms.string('Chi2EstimatorForRefit'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFFittingSmootheForSTA = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('KFFitterSmootherSTA'), EstimateCut = cms.double(-1), Fitter = cms.string('KFFitterSTA'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('KFSmootherSTA'), appendToDataLabel = cms.string('') ) process.KFFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('KFFittingSmoother'), EstimateCut = cms.double(-1), Fitter = cms.string('KFFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('KFSmoother'), appendToDataLabel = cms.string('') ) process.KFFittingSmootherBeamHalo = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('KFFittingSmootherBH'), EstimateCut = cms.double(-1), Fitter = cms.string('KFFitterBH'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('KFSmootherBH'), appendToDataLabel = cms.string('') ) process.KFFittingSmootherForInOut = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('KFFittingSmootherForInOut'), EstimateCut = cms.double(-1), Fitter = cms.string('KFFitterForInOut'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('KFSmootherForInOut'), appendToDataLabel = cms.string('') ) process.KFFittingSmootherWithOutliersRejectionAndRK = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('KFFittingSmootherWithOutliersRejectionAndRK'), EstimateCut = cms.double(20.0), Fitter = cms.string('RKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('RKSmoother'), appendToDataLabel = cms.string('') ) process.KFSmootherForMuonTrackLoader = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherForMuonTrackLoader'), Estimator = cms.string('Chi2EstimatorForMuonTrackLoader'), Propagator = cms.string('SmartPropagatorAnyRK'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(3) ) process.KFSmootherForMuonTrackLoaderL3 = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherForMuonTrackLoaderL3'), Estimator = cms.string('Chi2EstimatorForMuonTrackLoader'), Propagator = cms.string('SmartPropagatorAnyOpposite'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(3) ) process.KFSmootherForRefitInsideOut = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherForRefitInsideOut'), Estimator = cms.string('Chi2EstimatorForRefit'), Propagator = cms.string('SmartPropagatorAnyRK'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100.0), minHits = cms.int32(3) ) process.KFSmootherForRefitOutsideIn = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherForRefitOutsideIn'), Estimator = cms.string('Chi2EstimatorForRefit'), Propagator = cms.string('SmartPropagatorAnyRKOpposite'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100.0), minHits = cms.int32(3) ) process.KFSwitching1DUpdatorESProducer = cms.ESProducer("KFSwitching1DUpdatorESProducer", ComponentName = cms.string('KFSwitching1DUpdator'), doEndCap = cms.bool(False) ) process.KFTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitter'), Estimator = cms.string('Chi2'), Propagator = cms.string('PropagatorWithMaterial'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFTrajectoryFitterBeamHalo = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitterBH'), Estimator = cms.string('Chi2'), Propagator = cms.string('BeamHaloPropagatorAlong'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFTrajectoryFitterForInOut = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitterForInOut'), Estimator = cms.string('Chi2ForInOut'), Propagator = cms.string('alongMomElePropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFTrajectoryFitterForOutIn = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitterForOutIn'), Estimator = cms.string('Chi2ForOutIn'), Propagator = cms.string('alongMomElePropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFTrajectoryFitterForSTA = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('KFFitterSTA'), Estimator = cms.string('Chi2STA'), Propagator = cms.string('SteppingHelixPropagatorAny'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.KFTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('PropagatorWithMaterial'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) process.KFTrajectorySmootherBeamHalo = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherBH'), Estimator = cms.string('Chi2'), Propagator = cms.string('BeamHaloPropagatorAlong'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) process.KFTrajectorySmootherForInOut = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherForInOut'), Estimator = cms.string('Chi2ForInOut'), Propagator = cms.string('oppositeToMomElePropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) process.KFTrajectorySmootherForSTA = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('KFSmootherSTA'), Estimator = cms.string('Chi2STA'), Propagator = cms.string('SteppingHelixPropagatorOpposite'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) process.KFUpdatorESProducer = cms.ESProducer("KFUpdatorESProducer", ComponentName = cms.string('KFUpdator') ) process.KullbackLeiblerDistance5D = cms.ESProducer("DistanceBetweenComponentsESProducer5D", ComponentName = cms.string('KullbackLeiblerDistance5D'), DistanceMeasure = cms.string('KullbackLeibler') ) process.LooperFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('LooperFittingSmoother'), EstimateCut = cms.double(20.0), Fitter = cms.string('LooperFitter'), LogPixelProbabilityCut = cms.double(-14.0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('LooperSmoother'), appendToDataLabel = cms.string('') ) process.LooperTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('LooperFitter'), Estimator = cms.string('Chi2'), Propagator = cms.string('PropagatorWithMaterialForLoopers'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.LooperTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('LooperSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('PropagatorWithMaterialForLoopers'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(3) ) process.MRHChi2MeasurementEstimator = cms.ESProducer("MRHChi2MeasurementEstimatorESProducer", ComponentName = cms.string('MRHChi2'), MaxChi2 = cms.double(30.0), nSigma = cms.double(3.0) ) process.MRHFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('MRHFittingSmoother'), EstimateCut = cms.double(-1), Fitter = cms.string('MRHFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('MRHSmoother'), appendToDataLabel = cms.string('') ) process.MRHTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('MRHFitter'), Estimator = cms.string('MRHChi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.MRHTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('MRHSmoother'), Estimator = cms.string('MRHChi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) 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.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.MeasurementTracker = cms.ESProducer("MeasurementTrackerESProducer", ComponentName = cms.string(''), 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), PixelCPE = cms.string('PixelCPEGeneric'), SiStripQualityLabel = cms.string(''), StripCPE = cms.string('StripCPEfromTrackAngle'), UsePixelModuleQualityDB = cms.bool(True), UsePixelROCQualityDB = cms.bool(True), UseStripAPVFiberQualityDB = cms.bool(True), UseStripModuleQualityDB = cms.bool(True), UseStripStripQualityDB = cms.bool(True), 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.MuonDetLayerGeometryESProducer = cms.ESProducer("MuonDetLayerGeometryESProducer") process.MuonTransientTrackingRecHitBuilderESProducer = cms.ESProducer("MuonTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('MuonRecHitBuilder') ) process.OppositeAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('AnalyticalPropagatorOpposite'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('oppositeToMomentum') ) process.OppositeAnalyticalPropagatorParabolicMF = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('AnalyticalPropagatorParabolicMfOpposite'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('oppositeToMomentum'), SimpleMagneticField = cms.string('ParabolicMf') ) 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.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.ParabolicParametrizedMagneticFieldProducer = cms.ESProducer("AutoParametrizedMagneticFieldProducer", label = cms.untracked.string('ParabolicMf'), valueOverride = cms.int32(-1), version = cms.string('Parabolic') ) process.PixelCPEGenericESProducer = cms.ESProducer("PixelCPEGenericESProducer", Alpha2Order = cms.bool(True), ClusterProbComputationFlag = cms.int32(0), ComponentName = cms.string('PixelCPEGeneric'), DoCosmics = cms.bool(False), EdgeClusterErrorX = cms.double(50.0), EdgeClusterErrorY = cms.double(85.0), IrradiationBiasCorrection = cms.bool(False), LoadTemplatesFromDB = cms.bool(True), MagneticFieldRecord = cms.ESInputTag(""), PixelErrorParametrization = cms.string('NOTcmsim'), TruncatePixelCharge = cms.bool(True), UseErrorsFromTemplates = cms.bool(True), 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), size_cutX = cms.double(3.0), size_cutY = cms.double(3.0), useLAAlignmentOffsets = cms.bool(False), useLAWidthFromDB = cms.bool(True) ) 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(''), ptMin = cms.double(-1), useOldAnalPropLogic = cms.bool(False), useRungeKutta = cms.bool(False) ) process.PropagatorWithMaterialForLoopersOpposite = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('PropagatorWithMaterialForLoopersOpposite'), Mass = cms.double(0.1396), MaxDPhi = cms.double(4.0), PropagationDirection = cms.string('oppositeToMomentum'), SimpleMagneticField = cms.string(''), ptMin = cms.double(-1), useOldAnalPropLogic = cms.bool(False), useRungeKutta = cms.bool(False) ) process.RK1DFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('RK1DFittingSmoother'), EstimateCut = cms.double(-1), Fitter = cms.string('RK1DFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('RK1DSmoother'), appendToDataLabel = cms.string('') ) process.RK1DTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('RK1DFitter'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFSwitching1DUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.RK1DTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('RK1DSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFSwitching1DUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) process.RKFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('RKFittingSmoother'), EstimateCut = cms.double(-1), Fitter = cms.string('RKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(5), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('RKSmoother'), appendToDataLabel = cms.string('') ) process.RKOutliers1DFittingSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('RKOutliers1DFittingSmoother'), EstimateCut = cms.double(20.0), Fitter = cms.string('RK1DFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('RK1DSmoother'), appendToDataLabel = cms.string('') ) process.RKTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('RKFitter'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(3) ) process.RKTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('RKSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(100), minHits = cms.int32(3) ) process.RPCGeometryESModule = cms.ESProducer("RPCGeometryESModule", compatibiltyWith11 = cms.untracked.bool(True), useDDD = cms.untracked.bool(False) ) process.RungeKuttaTrackerPropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('RungeKuttaTrackerPropagator'), 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.RungeKuttaTrackerPropagatorOpposite = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('RungeKuttaTrackerPropagatorOpposite'), 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(True) ) process.SiStripRecHitMatcherESProducer = cms.ESProducer("SiStripRecHitMatcherESProducer", ComponentName = cms.string('StandardMatcher'), NSigmaInside = cms.double(3.0), PreFilter = cms.bool(False) ) process.SmartPropagator = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagator'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorAlong'), PropagationDirection = cms.string('alongMomentum'), TrackerPropagator = cms.string('PropagatorWithMaterial') ) process.SmartPropagatorAny = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorAny'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorAny'), PropagationDirection = cms.string('alongMomentum'), TrackerPropagator = cms.string('PropagatorWithMaterial') ) process.SmartPropagatorAnyOpposite = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorAnyOpposite'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorAny'), PropagationDirection = cms.string('oppositeToMomentum'), TrackerPropagator = cms.string('PropagatorWithMaterialOpposite') ) process.SmartPropagatorAnyRK = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorAnyRK'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorAny'), PropagationDirection = cms.string('alongMomentum'), TrackerPropagator = cms.string('RungeKuttaTrackerPropagator') ) process.SmartPropagatorAnyRKOpposite = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorAnyRKOpposite'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorAny'), PropagationDirection = cms.string('oppositeToMomentum'), TrackerPropagator = cms.string('RungeKuttaTrackerPropagatorOpposite') ) process.SmartPropagatorOpposite = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorOpposite'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorOpposite'), PropagationDirection = cms.string('oppositeToMomentum'), TrackerPropagator = cms.string('PropagatorWithMaterialOpposite') ) process.SmartPropagatorRK = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorRK'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorAlong'), PropagationDirection = cms.string('alongMomentum'), TrackerPropagator = cms.string('RungeKuttaTrackerPropagator') ) process.SmartPropagatorRKOpposite = cms.ESProducer("SmartPropagatorESProducer", ComponentName = cms.string('SmartPropagatorRKOpposite'), Epsilon = cms.double(5.0), MuonPropagator = cms.string('SteppingHelixPropagatorOpposite'), PropagationDirection = cms.string('oppositeToMomentum'), TrackerPropagator = cms.string('RungeKuttaTrackerPropagatorOpposite') ) process.SteppingHelixPropagatorAlong = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorAlong'), 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.SteppingHelixPropagatorAlongNoError = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorAlongNoError'), NoErrorPropagation = cms.bool(True), 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.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.SteppingHelixPropagatorAnyNoError = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorAnyNoError'), NoErrorPropagation = cms.bool(True), 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.SteppingHelixPropagatorL2Along = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorL2Along'), 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(True) ) process.SteppingHelixPropagatorL2AlongNoError = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorL2AlongNoError'), NoErrorPropagation = cms.bool(True), 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(True) ) process.SteppingHelixPropagatorL2Any = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorL2Any'), 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.SteppingHelixPropagatorL2AnyNoError = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorL2AnyNoError'), NoErrorPropagation = cms.bool(True), 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.SteppingHelixPropagatorL2Opposite = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorL2Opposite'), 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.SteppingHelixPropagatorL2OppositeNoError = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorL2OppositeNoError'), NoErrorPropagation = cms.bool(True), 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.SteppingHelixPropagatorOpposite = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorOpposite'), 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.SteppingHelixPropagatorOppositeNoError = cms.ESProducer("SteppingHelixPropagatorESProducer", ApplyRadX0Correction = cms.bool(True), AssumeNoMaterial = cms.bool(False), ComponentName = cms.string('SteppingHelixPropagatorOppositeNoError'), NoErrorPropagation = cms.bool(True), 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.StraightLinePropagator = cms.ESProducer("StraightLinePropagatorESProducer", ComponentName = cms.string('StraightLinePropagator'), PropagationDirection = cms.string('alongMomentum') ) process.StripCPEESProducer = cms.ESProducer("StripCPEESProducer", ComponentName = cms.string('SimpleStripCPE'), ComponentType = cms.string('SimpleStripCPE'), parameters = cms.PSet( ) ) process.StripCPEfromTrackAngleESProducer = cms.ESProducer("StripCPEESProducer", ComponentName = cms.string('StripCPEfromTrackAngle'), 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.TTRHBuilderAngleAndTemplate = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('WithAngleAndTemplate'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPETemplateReco'), StripCPE = cms.string('StripCPEfromTrackAngle') ) process.TrackerRecoGeometryESProducer = cms.ESProducer("TrackerRecoGeometryESProducer") process.TrajectoryCleanerBySharedHitsForConversions = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('TrajectoryCleanerBySharedHitsForConversions'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.5) ) 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.XMLIdealGeometryESSource_CTPPS = cms.ESProducer("XMLIdealGeometryESProducer", appendToDataLabel = cms.string('XMLIdealGeometryESSource_CTPPS'), label = cms.string('CTPPS'), rootDDName = cms.string('cms:CMSE') ) process.ZdcGeometryFromDBEP = cms.ESProducer("ZdcGeometryFromDBEP", applyAlignment = cms.bool(False) ) process.alongMomElePropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('alongMomElePropagator'), 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.beamHaloNavigationSchoolESProducer = cms.ESProducer("NavigationSchoolESProducer", ComponentName = cms.string('BeamHaloNavigationSchool'), SimpleMagneticField = cms.string('') ) process.bwdAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('bwdAnalyticalPropagator'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('oppositeToMomentum') ) process.bwdElectronPropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('bwdElectronPropagator'), 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.bwdGsfElectronPropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('bwdGsfElectronPropagator'), 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.caloDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer", ComponentName = cms.string('CaloDetIdAssociator'), etaBinSize = cms.double(0.087), nEta = cms.int32(70), nPhi = cms.int32(72) ) process.candidateBoostedDoubleSecondaryVertexAK8Computer = cms.ESProducer("CandidateBoostedDoubleSecondaryVertexESProducer", useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SecondaryVertex/data/BoostedDoubleSV_AK8_BDT_PhaseI_v1.weights.xml.gz') ) process.candidateBoostedDoubleSecondaryVertexCA15Computer = cms.ESProducer("CandidateBoostedDoubleSecondaryVertexESProducer", useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SecondaryVertex/data/BoostedDoubleSV_CA15_BDT_v3.weights.xml.gz') ) process.candidateChargeBTagComputer = cms.ESProducer("CandidateChargeBTagESProducer", gbrForestLabel = cms.string(''), jetChargeExp = cms.double(0.8), svChargeExp = cms.double(0.5), useAdaBoost = cms.bool(True), useCondDB = cms.bool(False), weightFile = cms.FileInPath('RecoBTag/Combined/data/ChargeBTag_4sep_2016.weights.xml.gz') ) process.candidateCombinedMVAV2Computer = cms.ESProducer("CombinedMVAV2JetTagESProducer", gbrForestLabel = cms.string('btag_CombinedMVAv2_BDT'), jetTagComputers = cms.vstring( 'candidateJetProbabilityComputer', 'candidateJetBProbabilityComputer', 'candidateCombinedSecondaryVertexV2Computer', 'softPFMuonComputer', 'softPFElectronComputer' ), mvaName = cms.string('bdt'), spectators = cms.vstring(), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), variables = cms.vstring( 'Jet_CSV', 'Jet_CSVIVF', 'Jet_JP', 'Jet_JBP', 'Jet_SoftMu', 'Jet_SoftEl' ), weightFile = cms.FileInPath('RecoBTag/Combined/data/CombinedMVAV2_13_07_2015.weights.xml.gz') ) process.candidateCombinedSecondaryVertexSoftLeptonComputer = cms.ESProducer("CandidateCombinedSecondaryVertexSoftLeptonESProducer", SoftLeptonFlip = cms.bool(False), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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.candidateCombinedSecondaryVertexSoftLeptonCvsLComputer = cms.ESProducer("CandidateCombinedSecondaryVertexSoftLeptonCvsLESProducer", SoftLeptonFlip = cms.bool(False), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLeptonCvsL', 'CombinedSVPseudoVertexNoSoftLeptonCvsL', 'CombinedSVNoVertexNoSoftLeptonCvsL', 'CombinedSVRecoVertexSoftMuonCvsL', 'CombinedSVPseudoVertexSoftMuonCvsL', 'CombinedSVNoVertexSoftMuonCvsL', 'CombinedSVRecoVertexSoftElectronCvsL', 'CombinedSVPseudoVertexSoftElectronCvsL', 'CombinedSVNoVertexSoftElectronCvsL' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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.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.candidateGhostTrackComputer = cms.ESProducer("CandidateGhostTrackESProducer", calibrationRecords = cms.vstring( 'GhostTrackRecoVertex', 'GhostTrackPseudoVertex', 'GhostTrackNoVertex' ), categoryVariableName = cms.string('vertexCategory'), charmCut = cms.double(1.5), minimumTrackWeight = cms.double(0.5), recordLabel = cms.string(''), trackPairV0Filter = cms.PSet( k0sMassWindow = cms.double(0.03) ), 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) ) process.candidateJetBProbabilityComputer = cms.ESProducer("CandidateJetBProbabilityESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), numberOfBTracks = cms.uint32(4), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.candidateJetProbabilityComputer = cms.ESProducer("CandidateJetProbabilityESProducer", 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(0.3), impactParameterType = cms.int32(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.candidateNegativeCombinedMVAV2Computer = cms.ESProducer("CombinedMVAV2JetTagESProducer", gbrForestLabel = cms.string('btag_CombinedMVAv2_BDT'), jetTagComputers = cms.vstring( 'candidateNegativeOnlyJetProbabilityComputer', 'candidateNegativeOnlyJetBProbabilityComputer', 'candidateNegativeCombinedSecondaryVertexV2Computer', 'negativeSoftPFMuonComputer', 'negativeSoftPFElectronComputer' ), mvaName = cms.string('bdt'), spectators = cms.vstring(), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), variables = cms.vstring( 'Jet_CSV', 'Jet_CSVIVF', 'Jet_JP', 'Jet_JBP', 'Jet_SoftMu', 'Jet_SoftEl' ), weightFile = cms.FileInPath('RecoBTag/Combined/data/CombinedMVAV2_13_07_2015.weights.xml.gz') ) process.candidateNegativeCombinedSecondaryVertexV2Computer = 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(True), 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(-2.0), sip2dSigMin = cms.double(-99999.9), sip2dValMax = cms.double(99999.9), sip2dValMin = cms.double(-99999.9), sip3dSigMax = cms.double(0), 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(0), 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(True) ) process.candidateNegativeOnlyJetBProbabilityComputer = cms.ESProducer("CandidateJetBProbabilityESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), numberOfBTracks = cms.uint32(4), trackIpSign = cms.int32(-1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.candidateNegativeOnlyJetProbabilityComputer = cms.ESProducer("CandidateJetProbabilityESProducer", 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(0.3), impactParameterType = cms.int32(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), trackIpSign = cms.int32(-1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.candidateNegativeTrackCounting3D2ndComputer = cms.ESProducer("CandidateNegativeTrackCountingESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(2), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.candidateNegativeTrackCounting3D3rdComputer = cms.ESProducer("CandidateNegativeTrackCountingESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(3), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.candidatePositiveCombinedMVAV2Computer = cms.ESProducer("CombinedMVAV2JetTagESProducer", gbrForestLabel = cms.string('btag_CombinedMVAv2_BDT'), jetTagComputers = cms.vstring( 'candidatePositiveOnlyJetProbabilityComputer', 'candidatePositiveOnlyJetBProbabilityComputer', 'candidatePositiveCombinedSecondaryVertexV2Computer', 'negativeSoftPFMuonComputer', 'negativeSoftPFElectronComputer' ), mvaName = cms.string('bdt'), spectators = cms.vstring(), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), variables = cms.vstring( 'Jet_CSV', 'Jet_CSVIVF', 'Jet_JP', 'Jet_JBP', 'Jet_SoftMu', 'Jet_SoftEl' ), weightFile = cms.FileInPath('RecoBTag/Combined/data/CombinedMVAV2_13_07_2015.weights.xml.gz') ) process.candidatePositiveCombinedSecondaryVertexV2Computer = 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(0), 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(0), 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.candidatePositiveOnlyJetBProbabilityComputer = cms.ESProducer("CandidateJetBProbabilityESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), numberOfBTracks = cms.uint32(4), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.candidatePositiveOnlyJetProbabilityComputer = cms.ESProducer("CandidateJetProbabilityESProducer", 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(0.3), impactParameterType = cms.int32(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.candidateSimpleSecondaryVertex2TrkComputer = cms.ESProducer("CandidateSimpleSecondaryVertexESProducer", minTracks = cms.uint32(2), unBoost = cms.bool(False), use3d = cms.bool(True), useSignificance = cms.bool(True) ) process.candidateSimpleSecondaryVertex3TrkComputer = cms.ESProducer("CandidateSimpleSecondaryVertexESProducer", minTracks = cms.uint32(3), unBoost = cms.bool(False), use3d = cms.bool(True), useSignificance = cms.bool(True) ) process.candidateTrackCounting3D2ndComputer = cms.ESProducer("CandidateTrackCountingESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(2), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.candidateTrackCounting3D3rdComputer = cms.ESProducer("CandidateTrackCountingESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(3), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.charmTagsComputerCvsB = cms.ESProducer("CharmTaggerESProducer", computer = cms.ESInputTag("combinedSecondaryVertexSoftLeptonComputer"), defaultValueNoTracks = cms.bool(True), gbrForestLabel = cms.string(''), mvaName = cms.string('BDT'), slComputerCfg = cms.PSet( SoftLeptonFlip = cms.bool(False), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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) ), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")), useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ), weightFile = cms.FileInPath('RecoBTag/CTagging/data/c_vs_b_PhaseI.xml') ) process.charmTagsComputerCvsL = cms.ESProducer("CharmTaggerESProducer", computer = cms.ESInputTag("combinedSecondaryVertexSoftLeptonComputer"), defaultValueNoTracks = cms.bool(True), gbrForestLabel = cms.string(''), mvaName = cms.string('BDT'), slComputerCfg = cms.PSet( SoftLeptonFlip = cms.bool(False), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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) ), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")), useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ), weightFile = cms.FileInPath('RecoBTag/CTagging/data/c_vs_udsg_PhaseI.xml') ) process.charmTagsNegativeComputerCvsB = cms.ESProducer("CharmTaggerESProducer", computer = cms.ESInputTag("combinedSecondaryVertexSoftLeptonComputer"), defaultValueNoTracks = cms.bool(True), gbrForestLabel = cms.string(''), mvaName = cms.string('BDT'), slComputerCfg = cms.PSet( SoftLeptonFlip = cms.bool(True), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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(True), 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(-2.0), sip2dSigMin = cms.double(-99999.9), sip2dValMax = cms.double(99999.9), sip2dValMin = cms.double(-99999.9), sip3dSigMax = cms.double(0), 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(0), 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(True) ), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")), useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ), weightFile = cms.FileInPath('RecoBTag/CTagging/data/c_vs_b_PhaseI.xml') ) process.charmTagsNegativeComputerCvsL = cms.ESProducer("CharmTaggerESProducer", computer = cms.ESInputTag("combinedSecondaryVertexSoftLeptonComputer"), defaultValueNoTracks = cms.bool(True), gbrForestLabel = cms.string(''), mvaName = cms.string('BDT'), slComputerCfg = cms.PSet( SoftLeptonFlip = cms.bool(True), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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(True), 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(-2.0), sip2dSigMin = cms.double(-99999.9), sip2dValMax = cms.double(99999.9), sip2dValMin = cms.double(-99999.9), sip3dSigMax = cms.double(0), 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(0), 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(True) ), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")), useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ), weightFile = cms.FileInPath('RecoBTag/CTagging/data/c_vs_udsg_PhaseI.xml') ) process.charmTagsPositiveComputerCvsB = cms.ESProducer("CharmTaggerESProducer", computer = cms.ESInputTag("combinedSecondaryVertexSoftLeptonComputer"), defaultValueNoTracks = cms.bool(True), gbrForestLabel = cms.string(''), mvaName = cms.string('BDT'), slComputerCfg = cms.PSet( SoftLeptonFlip = cms.bool(False), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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(0), 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(0), 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) ), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")), useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ), weightFile = cms.FileInPath('RecoBTag/CTagging/data/c_vs_b_PhaseI.xml') ) process.charmTagsPositiveComputerCvsL = cms.ESProducer("CharmTaggerESProducer", computer = cms.ESInputTag("combinedSecondaryVertexSoftLeptonComputer"), defaultValueNoTracks = cms.bool(True), gbrForestLabel = cms.string(''), mvaName = cms.string('BDT'), slComputerCfg = cms.PSet( SoftLeptonFlip = cms.bool(False), calibrationRecords = cms.vstring( 'CombinedSVRecoVertexNoSoftLepton', 'CombinedSVPseudoVertexNoSoftLepton', 'CombinedSVNoVertexNoSoftLepton', 'CombinedSVRecoVertexSoftMuon', 'CombinedSVPseudoVertexSoftMuon', 'CombinedSVNoVertexSoftMuon', 'CombinedSVRecoVertexSoftElectron', 'CombinedSVPseudoVertexSoftElectron', 'CombinedSVNoVertexSoftElectron' ), categoryVariableName = cms.string('vertexLeptonCategory'), 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(0), 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(0), 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) ), tagInfos = cms.VInputTag(cms.InputTag("pfImpactParameterTagInfos"), cms.InputTag("pfInclusiveSecondaryVertexFinderCvsLTagInfos"), cms.InputTag("softPFMuonsTagInfos"), cms.InputTag("softPFElectronsTagInfos")), useAdaBoost = cms.bool(False), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.VPSet( cms.PSet( default = cms.double(-1), name = cms.string('vertexLeptonCategory'), taggingVarName = cms.string('vertexLeptonCategory') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip2dSig_0'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip2dSig_1'), taggingVarName = cms.string('trackSip2dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(0), name = cms.string('trackSip3dSig_0'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-100), idx = cms.int32(1), name = cms.string('trackSip3dSig_1'), taggingVarName = cms.string('trackSip3dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPtRel_0'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPtRel_1'), taggingVarName = cms.string('trackPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackPPar_0'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackPPar_1'), taggingVarName = cms.string('trackPPar') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('trackEtaRel_0'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('trackEtaRel_1'), taggingVarName = cms.string('trackEtaRel') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDeltaR_0'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDeltaR_1'), taggingVarName = cms.string('trackDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackPtRatio_0'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackPtRatio_1'), taggingVarName = cms.string('trackPtRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(0), name = cms.string('trackPParRatio_0'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(1.1), idx = cms.int32(1), name = cms.string('trackPParRatio_1'), taggingVarName = cms.string('trackPParRatio') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackJetDist_0'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackJetDist_1'), taggingVarName = cms.string('trackJetDist') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('trackDecayLenVal_0'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(1), name = cms.string('trackDecayLenVal_1'), taggingVarName = cms.string('trackDecayLenVal') ), cms.PSet( default = cms.double(0), name = cms.string('jetNSecondaryVertices'), taggingVarName = cms.string('jetNSecondaryVertices') ), cms.PSet( default = cms.double(-0.1), name = cms.string('jetNTracks'), taggingVarName = cms.string('jetNTracks') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetEtRatio'), taggingVarName = cms.string('trackSumJetEtRatio') ), cms.PSet( default = cms.double(-0.1), name = cms.string('trackSumJetDeltaR'), taggingVarName = cms.string('trackSumJetDeltaR') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexMass_0'), taggingVarName = cms.string('vertexMass') ), cms.PSet( default = cms.double(-10), idx = cms.int32(0), name = cms.string('vertexEnergyRatio_0'), taggingVarName = cms.string('vertexEnergyRatio') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip2dSigAboveCharm_0'), taggingVarName = cms.string('trackSip2dSigAboveCharm') ), cms.PSet( default = cms.double(-999), idx = cms.int32(0), name = cms.string('trackSip3dSigAboveCharm_0'), taggingVarName = cms.string('trackSip3dSigAboveCharm') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance2dSig_0'), taggingVarName = cms.string('flightDistance2dSig') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('flightDistance3dSig_0'), taggingVarName = cms.string('flightDistance3dSig') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexJetDeltaR_0'), taggingVarName = cms.string('vertexJetDeltaR') ), cms.PSet( default = cms.double(0), idx = cms.int32(0), name = cms.string('vertexNTracks_0'), taggingVarName = cms.string('vertexNTracks') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('massVertexEnergyFraction_0'), taggingVarName = cms.string('massVertexEnergyFraction') ), cms.PSet( default = cms.double(-0.1), idx = cms.int32(0), name = cms.string('vertexBoostOverSqrtJetPt_0'), taggingVarName = cms.string('vertexBoostOverSqrtJetPt') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonPtRel_0'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonPtRel_1'), taggingVarName = cms.string('leptonPtRel') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(0), name = cms.string('leptonSip3d_0'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-10000), idx = cms.int32(1), name = cms.string('leptonSip3d_1'), taggingVarName = cms.string('leptonSip3d') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonDeltaR_0'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonDeltaR_1'), taggingVarName = cms.string('leptonDeltaR') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatioRel_0'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatioRel_1'), taggingVarName = cms.string('leptonRatioRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonEtaRel_0'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonEtaRel_1'), taggingVarName = cms.string('leptonEtaRel') ), cms.PSet( default = cms.double(-1), idx = cms.int32(0), name = cms.string('leptonRatio_0'), taggingVarName = cms.string('leptonRatio') ), cms.PSet( default = cms.double(-1), idx = cms.int32(1), name = cms.string('leptonRatio_1'), taggingVarName = cms.string('leptonRatio') ) ), weightFile = cms.FileInPath('RecoBTag/CTagging/data/c_vs_udsg_PhaseI.xml') ) process.chi2CutForConversionTrajectoryBuilder = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('eleLooseChi2'), MaxChi2 = cms.double(100000.0), MaxDisplacement = cms.double(100.0), MaxSagitta = cms.double(-1), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.combinedMVAV2Computer = cms.ESProducer("CombinedMVAV2JetTagESProducer", jetTagComputers = cms.vstring( 'jetProbabilityComputer', 'jetBProbabilityComputer', 'combinedSecondaryVertexV2Computer', 'softPFMuonComputer', 'softPFElectronComputer' ), mvaName = cms.string('bdt'), spectators = cms.vstring(), useAdaBoost = cms.bool(True), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.vstring( 'Jet_CSV', 'Jet_CSVIVF', 'Jet_JP', 'Jet_JBP', 'Jet_SoftMu', 'Jet_SoftEl' ), weightFile = cms.FileInPath('RecoBTag/Combined/data/CombinedMVAV2_13_07_2015.weights.xml.gz') ) process.combinedSecondaryVertexV2Computer = 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(''), 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.conv2StepFitterSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('conv2StepFitterSmoother'), EstimateCut = cms.double(30), Fitter = cms.string('RKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('conv2StepRKSmoother'), appendToDataLabel = cms.string('') ) process.conv2StepRKTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('conv2StepRKSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(3) ) process.convStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('convStepChi2Est'), MaxChi2 = cms.double(30.0), MaxDisplacement = cms.double(100), MaxSagitta = cms.double(-1.0), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.convStepFitterSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('convStepFitterSmoother'), EstimateCut = cms.double(30), Fitter = cms.string('RKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('convStepRKSmoother'), appendToDataLabel = cms.string('') ) process.convStepRKTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('convStepRKSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(3) ) process.cosmicsNavigationSchoolESProducer = cms.ESProducer("SkippingLayerCosmicNavigationSchoolESProducer", ComponentName = cms.string('CosmicNavigationSchool'), allSelf = cms.bool(True), noPXB = cms.bool(False), noPXF = cms.bool(False), noTEC = cms.bool(False), noTIB = cms.bool(False), noTID = cms.bool(False), noTOB = cms.bool(False), selfSearch = cms.bool(True) ) process.ctppsGeometryESModule = cms.ESProducer("CTPPSGeometryESModule", compactViewTag = cms.string('XMLIdealGeometryESSource_CTPPS'), verbosity = cms.untracked.uint32(1) ) process.detachedQuadStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('detachedQuadStepChi2Est'), MaxChi2 = cms.double(9.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3), pTChargeCutThreshold = cms.double(-1) ) process.detachedQuadStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('detachedQuadStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.13) ) process.detachedTripletStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('detachedTripletStepChi2Est'), MaxChi2 = cms.double(9.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.detachedTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('detachedTripletStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.13) ) process.doubleVertex2TrkComputer = cms.ESProducer("SimpleSecondaryVertexESProducer", minTracks = cms.uint32(2), minVertices = cms.uint32(2), unBoost = cms.bool(False), use3d = cms.bool(True), useSignificance = cms.bool(True) ) process.duplicateDisplaceTrackCandidatesChi2Est = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('duplicateDisplacedTrackCandidatesChi2Est'), MaxChi2 = cms.double(100), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.duplicateTrackCandidatesChi2Est = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('duplicateTrackCandidatesChi2Est'), MaxChi2 = cms.double(100), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.ecalDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer", ComponentName = cms.string('EcalDetIdAssociator'), etaBinSize = cms.double(0.02), nEta = cms.int32(300), nPhi = cms.int32(360) ) process.ecalNextToDeadChannelESProducer = cms.ESProducer("EcalNextToDeadChannelESProducer", channelStatusThresholdForDead = cms.int32(12) ) 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.electronChi2 = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('electronChi2'), MaxChi2 = cms.double(100.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3) ) process.electronTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('electronTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(0.0), ValidHitBonus = cms.double(1000.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.19) ) process.fakeForIdealAlignment = cms.ESProducer("FakeAlignmentProducer", appendToDataLabel = cms.string('fakeForIdeal') ) process.fwdAnalyticalPropagator = cms.ESProducer("AnalyticalPropagatorESProducer", ComponentName = cms.string('fwdAnalyticalPropagator'), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('alongMomentum') ) process.fwdElectronPropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('fwdElectronPropagator'), 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.fwdGsfElectronPropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('fwdGsfElectronPropagator'), 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.ghostTrackComputer = cms.ESProducer("GhostTrackESProducer", calibrationRecords = cms.vstring( 'GhostTrackRecoVertex', 'GhostTrackPseudoVertex', 'GhostTrackNoVertex' ), categoryVariableName = cms.string('vertexCategory'), charmCut = cms.double(1.5), minimumTrackWeight = cms.double(0.5), recordLabel = cms.string(''), trackPairV0Filter = cms.PSet( k0sMassWindow = cms.double(0.03) ), 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) ) 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), nEta = cms.int32(70), nPhi = cms.int32(72) ) process.hcalOOTPileupESProducer = cms.ESProducer("OOTPileupDBCompatibilityESProducer") 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('') ), 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('HBHEIsolatedNoise') ), cms.PSet( ChannelStatus = cms.vstring(''), Level = cms.int32(8), RecHitFlags = cms.vstring( 'HBHEHpdHitMultiplicity', 'HBHESpikeNoise', 'HBHETS4TS5Noise', 'HBHEOOTPU' ) ), cms.PSet( ChannelStatus = cms.vstring(''), Level = cms.int32(11), RecHitFlags = cms.vstring( 'HFLongShort', 'HFS8S1Ratio', 'HFPET', 'HFSignalAsymmetry', 'HFDigiTime' ) ), cms.PSet( ChannelStatus = cms.vstring('HcalCellCaloTowerMask'), Level = cms.int32(12), RecHitFlags = cms.vstring( 'HBHEFlatNoise', 'HBHENegativeNoise' ) ), 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.hcalTopologyIdeal = cms.ESProducer("HcalTopologyIdealEP", Exclude = cms.untracked.string(''), MergePosition = cms.untracked.bool(False), appendToDataLabel = cms.string('') ) process.hcal_db_producer = cms.ESProducer("HcalDbProducer", dump = cms.untracked.vstring(''), file = cms.untracked.string('') ) process.highPtTripletStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('highPtTripletStepChi2Est'), MaxChi2 = cms.double(30), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutLoose') ), nSigma = cms.double(3), pTChargeCutThreshold = cms.double(15.0) ) process.highPtTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('highPtTripletStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.16) ) process.hitCollectorForCosmicDCSeeds = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('hitCollectorForCosmicDCSeeds'), MaxChi2 = cms.double(100.0), MaxDisplacement = cms.double(100), MaxSagitta = cms.double(-1.0), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(4.0) ) process.hitCollectorForOutInMuonSeeds = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('hitCollectorForOutInMuonSeeds'), MaxChi2 = cms.double(100.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(4.0) ) process.hoDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer", ComponentName = cms.string('HODetIdAssociator'), etaBinSize = cms.double(0.087), nEta = cms.int32(30), nPhi = cms.int32(72) ) process.idealForDigiCSCGeometry = cms.ESProducer("CSCGeometryESModule", alignmentsLabel = cms.string('fakeForIdeal'), appendToDataLabel = cms.string('idealForDigi'), applyAlignment = cms.bool(False), debugV = cms.untracked.bool(False), useCentreTIOffsets = cms.bool(False), useDDD = cms.bool(False), useGangedStripsInME1a = cms.bool(False), useOnlyWiresInME1a = cms.bool(False), useRealWireGeometry = cms.bool(True) ) process.idealForDigiDTGeometry = cms.ESProducer("DTGeometryESModule", alignmentsLabel = cms.string('fakeForIdeal'), appendToDataLabel = cms.string('idealForDigi'), applyAlignment = cms.bool(False), fromDDD = cms.bool(False) ) process.idealForDigiTrackerGeometry = cms.ESProducer("TrackerDigiGeometryESModule", alignmentsLabel = cms.string('fakeForIdeal'), appendToDataLabel = cms.string('idealForDigi'), applyAlignment = cms.bool(False), fromDDD = cms.bool(False) ) process.impactParameterMVAComputer = cms.ESProducer("GenericMVAJetTagESProducer", calibrationRecord = cms.string('ImpactParameterMVA'), recordLabel = cms.string(''), useCategories = cms.bool(False) ) process.initialStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('initialStepChi2Est'), MaxChi2 = cms.double(30.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutLoose') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(15.0) ) process.initialStepChi2EstPreSplitting = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('initialStepChi2EstPreSplitting'), MaxChi2 = cms.double(16.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutLoose') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.jetBProbabilityComputer = cms.ESProducer("JetBProbabilityESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), numberOfBTracks = cms.uint32(4), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.jetCoreRegionalStepChi2Est = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('jetCoreRegionalStepChi2Est'), MaxChi2 = cms.double(30.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3.0) ) process.jetProbabilityComputer = cms.ESProducer("JetProbabilityESProducer", 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(0.3), impactParameterType = cms.int32(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.lowPtQuadStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('lowPtQuadStepChi2Est'), MaxChi2 = cms.double(9.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3), pTChargeCutThreshold = cms.double(-1) ) process.lowPtQuadStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('lowPtQuadStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.16) ) process.lowPtTripletStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('lowPtTripletStepChi2Est'), MaxChi2 = cms.double(9.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.lowPtTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('lowPtTripletStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.16) ) process.mixedTripletStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('mixedTripletStepChi2Est'), MaxChi2 = cms.double(16.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.mixedTripletStepClusterShapeHitFilter = cms.ESProducer("ClusterShapeHitFilterESProducer", ComponentName = cms.string('mixedTripletStepClusterShapeHitFilter'), PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'), PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ) ) process.mixedTripletStepPropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('mixedTripletStepPropagator'), Mass = cms.double(0.105), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('alongMomentum'), SimpleMagneticField = cms.string(''), ptMin = cms.double(0.4), useRungeKutta = cms.bool(False) ) process.mixedTripletStepPropagatorOpposite = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('mixedTripletStepPropagatorOpposite'), Mass = cms.double(0.105), MaxDPhi = cms.double(1.6), PropagationDirection = cms.string('oppositeToMomentum'), SimpleMagneticField = cms.string(''), ptMin = cms.double(0.4), useRungeKutta = cms.bool(False) ) process.mixedTripletStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('mixedTripletStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.11) ) process.muonDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer", ComponentName = cms.string('MuonDetIdAssociator'), etaBinSize = cms.double(0.125), includeBadChambers = cms.bool(True), includeGEM = cms.bool(False), includeME0 = cms.bool(False), nEta = cms.int32(48), nPhi = cms.int32(48) ) process.muonSeededFittingSmootherWithOutliersRejectionAndRK = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(False), ComponentName = cms.string('muonSeededFittingSmootherWithOutliersRejectionAndRK'), EstimateCut = cms.double(50.0), Fitter = cms.string('RKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(3), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('RKSmoother'), appendToDataLabel = cms.string('') ) process.muonSeededMeasurementEstimatorForInOut = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('muonSeededMeasurementEstimatorForInOut'), MaxChi2 = cms.double(80.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(-1.0), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(4.0) ) process.muonSeededMeasurementEstimatorForOutIn = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('muonSeededMeasurementEstimatorForOutIn'), MaxChi2 = cms.double(30.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(-1.0), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3.0) ) process.muonSeededMeasurementEstimatorForOutInDisplaced = cms.ESProducer("Chi2MeasurementEstimatorESProducer", ComponentName = cms.string('muonSeededMeasurementEstimatorForOutInDisplaced'), MaxChi2 = cms.double(30.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), nSigma = cms.double(3.0) ) 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.myTTRHBuilderWithoutAngle = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('PixelTTRHBuilderWithoutAngle'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPEGeneric'), StripCPE = cms.string('Fake') ) process.myTTRHBuilderWithoutAngle4MixedPairs = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('TTRHBuilderWithoutAngle4MixedPairs'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPEGeneric'), StripCPE = cms.string('Fake') ) process.myTTRHBuilderWithoutAngle4MixedTriplets = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('TTRHBuilderWithoutAngle4MixedTriplets'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPEGeneric'), StripCPE = cms.string('Fake') ) process.myTTRHBuilderWithoutAngle4PixelPairs = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('TTRHBuilderWithoutAngle4PixelPairs'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPEGeneric'), StripCPE = cms.string('Fake') ) process.myTTRHBuilderWithoutAngle4PixelTriplets = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('TTRHBuilderWithoutAngle4PixelTriplets'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPEGeneric'), StripCPE = cms.string('Fake') ) process.navigationSchoolESProducer = cms.ESProducer("NavigationSchoolESProducer", ComponentName = cms.string('SimpleNavigationSchool'), SimpleMagneticField = cms.string('') ) process.negativeCombinedMVAV2Computer = cms.ESProducer("CombinedMVAV2JetTagESProducer", jetTagComputers = cms.vstring( 'negativeOnlyJetProbabilityComputer', 'negativeOnlyJetBProbabilityComputer', 'negativeCombinedSecondaryVertexV2Computer', 'negativeSoftPFMuonComputer', 'negativeSoftPFElectronComputer' ), mvaName = cms.string('bdt'), spectators = cms.vstring(), useAdaBoost = cms.bool(True), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.vstring( 'Jet_CSV', 'Jet_CSVIVF', 'Jet_JP', 'Jet_JBP', 'Jet_SoftMu', 'Jet_SoftEl' ), weightFile = cms.FileInPath('RecoBTag/Combined/data/CombinedMVAV2_13_07_2015.weights.xml.gz') ) process.negativeCombinedSecondaryVertexV2Computer = 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(''), trackFlip = cms.bool(True), 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(-2.0), sip2dSigMin = cms.double(-99999.9), sip2dValMax = cms.double(99999.9), sip2dValMin = cms.double(-99999.9), sip3dSigMax = cms.double(0), 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(0), 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(True) ) process.negativeOnlyJetBProbabilityComputer = cms.ESProducer("JetBProbabilityESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), numberOfBTracks = cms.uint32(4), trackIpSign = cms.int32(-1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.negativeOnlyJetProbabilityComputer = cms.ESProducer("JetProbabilityESProducer", 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(0.3), impactParameterType = cms.int32(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), trackIpSign = cms.int32(-1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.negativeSoftPFElectronByIP2dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('negative'), use3d = cms.bool(False) ) process.negativeSoftPFElectronByIP3dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('negative'), use3d = cms.bool(True) ) process.negativeSoftPFElectronByPtComputer = cms.ESProducer("LeptonTaggerByPtESProducer", ipSign = cms.string('negative') ) process.negativeSoftPFElectronComputer = cms.ESProducer("ElectronTaggerESProducer", gbrForestLabel = cms.string('btag_SoftPFElectron_BDT'), ipSign = cms.string('negative'), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFElectron_BDT.weights.xml.gz') ) process.negativeSoftPFMuonByIP2dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('negative'), use3d = cms.bool(False) ) process.negativeSoftPFMuonByIP3dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('negative'), use3d = cms.bool(True) ) process.negativeSoftPFMuonByPtComputer = cms.ESProducer("LeptonTaggerByPtESProducer", ipSign = cms.string('negative') ) process.negativeSoftPFMuonComputer = cms.ESProducer("MuonTaggerESProducer", gbrForestLabel = cms.string('btag_SoftPFMuon_BDT'), ipSign = cms.string('negative'), useAdaBoost = cms.bool(True), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFMuon_BDT.weights.xml.gz') ) process.negativeTrackCounting3D2ndComputer = cms.ESProducer("NegativeTrackCountingESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(2), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.negativeTrackCounting3D3rdComputer = cms.ESProducer("NegativeTrackCountingESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(3), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.oppositeToMomElePropagator = cms.ESProducer("PropagatorWithMaterialESProducer", ComponentName = cms.string('oppositeToMomElePropagator'), 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.phase2StripCPEESProducer = cms.ESProducer("Phase2StripCPEESProducer", ComponentType = cms.string('Phase2StripCPE'), parameters = cms.PSet( LorentzAngle_DB = cms.bool(False), TanLorentzAnglePerTesla = cms.double(0.07) ) ) process.phase2StripCPEGeometricESProducer = cms.ESProducer("Phase2StripCPEESProducer", ComponentType = cms.string('Phase2StripCPEGeometric'), parameters = cms.PSet( ) ) process.pixelLessStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('pixelLessStepChi2Est'), MaxChi2 = cms.double(16.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.pixelLessStepClusterShapeHitFilter = cms.ESProducer("ClusterShapeHitFilterESProducer", ComponentName = cms.string('pixelLessStepClusterShapeHitFilter'), PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'), PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), doStripShapeCut = cms.bool(False) ) process.pixelLessStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('pixelLessStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.11) ) process.pixelPairStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('pixelPairStepChi2Est'), MaxChi2 = cms.double(9.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutLoose') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(15.0) ) process.pixelPairStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('pixelPairStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.095) ) process.pixelTrackCleanerBySharedHits = cms.ESProducer("PixelTrackCleanerBySharedHitsESProducer", ComponentName = cms.string('pixelTrackCleanerBySharedHits'), appendToDataLabel = cms.string(''), useQuadrupletAlgo = cms.bool(False) ) process.positiveCombinedMVAV2Computer = cms.ESProducer("CombinedMVAV2JetTagESProducer", jetTagComputers = cms.vstring( 'positiveOnlyJetProbabilityComputer', 'positiveOnlyJetBProbabilityComputer', 'positiveCombinedSecondaryVertexV2Computer', 'positiveSoftPFMuonComputer', 'positiveSoftPFElectronComputer' ), mvaName = cms.string('bdt'), spectators = cms.vstring(), useAdaBoost = cms.bool(True), useCondDB = cms.bool(False), useGBRForest = cms.bool(True), variables = cms.vstring( 'Jet_CSV', 'Jet_CSVIVF', 'Jet_JP', 'Jet_JBP', 'Jet_SoftMu', 'Jet_SoftEl' ), weightFile = cms.FileInPath('RecoBTag/Combined/data/CombinedMVAV2_13_07_2015.weights.xml.gz') ) process.positiveCombinedSecondaryVertexV2Computer = 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(''), 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(0), 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(0), 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.positiveOnlyJetBProbabilityComputer = cms.ESProducer("JetBProbabilityESProducer", 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), numberOfBTracks = cms.uint32(4), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.positiveOnlyJetProbabilityComputer = cms.ESProducer("JetProbabilityESProducer", 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(0.3), impactParameterType = cms.int32(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumProbability = cms.double(0.005), trackIpSign = cms.int32(1), trackQualityClass = cms.string('any'), useVariableJTA = cms.bool(False) ) process.positiveSoftPFElectronByIP2dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('positive'), use3d = cms.bool(False) ) process.positiveSoftPFElectronByIP3dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('positive'), use3d = cms.bool(True) ) process.positiveSoftPFElectronByPtComputer = cms.ESProducer("LeptonTaggerByPtESProducer", ipSign = cms.string('positive') ) process.positiveSoftPFElectronComputer = cms.ESProducer("ElectronTaggerESProducer", gbrForestLabel = cms.string('btag_SoftPFElectron_BDT'), ipSign = cms.string('positive'), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFElectron_BDT.weights.xml.gz') ) process.positiveSoftPFMuonByIP2dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('positive'), use3d = cms.bool(False) ) process.positiveSoftPFMuonByIP3dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('positive'), use3d = cms.bool(True) ) process.positiveSoftPFMuonByPtComputer = cms.ESProducer("LeptonTaggerByPtESProducer", ipSign = cms.string('positive') ) process.positiveSoftPFMuonComputer = cms.ESProducer("MuonTaggerESProducer", gbrForestLabel = cms.string('btag_SoftPFMuon_BDT'), ipSign = cms.string('positive'), useAdaBoost = cms.bool(True), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFMuon_BDT.weights.xml.gz') ) process.preshowerDetIdAssociator = cms.ESProducer("DetIdAssociatorESProducer", ComponentName = cms.string('PreshowerDetIdAssociator'), etaBinSize = cms.double(0.1), nEta = cms.int32(60), nPhi = cms.int32(30) ) process.siPixel2DTemplateDBObjectESProducer = cms.ESProducer("SiPixel2DTemplateDBObjectESProducer") process.siPixelQualityESProducer = cms.ESProducer("SiPixelQualityESProducer", ListOfRecordToMerge = cms.VPSet( cms.PSet( record = cms.string('SiPixelQualityFromDbRcd'), tag = cms.string('') ), cms.PSet( record = cms.string('SiPixelDetVOffRcd'), tag = 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.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.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.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('RunInfoRcd'), 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('') ), cms.PSet( record = cms.string('SiStripBadStripRcd'), tag = cms.string('') ) ), PrintDebugOutput = cms.bool(False), ReduceGranularity = cms.bool(False), ThresholdForReducedGranularity = cms.double(0.3), UseEmptyRunInfo = cms.bool(False), appendToDataLabel = cms.string('') ) process.simpleSecondaryVertex2TrkComputer = cms.ESProducer("SimpleSecondaryVertexESProducer", minTracks = cms.uint32(2), unBoost = cms.bool(False), use3d = cms.bool(True), useSignificance = cms.bool(True) ) process.simpleSecondaryVertex3TrkComputer = cms.ESProducer("SimpleSecondaryVertexESProducer", minTracks = cms.uint32(3), unBoost = cms.bool(False), use3d = cms.bool(True), useSignificance = cms.bool(True) ) process.sistripconn = cms.ESProducer("SiStripConnectivity") process.softPFElectronByIP2dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('any'), use3d = cms.bool(False) ) process.softPFElectronByIP3dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('any'), use3d = cms.bool(True) ) process.softPFElectronByPtComputer = cms.ESProducer("LeptonTaggerByPtESProducer", ipSign = cms.string('any') ) process.softPFElectronComputer = cms.ESProducer("ElectronTaggerESProducer", gbrForestLabel = cms.string('btag_SoftPFElectron_BDT'), ipSign = cms.string('any'), useAdaBoost = cms.bool(False), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFElectron_BDT.weights.xml.gz') ) process.softPFMuonByIP2dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('any'), use3d = cms.bool(False) ) process.softPFMuonByIP3dComputer = cms.ESProducer("LeptonTaggerByIPESProducer", ipSign = cms.string('any'), use3d = cms.bool(True) ) process.softPFMuonByPtComputer = cms.ESProducer("LeptonTaggerByPtESProducer", ipSign = cms.string('any') ) process.softPFMuonComputer = cms.ESProducer("MuonTaggerESProducer", gbrForestLabel = cms.string('btag_SoftPFMuon_BDT'), ipSign = cms.string('any'), useAdaBoost = cms.bool(True), useCondDB = cms.bool(True), useGBRForest = cms.bool(True), weightFile = cms.FileInPath('RecoBTag/SoftLepton/data/SoftPFMuon_BDT.weights.xml.gz') ) process.stripCPEESProducer = cms.ESProducer("StripCPEESProducer", ComponentName = cms.string('stripCPE'), ComponentType = cms.string('SimpleStripCPE'), parameters = cms.PSet( ) ) process.templates = cms.ESProducer("PixelCPETemplateRecoESProducer", Alpha2Order = cms.bool(True), ClusterProbComputationFlag = cms.int32(0), ComponentName = cms.string('PixelCPETemplateReco'), DoCosmics = cms.bool(False), DoLorentz = cms.bool(True), LoadTemplatesFromDB = cms.bool(True), UseClusterSplitter = cms.bool(False), speed = cms.int32(-2) ) process.templates2 = cms.ESProducer("PixelCPEClusterRepairESProducer", Alpha2Order = cms.bool(True), ClusterProbComputationFlag = cms.int32(0), ComponentName = cms.string('PixelCPEClusterRepair'), DoCosmics = cms.bool(False), DoLorentz = cms.bool(True), LoadTemplatesFromDB = cms.bool(True), UseClusterSplitter = cms.bool(False), speed = cms.int32(-2) ) process.tobTecFlexibleKFFittingSmoother = cms.ESProducer("FlexibleKFFittingSmootherESProducer", ComponentName = cms.string('tobTecFlexibleKFFittingSmoother'), appendToDataLabel = cms.string(''), looperFitter = cms.string('tobTecStepFitterSmootherForLoopers'), standardFitter = cms.string('tobTecStepFitterSmoother') ) process.tobTecStepChi2Est = cms.ESProducer("Chi2ChargeMeasurementEstimatorESProducer", ComponentName = cms.string('tobTecStepChi2Est'), MaxChi2 = cms.double(16.0), MaxDisplacement = cms.double(0.5), MaxSagitta = cms.double(2), MinPtForHitRecoveryInGluedDet = cms.double(1000000000000), MinimalTolerance = cms.double(0.5), appendToDataLabel = cms.string(''), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), nSigma = cms.double(3.0), pTChargeCutThreshold = cms.double(-1) ) process.tobTecStepClusterShapeHitFilter = cms.ESProducer("ClusterShapeHitFilterESProducer", ComponentName = cms.string('tobTecStepClusterShapeHitFilter'), PixelShapeFile = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_noL1.par'), PixelShapeFileL1 = cms.string('RecoPixelVertexing/PixelLowPtUtilities/data/pixelShapePhase1_loose.par'), clusterChargeCut = cms.PSet( refToPSet_ = cms.string('SiStripClusterChargeCutTight') ), doStripShapeCut = cms.bool(False) ) process.tobTecStepFitterSmoother = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('tobTecStepFitterSmoother'), EstimateCut = cms.double(30), Fitter = cms.string('tobTecStepRKFitter'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(7), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('tobTecStepRKSmoother'), appendToDataLabel = cms.string('') ) process.tobTecStepFitterSmootherForLoopers = cms.ESProducer("KFFittingSmootherESProducer", BreakTrajWith2ConsecutiveMissing = cms.bool(True), ComponentName = cms.string('tobTecStepFitterSmootherForLoopers'), EstimateCut = cms.double(30), Fitter = cms.string('tobTecStepRKFitterForLoopers'), LogPixelProbabilityCut = cms.double(0), MaxFractionOutliers = cms.double(0.3), MaxNumberOfOutliers = cms.int32(3), MinDof = cms.int32(2), MinNumberOfHits = cms.int32(7), NoInvalidHitsBeginEnd = cms.bool(True), NoOutliersBeginEnd = cms.bool(False), RejectTracks = cms.bool(True), Smoother = cms.string('tobTecStepRKSmootherForLoopers'), appendToDataLabel = cms.string('') ) process.tobTecStepRKTrajectoryFitter = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('tobTecStepRKFitter'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(7) ) process.tobTecStepRKTrajectoryFitterForLoopers = cms.ESProducer("KFTrajectoryFitterESProducer", ComponentName = cms.string('tobTecStepRKFitterForLoopers'), Estimator = cms.string('Chi2'), Propagator = cms.string('PropagatorWithMaterialForLoopers'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), minHits = cms.int32(7) ) process.tobTecStepRKTrajectorySmoother = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('tobTecStepRKSmoother'), Estimator = cms.string('Chi2'), Propagator = cms.string('RungeKuttaTrackerPropagator'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(7) ) process.tobTecStepRKTrajectorySmootherForLoopers = cms.ESProducer("KFTrajectorySmootherESProducer", ComponentName = cms.string('tobTecStepRKSmootherForLoopers'), Estimator = cms.string('Chi2'), Propagator = cms.string('PropagatorWithMaterialForLoopers'), RecoGeometry = cms.string('GlobalDetLayerGeometry'), Updator = cms.string('KFUpdator'), appendToDataLabel = cms.string(''), errorRescaling = cms.double(10.0), minHits = cms.int32(7) ) process.tobTecStepTrajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('tobTecStepTrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.09) ) process.trackAlgoPriorityOrder = cms.ESProducer("TrackAlgoPriorityOrderESProducer", ComponentName = cms.string('trackAlgoPriorityOrder'), algoOrder = cms.vstring( 'initialStep', 'lowPtQuadStep', 'highPtTripletStep', 'lowPtTripletStep', 'detachedQuadStep', 'detachedTripletStep', 'pixelPairStep', 'mixedTripletStep', 'pixelLessStep', 'tobTecStep', 'jetCoreRegionalStep', 'muonSeededStepInOut', 'muonSeededStepOutIn' ), appendToDataLabel = cms.string('') ) process.trackCleaner = cms.ESProducer("TrackCleanerESProducer", ComponentName = cms.string('trackCleaner'), appendToDataLabel = cms.string('') ) process.trackCounting3D2ndComputer = 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(2), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.trackCounting3D3rdComputer = 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(0), max_pT = cms.double(500), max_pT_dRcut = cms.double(0.1), max_pT_trackPTcut = cms.double(3), maximumDecayLength = cms.double(5.0), maximumDistanceToJetAxis = cms.double(0.07), min_pT = cms.double(120), min_pT_dRcut = cms.double(0.5), minimumImpactParameter = cms.double(-1), nthTrack = cms.int32(3), trackQualityClass = cms.string('any'), useSignedImpactParameterSig = cms.bool(True), useVariableJTA = cms.bool(False) ) process.trackerGeometryDB = cms.ESProducer("TrackerDigiGeometryESModule", alignmentsLabel = cms.string(''), appendToDataLabel = cms.string(''), applyAlignment = cms.bool(True), fromDDD = cms.bool(False) ) process.trackerNumberingGeometryDB = cms.ESProducer("TrackerGeometricDetESModule", appendToDataLabel = cms.string(''), fromDDD = cms.bool(False) ) process.trackerTopology = cms.ESProducer("TrackerTopologyEP", appendToDataLabel = cms.string('') ) process.trajectoryCleanerBySharedHits = cms.ESProducer("TrajectoryCleanerESProducer", ComponentName = cms.string('TrajectoryCleanerBySharedHits'), ComponentType = cms.string('TrajectoryCleanerBySharedHits'), MissingHitPenalty = cms.double(20.0), ValidHitBonus = cms.double(5.0), allowSharedFirstHit = cms.bool(True), fractionShared = cms.double(0.19) ) process.ttrhbwor = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('WithoutRefit'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('Fake'), PixelCPE = cms.string('Fake'), StripCPE = cms.string('Fake') ) process.ttrhbwr = cms.ESProducer("TkTransientTrackingRecHitBuilderESProducer", ComponentName = cms.string('WithTrackAngle'), ComputeCoarseLocalPositionFromDisk = cms.bool(False), Matcher = cms.string('StandardMatcher'), PixelCPE = cms.string('PixelCPEGeneric'), StripCPE = cms.string('StripCPEfromTrackAngle') ) process.BTagRecord = cms.ESSource("EmptyESSource", firstValid = cms.vuint32(1), iovIsRunNotTime = cms.bool(True), recordName = cms.string('JetTagComputerRecord') ) 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.GlobalTag = cms.ESSource("PoolDBESSource", DBParameters = cms.PSet( authenticationPath = cms.untracked.string(''), authenticationSystem = cms.untracked.int32(0), messageLevel = cms.untracked.int32(0), security = cms.untracked.string('') ), 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('103X_dataRun2_Express_v1'), pfnPostfix = cms.untracked.string(''), pfnPrefix = cms.untracked.string(''), 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.ctppsIncludeAlignmentsFromXML = cms.ESSource("CTPPSIncludeAlignmentsFromXML", MeasuredFiles = cms.vstring(), MisalignedFiles = cms.vstring(), RealFiles = cms.vstring('Alignment/CTPPS/data/RPixGeometryCorrections.xml'), verbosity = cms.untracked.uint32(0) ) process.eegeom = cms.ESSource("EmptyESSource", firstValid = cms.vuint32(1), iovIsRunNotTime = cms.bool(True), recordName = cms.string('EcalMappingRcd') ) process.es_hardcode = cms.ESSource("HcalHardcodeCalibrations", GainWidthsForTrigPrims = cms.bool(False), HBRecalibration = cms.bool(False), HBmeanenergies = cms.FileInPath('CalibCalorimetry/HcalPlugins/data/meanenergiesHB.txt'), HBreCalibCutoff = cms.double(20.0), HERecalibration = cms.bool(False), HEmeanenergies = cms.FileInPath('CalibCalorimetry/HcalPlugins/data/meanenergiesHE.txt'), HEreCalibCutoff = cms.double(100.0), HFRecalParameterBlock = cms.PSet( HFdepthOneParameterA = cms.vdouble( 0.004123, 0.00602, 0.008201, 0.010489, 0.013379, 0.016997, 0.021464, 0.027371, 0.034195, 0.044807, 0.058939, 0.125497 ), HFdepthOneParameterB = cms.vdouble( -4e-06, -2e-06, 0.0, 4e-06, 1.5e-05, 2.6e-05, 6.3e-05, 8.4e-05, 0.00016, 0.000107, 0.000425, 0.000209 ), HFdepthTwoParameterA = cms.vdouble( 0.002861, 0.004168, 0.0064, 0.008388, 0.011601, 0.014425, 0.018633, 0.023232, 0.028274, 0.035447, 0.051579, 0.086593 ), HFdepthTwoParameterB = cms.vdouble( -2e-06, -0.0, -7e-06, -6e-06, -2e-06, 1e-06, 1.9e-05, 3.1e-05, 6.7e-05, 1.2e-05, 0.000157, -3e-06 ) ), HFRecalibration = cms.bool(False), SiPMCharacteristics = cms.VPSet( cms.PSet( crosstalk = cms.double(0.0), nonlin1 = cms.double(1.0), nonlin2 = cms.double(0.0), nonlin3 = cms.double(0.0), pixels = cms.int32(36000) ), cms.PSet( crosstalk = cms.double(0.0), nonlin1 = cms.double(1.0), nonlin2 = cms.double(0.0), nonlin3 = cms.double(0.0), pixels = cms.int32(2500) ), cms.PSet( crosstalk = cms.double(0.17), nonlin1 = cms.double(1.00985), nonlin2 = cms.double(7.84089e-06), nonlin3 = cms.double(2.86282e-10), pixels = cms.int32(27370) ), cms.PSet( crosstalk = cms.double(0.196), nonlin1 = cms.double(1.00546), nonlin2 = cms.double(6.40239e-06), nonlin3 = cms.double(1.27011e-10), pixels = cms.int32(38018) ), cms.PSet( crosstalk = cms.double(0.17), nonlin1 = cms.double(1.00985), nonlin2 = cms.double(7.84089e-06), nonlin3 = cms.double(2.86282e-10), pixels = cms.int32(27370) ), cms.PSet( crosstalk = cms.double(0.196), nonlin1 = cms.double(1.00546), nonlin2 = cms.double(6.40239e-06), nonlin3 = cms.double(1.27011e-10), pixels = cms.int32(38018) ), cms.PSet( crosstalk = cms.double(0.0), nonlin1 = cms.double(1.0), nonlin2 = cms.double(0.0), nonlin3 = cms.double(0.0), pixels = cms.int32(0) ) ), hb = cms.PSet( darkCurrent = cms.vdouble(0.0), doRadiationDamage = cms.bool(False), gain = cms.vdouble(0.19), gainWidth = cms.vdouble(0.0), mcShape = cms.int32(125), pedestal = cms.double(3.285), pedestalWidth = cms.double(0.809), photoelectronsToAnalog = cms.double(0.3305), qieOffset = cms.vdouble(-0.49, 1.8, 7.2, 37.9), qieSlope = cms.vdouble(0.912, 0.917, 0.922, 0.923), qieType = cms.int32(0), recoShape = cms.int32(105), zsThreshold = cms.int32(8) ), hbUpgrade = cms.PSet( darkCurrent = cms.vdouble(0.01, 0.015), doRadiationDamage = cms.bool(True), gain = cms.vdouble(0.0006252), gainWidth = cms.vdouble(0), mcShape = cms.int32(206), pedestal = cms.double(17.3), pedestalWidth = cms.double(1.5), photoelectronsToAnalog = cms.double(40.0), qieOffset = cms.vdouble(0.0, 0.0, 0.0, 0.0), qieSlope = cms.vdouble(0.05376, 0.05376, 0.05376, 0.05376), qieType = cms.int32(2), radiationDamage = cms.PSet( depVsNeutrons = cms.vdouble(5.543e-10, 8.012e-10), depVsTemp = cms.double(0.0631), intlumiOffset = cms.double(150), intlumiToNeutrons = cms.double(367000000.0), temperatureBase = cms.double(20), temperatureNew = cms.double(-5) ), recoShape = cms.int32(206), zsThreshold = cms.int32(16) ), he = cms.PSet( darkCurrent = cms.vdouble(0.0), doRadiationDamage = cms.bool(False), gain = cms.vdouble(0.23), gainWidth = cms.vdouble(0), mcShape = cms.int32(125), pedestal = cms.double(3.163), pedestalWidth = cms.double(0.9698), photoelectronsToAnalog = cms.double(0.3305), qieOffset = cms.vdouble(-0.38, 2.0, 7.6, 39.6), qieSlope = cms.vdouble(0.912, 0.916, 0.92, 0.922), qieType = cms.int32(0), recoShape = cms.int32(105), zsThreshold = cms.int32(9) ), heUpgrade = cms.PSet( darkCurrent = cms.vdouble(0.01, 0.015), doRadiationDamage = cms.bool(True), gain = cms.vdouble(0.0006252), gainWidth = cms.vdouble(0), mcShape = cms.int32(206), pedestal = cms.double(17.3), pedestalWidth = cms.double(1.5), photoelectronsToAnalog = cms.double(40.0), qieOffset = cms.vdouble(0.0, 0.0, 0.0, 0.0), qieSlope = cms.vdouble(0.05376, 0.05376, 0.05376, 0.05376), qieType = cms.int32(2), radiationDamage = cms.PSet( depVsNeutrons = cms.vdouble(5.543e-10, 8.012e-10), depVsTemp = cms.double(0.0631), intlumiOffset = cms.double(75), intlumiToNeutrons = cms.double(29200000.0), temperatureBase = cms.double(20), temperatureNew = cms.double(5) ), recoShape = cms.int32(206), zsThreshold = cms.int32(16) ), hf = cms.PSet( darkCurrent = cms.vdouble(0.0), doRadiationDamage = cms.bool(False), gain = cms.vdouble(0.14, 0.135), gainWidth = cms.vdouble(0.0, 0.0), mcShape = cms.int32(301), pedestal = cms.double(9.354), pedestalWidth = cms.double(2.516), photoelectronsToAnalog = cms.double(0.0), qieOffset = cms.vdouble(-0.87, 1.4, 7.8, -29.6), qieSlope = cms.vdouble(0.359, 0.358, 0.36, 0.367), qieType = cms.int32(0), recoShape = cms.int32(301), zsThreshold = cms.int32(-9999) ), hfUpgrade = cms.PSet( darkCurrent = cms.vdouble(0.0), doRadiationDamage = cms.bool(False), gain = cms.vdouble(0.14, 0.135), gainWidth = cms.vdouble(0.0, 0.0), mcShape = cms.int32(301), pedestal = cms.double(13.33), pedestalWidth = cms.double(3.33), photoelectronsToAnalog = cms.double(0.0), qieOffset = cms.vdouble(0.0697, -0.7405, 12.38, -671.9), qieSlope = cms.vdouble(0.297, 0.298, 0.298, 0.313), qieType = cms.int32(1), recoShape = cms.int32(301), zsThreshold = cms.int32(-9999) ), ho = cms.PSet( darkCurrent = cms.vdouble(0.0), doRadiationDamage = cms.bool(False), gain = cms.vdouble(0.006, 0.0087), gainWidth = cms.vdouble(0.0, 0.0), mcShape = cms.int32(201), pedestal = cms.double(12.06), pedestalWidth = cms.double(0.6285), photoelectronsToAnalog = cms.double(4.0), qieOffset = cms.vdouble(-0.44, 1.4, 7.1, 38.5), qieSlope = cms.vdouble(0.907, 0.915, 0.92, 0.921), qieType = cms.int32(0), recoShape = cms.int32(201), zsThreshold = cms.int32(24) ), iLumi = cms.double(-1.0), killHE = cms.bool(False), testHEPlan1 = cms.bool(False), testHFQIE10 = cms.bool(False), toGet = cms.untracked.vstring('GainWidths'), useHBUpgrade = cms.bool(False), useHEUpgrade = cms.bool(True), useHFUpgrade = cms.bool(True), useHOUpgrade = cms.bool(True), useIeta18depth1 = cms.bool(False), useLayer0Weight = cms.bool(True) ) process.essourceEcalNextToDead = cms.ESSource("EmptyESSource", firstValid = cms.vuint32(1), iovIsRunNotTime = cms.bool(True), recordName = cms.string('EcalNextToDeadChannelRcd') ) process.essourceEcalSev = cms.ESSource("EmptyESSource", firstValid = cms.vuint32(1), iovIsRunNotTime = cms.bool(True), recordName = cms.string('EcalSeverityLevelAlgoRcd') ) process.essourceSev = cms.ESSource("EmptyESSource", firstValid = cms.vuint32(1), iovIsRunNotTime = cms.bool(True), recordName = cms.string('HcalSeverityLevelComputerRcd') ) process.loadRecoTauTagMVAsFromPrepDB = cms.ESSource("PoolDBESSource", DBParameters = cms.PSet( authenticationPath = cms.untracked.string(''), authenticationSystem = cms.untracked.int32(0), messageLevel = cms.untracked.int32(0), security = cms.untracked.string('') ), 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(''), pfnPostfix = cms.untracked.string(''), pfnPrefix = cms.untracked.string(''), snapshotTime = cms.string(''), toGet = cms.VPSet( ( cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwoLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwoLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAoldDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAoldDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAnewDMwoLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAnewDMwoLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBoldDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBoldDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBnewDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWoldDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWnewDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAPWdR03oldDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVADBdR03oldDMwLTv1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2016v1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2016v1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff95'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff95') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v1_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff95'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff95') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMdR0p3wLT2017v2_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff95'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff95') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBnewDMwLT2017v2_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff50'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff50') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff70'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff70') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff60'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff60') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff80'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff80') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff95'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff95') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff40'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff40') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff90'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_WPEff90') ), cms.PSet( label = cms.untracked.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_tauIdMVAIsoDBoldDMwLT2017v2_mvaOutput_normalization') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_wGwoGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_woGwoGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_wGwoGSF_BL_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA5v1_gbr_NoEleMatch_woGwoGSF_EC_WPeff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_EC_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_BL_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_EC_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_BL_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_woGwGSF_BL_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_wGwGSF_BL_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_wGwoGSF_EC_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff99'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff99') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff96'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff96') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff91'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff91') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff85'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff85') ), cms.PSet( label = cms.untracked.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff79'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_antiElectronMVA6v1_gbr_NoEleMatch_woGwoGSF_EC_WPEff79') ), cms.PSet( label = cms.untracked.string('RecoTauTag_againstMuonMVAv1'), record = cms.string('GBRWrapperRcd'), tag = cms.string('RecoTauTag_againstMuonMVAv1') ), cms.PSet( label = cms.untracked.string('RecoTauTag_againstMuonMVAv1_WPeff99_5'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_againstMuonMVAv1_WPeff99_5') ), cms.PSet( label = cms.untracked.string('RecoTauTag_againstMuonMVAv1_WPeff99_0'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_againstMuonMVAv1_WPeff99_0') ), cms.PSet( label = cms.untracked.string('RecoTauTag_againstMuonMVAv1_WPeff98_0'), record = cms.string('PhysicsTGraphPayloadRcd'), tag = cms.string('RecoTauTag_againstMuonMVAv1_WPeff98_0') ), cms.PSet( label = cms.untracked.string('RecoTauTag_againstMuonMVAv1_mvaOutput_normalization'), record = cms.string('PhysicsTFormulaPayloadRcd'), tag = cms.string('RecoTauTag_againstMuonMVAv1_mvaOutput_normalization') ) ) ) ) process.totemDAQMappingESSourceXML_TimingDiamond = cms.ESSource("TotemDAQMappingESSourceXML", configuration = cms.VPSet( cms.PSet( mappingFileNames = cms.vstring(), maskFileNames = cms.vstring(), validityRange = cms.EventRange(1, 0, 1, 283819, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_timing_diamond.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(283820, 0, 1, 292520, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_timing_diamond_2017.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(292521, 0, 1, 310000, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_timing_diamond_2018.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(310001, 0, 1, 999999999, 0, 0) ) ), subSystem = cms.untracked.string('TimingDiamond'), verbosity = cms.untracked.uint32(0) ) process.totemDAQMappingESSourceXML_TotemTiming = cms.ESSource("TotemDAQMappingESSourceXML", configuration = cms.VPSet( cms.PSet( mappingFileNames = cms.vstring(), maskFileNames = cms.vstring(), validityRange = cms.EventRange(1, 0, 1, 310000, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_totem_timing_2018.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(310001, 0, 1, 999999999, 0, 0) ) ), subSystem = cms.untracked.string('TotemTiming'), verbosity = cms.untracked.uint32(10) ) process.totemDAQMappingESSourceXML_TrackingStrip = cms.ESSource("TotemDAQMappingESSourceXML", configuration = cms.VPSet( cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_tracking_strip_2016_to_fill_5288.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(1, 0, 1, 280385, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring(), maskFileNames = cms.vstring(), validityRange = cms.EventRange(280386, 0, 1, 281600, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_tracking_strip_2016_from_fill_5330.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(281601, 0, 1, 290872, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_tracking_strip_2017.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(290873, 0, 1, 311625, 0, 0) ), cms.PSet( mappingFileNames = cms.vstring('CondFormats/CTPPSReadoutObjects/xml/mapping_tracking_strip_2018.xml'), maskFileNames = cms.vstring(), validityRange = cms.EventRange(311626, 0, 1, 999999999, 0, 0) ) ), subSystem = cms.untracked.string('TrackingStrip'), verbosity = cms.untracked.uint32(0) ) process.tpparams12 = cms.ESSource("EmptyESSource", firstValid = cms.vuint32(1), iovIsRunNotTime = cms.bool(True), recordName = cms.string('EcalTPGPhysicsConstRcd') ) process.prefer("es_hardcode") process.hpsPFTauIsolationSums03Task = cms.Task(process.hpsPFTauChargedIsoPtSumdR03, process.hpsPFTauFootprintCorrectiondR03, process.hpsPFTauNeutralIsoPtSumWeightdR03, process.hpsPFTauNeutralIsoPtSumdR03, process.hpsPFTauPUcorrPtSumdR03, process.hpsPFTauPhotonPtSumOutsideSignalConedR03) process.electronEDIsolationDepositsTask = cms.Task(process.elEDIsoDepositCharged, process.elEDIsoDepositChargedAll, process.elEDIsoDepositGamma, process.elEDIsoDepositNeutral, process.elEDIsoDepositPU) process.gsfElectronTask = cms.Task(process.ecalDrivenGsfElectronCores, process.ecalDrivenGsfElectrons, process.gsfElectronCores, process.gsfElectrons) process.ConvStepTask = cms.Task(process.convClusters, process.convLayerPairs, process.convStepSelector, process.convStepTracks, process.convTrackCandidates, process.photonConvTrajSeedFromSingleLeg) process.gedElectronPFIsolationValuesTask = cms.Task(process.gedElPFIsoValueCharged03, process.gedElPFIsoValueChargedAll03, process.gedElPFIsoValueGamma03, process.gedElPFIsoValueNeutral03, process.gedElPFIsoValuePU03) process.uncleanedOnlyElectronsTask = cms.Task(process.uncleanedOnlyGsfElectronCores, process.uncleanedOnlyGsfElectrons) process.uncleanedOnlyConversionTrackProducersTask = cms.Task(process.uncleanedOnlyGeneralConversionTrackProducer, process.uncleanedOnlyGsfConversionTrackProducer, process.uncleanedOnlyInOutConversionTrackProducer, process.uncleanedOnlyOutInConversionTrackProducer) process.hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTTask = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTraw, process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBdR03oldDMwLT, process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBdR03oldDMwLT, process.hpsPFTauDiscriminationByTightIsolationMVArun2v1DBdR03oldDMwLT, process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBdR03oldDMwLT, process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBdR03oldDMwLT, process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBdR03oldDMwLT) process.particleFlowClusterECALTask = cms.Task(process.particleFlowClusterECAL) process.ak4PFL1FastL2L3CorrectorTask = cms.Task(process.ak4PFL1FastL2L3Corrector, process.ak4PFL1FastjetCorrector, process.ak4PFL2RelativeCorrector, process.ak4PFL3AbsoluteCorrector) process.hpsPFTauDiscriminationByCombinedIsolationDBSumPtCorr3HitsTask = cms.Task(process.hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3Hits, process.hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3Hits, process.hpsPFTauDiscriminationByRawCombinedIsolationDBSumPtCorr3Hits, process.hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3Hits) process.HighPtTripletStepTask = cms.Task(process.highPtTripletStep, process.highPtTripletStepClusters, process.highPtTripletStepHitDoublets, process.highPtTripletStepHitTriplets, process.highPtTripletStepSeedLayers, process.highPtTripletStepSeeds, process.highPtTripletStepTrackCandidates, process.highPtTripletStepTrackingRegions, process.highPtTripletStepTracks) process.recoPFJetsHITask = cms.Task(process.PFTowers, process.ak4PFJets, process.ak4PFJetsCHS, process.ak8PFJetsCHS, process.akCs4PFJets, process.akPu3PFJets, process.akPu4PFJets, process.fixedGridRhoAll, process.fixedGridRhoFastjetAll, process.fixedGridRhoFastjetCentral, process.fixedGridRhoFastjetCentralChargedPileUp, process.fixedGridRhoFastjetCentralNeutral, process.hiFJRhoProducer, process.kt4PFJetsForRho, process.pfNoPileUpJMEHI) process.pfClusterIsolationTask = cms.Task(process.electronEcalPFClusterIsolationProducer, process.electronHcalPFClusterIsolationProducer, process.ootPhotonEcalPFClusterIsolationProducer, process.ootPhotonHcalPFClusterIsolationProducer, process.photonEcalPFClusterIsolationProducer, process.photonHcalPFClusterIsolationProducer) process.pfDeepCSVTask = cms.Task(process.pfDeepCMVAJetTags, process.pfDeepCMVATagInfos, process.pfDeepCSVJetTags, process.pfDeepCSVTagInfos) process.hpsPFTauIsolationSumsTask = cms.Task(process.hpsPFTauChargedIsoPtSum, process.hpsPFTauFootprintCorrection, process.hpsPFTauNeutralIsoPtSum, process.hpsPFTauNeutralIsoPtSumWeight, process.hpsPFTauPUcorrPtSum, process.hpsPFTauPhotonPtSumOutsideSignalCone) process.CombinedCharmTagJetTagsTask = cms.Task(process.pfNegativeCombinedCvsBJetTags, process.pfNegativeCombinedCvsLJetTags, process.pfPositiveCombinedCvsBJetTags, process.pfPositiveCombinedCvsLJetTags) process.pfNoPileUpTask = cms.Task(process.pfNoPileUp, process.pfPileUp) process.hybridClusteringTask = cms.Task(process.cleanedHybridSuperClusters, process.correctedHybridSuperClusters, process.hybridSuperClusters, process.uncleanedHybridSuperClusters, process.uncleanedOnlyCorrectedHybridSuperClusters) process.doAlldEdXEstimatorsTask = cms.Task(process.dedxHarmonic2, process.dedxHitInfo, process.dedxPixelAndStripHarmonic2T085, process.dedxPixelHarmonic2, process.dedxTruncated40) process.ckfTracksFromOldEGConversionsTask = cms.Task(process.ckfInOutTracksFromOldEGConversions, process.ckfOutInTracksFromOldEGConversions, process.oldegConversionTrackCandidates) process.seldigisTask = cms.Task(process.selectDigi) process.gedElectronPFIsolationDepositsTask = cms.Task(process.gedElPFIsoDepositCharged, process.gedElPFIsoDepositChargedAll, process.gedElPFIsoDepositGamma, process.gedElPFIsoDepositNeutral, process.gedElPFIsoDepositPU) process.generalTracksTask = cms.Task(process.duplicateTrackCandidates, process.duplicateTrackClassifier, process.generalTracks, process.mergedDuplicateTracks) process.cosmicsMuonIdTask = cms.Task(process.cosmicsVeto, process.cosmicsVetoSeeds, process.cosmicsVetoTrackCandidates, process.cosmicsVetoTracks, process.cosmicsVetoTracksRaw) process.InitialStepPreSplittingTask = cms.Task(process.MeasurementTrackerEvent, process.ak4CaloJetsForTrkPreSplitting, process.caloTowerForTrkPreSplitting, process.firstStepPrimaryVerticesPreSplitting, process.initialStepHitDoubletsPreSplitting, process.initialStepHitQuadrupletsPreSplitting, process.initialStepSeedLayersPreSplitting, process.initialStepSeedsPreSplitting, process.initialStepTrackCandidatesPreSplitting, process.initialStepTrackRefsForJetsPreSplitting, process.initialStepTrackingRegionsPreSplitting, process.initialStepTracksPreSplitting, process.jetsForCoreTrackingPreSplitting, process.siPixelClusterShapeCache, process.siPixelClusters, process.siPixelRecHits, process.trackerClusterCheckPreSplitting) process.recoTauCommonTask = cms.Task(process.ak4PFJetTracksAssociatorAtVertex, process.pfRecoTauTagInfoProducer, process.recoTauAK4PFJets08Region, process.recoTauPileUpVertices) process.softLeptonTask = cms.Task(process.negativeSoftPFElectronBJetTags, process.negativeSoftPFElectronByIP2dBJetTags, process.negativeSoftPFElectronByIP3dBJetTags, process.negativeSoftPFElectronByPtBJetTags, process.negativeSoftPFMuonBJetTags, process.negativeSoftPFMuonByIP2dBJetTags, process.negativeSoftPFMuonByIP3dBJetTags, process.negativeSoftPFMuonByPtBJetTags, process.positiveSoftPFElectronBJetTags, process.positiveSoftPFElectronByIP2dBJetTags, process.positiveSoftPFElectronByIP3dBJetTags, process.positiveSoftPFElectronByPtBJetTags, process.positiveSoftPFMuonBJetTags, process.positiveSoftPFMuonByIP2dBJetTags, process.positiveSoftPFMuonByIP3dBJetTags, process.positiveSoftPFMuonByPtBJetTags, process.softPFElectronBJetTags, process.softPFElectronByIP2dBJetTags, process.softPFElectronByIP3dBJetTags, process.softPFElectronByPtBJetTags, process.softPFElectronsTagInfos, process.softPFMuonBJetTags, process.softPFMuonByIP2dBJetTags, process.softPFMuonByIP3dBJetTags, process.softPFMuonByPtBJetTags, process.softPFMuonsTagInfos) process.cTaggingTask = cms.Task(process.CombinedCharmTagJetTagsTask, process.pfCombinedCvsBJetTags, process.pfCombinedCvsLJetTags, process.pfInclusiveSecondaryVertexFinderCvsLTagInfos, process.pfInclusiveSecondaryVertexFinderNegativeCvsLTagInfos, process.pfSecondaryVertexTagInfos) process.DetachedTripletStepTask = cms.Task(process.detachedTripletStep, process.detachedTripletStepClassifier1, process.detachedTripletStepClassifier2, process.detachedTripletStepClusters, process.detachedTripletStepHitDoublets, process.detachedTripletStepHitTriplets, process.detachedTripletStepSeedLayers, process.detachedTripletStepSeeds, process.detachedTripletStepTrackCandidates, process.detachedTripletStepTrackingRegions, process.detachedTripletStepTracks) process.muonPFIsolationValuesTask = cms.Task(process.muPFIsoValueCharged03, process.muPFIsoValueCharged04, process.muPFIsoValueChargedAll03, process.muPFIsoValueChargedAll04, process.muPFIsoValueGamma03, process.muPFIsoValueGamma04, process.muPFIsoValueGammaHighThreshold03, process.muPFIsoValueGammaHighThreshold04, process.muPFIsoValueNeutral03, process.muPFIsoValueNeutral04, process.muPFIsoValueNeutralHighThreshold03, process.muPFIsoValueNeutralHighThreshold04, process.muPFIsoValuePU03, process.muPFIsoValuePU04, process.muPFMeanDRIsoValueCharged03, process.muPFMeanDRIsoValueCharged04, process.muPFMeanDRIsoValueChargedAll03, process.muPFMeanDRIsoValueChargedAll04, process.muPFMeanDRIsoValueGamma03, process.muPFMeanDRIsoValueGamma04, process.muPFMeanDRIsoValueGammaHighThreshold03, process.muPFMeanDRIsoValueGammaHighThreshold04, process.muPFMeanDRIsoValueNeutral03, process.muPFMeanDRIsoValueNeutral04, process.muPFMeanDRIsoValueNeutralHighThreshold03, process.muPFMeanDRIsoValueNeutralHighThreshold04, process.muPFMeanDRIsoValuePU03, process.muPFMeanDRIsoValuePU04, process.muPFSumDRIsoValueCharged03, process.muPFSumDRIsoValueCharged04, process.muPFSumDRIsoValueChargedAll03, process.muPFSumDRIsoValueChargedAll04, process.muPFSumDRIsoValueGamma03, process.muPFSumDRIsoValueGamma04, process.muPFSumDRIsoValueGammaHighThreshold03, process.muPFSumDRIsoValueGammaHighThreshold04, process.muPFSumDRIsoValueNeutral03, process.muPFSumDRIsoValueNeutral04, process.muPFSumDRIsoValueNeutralHighThreshold03, process.muPFSumDRIsoValueNeutralHighThreshold04, process.muPFSumDRIsoValuePU03, process.muPFSumDRIsoValuePU04) process.produceHPSPFTausTask = cms.Task(process.hpsPFTauProducer, process.hpsPFTauProducerSansRefs, process.hpsSelectionDiscriminator) process.pfDeepBoostedJetTask = cms.Task(process.pfDeepBoostedDiscriminatorsJetTags, process.pfDeepBoostedJetTagInfos, process.pfDeepBoostedJetTags, process.pfMassDecorrelatedDeepBoostedDiscriminatorsJetTags, process.pfMassDecorrelatedDeepBoostedJetTags, process.primaryVertexAssociation, process.puppi) process.impactParameterTask = cms.Task(process.impactParameterMVABJetTags, process.impactParameterTagInfos, process.jetBProbabilityBJetTags, process.jetProbabilityBJetTags, process.negativeOnlyJetBProbabilityBJetTags, process.negativeOnlyJetProbabilityBJetTags, process.negativeTrackCountingHighEffBJetTags, process.negativeTrackCountingHighPurBJetTags, process.pfImpactParameterAK8TagInfos, process.pfImpactParameterCA15TagInfos, process.pfImpactParameterTagInfos, process.pfJetBProbabilityBJetTags, process.pfJetProbabilityBJetTags, process.pfNegativeOnlyJetBProbabilityBJetTags, process.pfNegativeOnlyJetProbabilityBJetTags, process.pfNegativeTrackCountingHighEffBJetTags, process.pfNegativeTrackCountingHighPurBJetTags, process.pfPositiveOnlyJetBProbabilityBJetTags, process.pfPositiveOnlyJetProbabilityBJetTags, process.pfTrackCountingHighEffBJetTags, process.pfTrackCountingHighPurBJetTags, process.positiveOnlyJetBProbabilityBJetTags, process.positiveOnlyJetProbabilityBJetTags, process.trackCountingHighEffBJetTags, process.trackCountingHighPurBJetTags) process.pfClusteringECALTask = cms.Task(process.particleFlowClusterECALTask, process.particleFlowClusterECALUncorrected, process.particleFlowRecHitECAL) process.ak4JTATask = cms.Task(process.ak4JetExtender, process.ak4JetTracksAssociatorAtCaloFace, process.ak4JetTracksAssociatorAtVertex, process.ak4JetTracksAssociatorAtVertexPF) process.muonSeededStepCoreOutInTask = cms.Task(process.muonSeededSeedsOutIn, process.muonSeededTrackCandidatesOutIn, process.muonSeededTracksOutIn) process.muIsoDeposits_ParamGlobalMuonsTask = cms.Task(process.muParamGlobalIsoDepositCalByAssociatorTowers, process.muParamGlobalIsoDepositJets, process.muParamGlobalIsoDepositTk) process.inclusiveCandidateVertexingCvsLTask = cms.Task(process.candidateVertexArbitratorCvsL, process.candidateVertexMergerCvsL, process.inclusiveCandidateSecondaryVerticesCvsL, process.inclusiveCandidateVertexFinderCvsL) process.pfNoPileUpIsoTask = cms.Task(process.pfNoPileUpIso, process.pfPileUpIso) process.pfDeepFlavourTask = cms.Task(process.pfDeepFlavourJetTags, process.pfDeepFlavourTagInfos, process.primaryVertexAssociation, process.puppi) process.gsfEcalDrivenElectronTask = cms.Task(process.ecalDrivenGsfElectronCores, process.ecalDrivenGsfElectrons) process.hfEMClusteringTask = cms.Task(process.hfEMClusters, process.hfRecoEcalCandidate) process.muIsoDeposits_ParamGlobalMuonsOldTask = cms.Task(process.muParamGlobalIsoDepositCalEcal, process.muParamGlobalIsoDepositCalHcal, process.muParamGlobalIsoDepositGsTk) process.hpsPFTauDiscriminationByPileupWeightedIsolation3HitsTask = cms.Task(process.hpsPFTauDiscriminationByLoosePileupWeightedIsolation3Hits, process.hpsPFTauDiscriminationByMediumPileupWeightedIsolation3Hits, process.hpsPFTauDiscriminationByPhotonPtSumOutsideSignalCone, process.hpsPFTauDiscriminationByRawPileupWeightedIsolation3Hits, process.hpsPFTauDiscriminationByTightPileupWeightedIsolation3Hits) process.conversionTrackProducersTask = cms.Task(process.conversionStepConversionTrackProducer, process.generalConversionTrackProducer, process.gsfConversionTrackProducer, process.inOutConversionTrackProducer, process.outInConversionTrackProducer) process.pfClusteringPSTask = cms.Task(process.particleFlowClusterPS, process.particleFlowRecHitPS) process.muIsoDeposits_muonsTask = cms.Task(process.muIsoDepositCalByAssociatorTowers, process.muIsoDepositJets, process.muIsoDepositTk) process.interestingEgammaIsoDetIdsTask = cms.Task(process.interestingGamIsoDetIdEB, process.interestingGamIsoDetIdEE, process.interestingGedEgammaIsoESDetId, process.interestingGedEgammaIsoHCALDetId, process.interestingGedEleIsoDetIdEB, process.interestingGedEleIsoDetIdEE, process.interestingGedGamIsoDetIdEB, process.interestingGedGamIsoDetIdEE) process.CastorFullRecoTask = cms.Task(process.CastorTowerReco, process.ak5CastorJetID, process.ak5CastorJets, process.ak7CastorJetID, process.ak7CastorJets) process.multi5x5ClusteringTask = cms.Task(process.multi5x5BasicClustersCleaned, process.multi5x5BasicClustersUncleaned, process.multi5x5SuperClusters, process.multi5x5SuperClustersCleaned, process.multi5x5SuperClustersUncleaned, process.multi5x5SuperClustersWithPreshower) process.hpsPFTauDiscriminationByCombinedIsolationDBSumPtCorr3HitsdR03Task = cms.Task(process.hpsPFTauDiscriminationByLooseCombinedIsolationDBSumPtCorr3HitsdR03, process.hpsPFTauDiscriminationByMediumCombinedIsolationDBSumPtCorr3HitsdR03, process.hpsPFTauDiscriminationByTightCombinedIsolationDBSumPtCorr3HitsdR03) process.ak4PFCHSL1FastL2L3ResidualCorrectorTask = cms.Task(process.ak4PFCHSL1FastL2L3ResidualCorrector, process.ak4PFCHSL1FastjetCorrector, process.ak4PFCHSL2RelativeCorrector, process.ak4PFCHSL3AbsoluteCorrector, process.ak4PFCHSResidualCorrector) process.pfNoPileUpJMETask = cms.Task(process.goodOfflinePrimaryVertices, process.pfNoPileUpJME, process.pfPileUpJME) process.conversionTrackTaskNoEcalSeeded = cms.Task(process.generalConversionTrackProducer, process.gsfConversionTrackProducer, process.gsfGeneralConversionTrackMerger) process.hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTTask = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTraw, process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBoldDMwLT, process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBoldDMwLT, process.hpsPFTauDiscriminationByTightIsolationMVArun2v1DBoldDMwLT, process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBoldDMwLT, process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBoldDMwLT, process.hpsPFTauDiscriminationByVVLooseIsolationMVArun2v1DBoldDMwLT, process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBoldDMwLT) process.standAloneMuonSeedsTask = cms.Task(process.ancientMuonSeed) process.electronSeedsSeqTask = cms.Task(process.detachedTripletStepSeedClusterMask, process.initialStepSeedClusterMask, process.mixedTripletStepSeedClusterMask, process.newCombinedSeeds, process.pixelLessStepSeedClusterMask, process.pixelPairElectronHitDoublets, process.pixelPairElectronSeedLayers, process.pixelPairElectronSeeds, process.pixelPairElectronTrackingRegions, process.stripPairElectronHitDoublets, process.stripPairElectronSeedLayers, process.stripPairElectronSeeds, process.stripPairElectronTrackingRegions, process.tripletElectronClusterMask, process.tripletElectronHitDoublets, process.tripletElectronHitTriplets, process.tripletElectronSeedLayers, process.tripletElectronSeeds, process.tripletElectronTrackingRegions) process.oldegConversionTrackMergersTask = cms.Task(process.generalInOutOutInOldEGConversionTrackMerger, process.gsfGeneralInOutOutInOldEGConversionTrackMerger, process.inOutOutInOldEGConversionTrackMerger) process.LowPtQuadStepTask = cms.Task(process.lowPtQuadStep, process.lowPtQuadStepClusters, process.lowPtQuadStepHitDoublets, process.lowPtQuadStepHitQuadruplets, process.lowPtQuadStepSeedLayers, process.lowPtQuadStepSeeds, process.lowPtQuadStepTrackCandidates, process.lowPtQuadStepTrackingRegions, process.lowPtQuadStepTracks) process.inclusiveCandidateVertexingTask = cms.Task(process.candidateVertexArbitrator, process.candidateVertexMerger, process.inclusiveCandidateSecondaryVertices, process.inclusiveCandidateVertexFinder) process.muonreco_with_standAloneSET_Task = cms.Task(process.SETMuonSeed, process.standAloneSETMuons) process.combinedMVATask = cms.Task(process.combinedMVAV2BJetTags, process.negativeCombinedMVAV2BJetTags, process.pfCombinedMVAV2BJetTags, process.pfNegativeCombinedMVAV2BJetTags, process.pfPositiveCombinedMVAV2BJetTags, process.positiveCombinedMVAV2BJetTags) process.electronPFIsolationDepositsTask = cms.Task(process.elPFIsoDepositCharged, process.elPFIsoDepositChargedAll, process.elPFIsoDepositGamma, process.elPFIsoDepositNeutral, process.elPFIsoDepositPU) process.reducedEcalRecHitsTask = cms.Task(process.interestingEcalDetIdEB, process.interestingEcalDetIdEBU, process.interestingEcalDetIdEE, process.interestingEcalDetIdPFEB, process.interestingEcalDetIdPFEE, process.interestingEcalDetIdPFES, process.interestingEcalDetIdRefinedEB, process.interestingEcalDetIdRefinedEE, process.interestingEcalDetIdRefinedES, process.interestingTrackEcalDetIds, process.reducedEcalRecHitsEB, process.reducedEcalRecHitsEE, process.reducedEcalRecHitsES, process.seldigisTask) process.caloTowersRecTask = cms.Task(process.towerMaker, process.towerMakerWithHO) process.pfClusteringHBHEHFTask = cms.Task(process.particleFlowClusterHBHE, process.particleFlowClusterHCAL, process.particleFlowClusterHF, process.particleFlowRecHitHBHE, process.particleFlowRecHitHF) process.recoPFJetsTask = cms.Task(process.ak4PFJets, process.ak4PFJetsCHS, process.ak8PFJetsCHS, process.ak8PFJetsCHSConstituents, process.ak8PFJetsCHSSoftDrop, process.ak8PFJetsCHSSoftDropMass, process.cmsTopTagPFJetsCHS, process.fixedGridRhoAll, process.fixedGridRhoFastjetAll, process.fixedGridRhoFastjetCentral, process.fixedGridRhoFastjetCentralChargedPileUp, process.fixedGridRhoFastjetCentralNeutral, process.pfNoPileUpJMETask) process.oldegConversionTrackProducersTask = cms.Task(process.inOutOldEGConversionTrackProducer, process.outInOldEGConversionTrackProducer) process.egammaIsolationTask = cms.Task(process.electronEcalRecHitIsolationLcone, process.electronEcalRecHitIsolationScone, process.electronHcalDepth1TowerIsolationLcone, process.electronHcalDepth1TowerIsolationScone, process.electronHcalDepth2TowerIsolationLcone, process.electronHcalDepth2TowerIsolationScone, process.electronHcalTowerIsolationLcone, process.electronHcalTowerIsolationScone, process.electronTrackIsolationLcone, process.electronTrackIsolationScone, process.pfClusterIsolationTask) process.ootPhotonTask = cms.Task(process.ootPhotonCore, process.ootPhotons, process.ootPhotonsTmp, process.particleFlowClusterOOTECAL, process.particleFlowClusterOOTECALUncorrected, process.particleFlowRecHitOOTECAL, process.particleFlowSuperClusterOOTECAL) process.DetachedQuadStepTask = cms.Task(process.detachedQuadStep, process.detachedQuadStepClusters, process.detachedQuadStepHitDoublets, process.detachedQuadStepHitQuadruplets, process.detachedQuadStepSeedLayers, process.detachedQuadStepSeeds, process.detachedQuadStepTrackCandidates, process.detachedQuadStepTrackingRegions, process.detachedQuadStepTracks) process.inclusiveVertexingTask = cms.Task(process.inclusiveSecondaryVertices, process.inclusiveVertexFinder, process.trackVertexArbitrator, process.vertexMerger) process.patAlgosToolsTask = cms.Task() process.muoncosmicreco1legHighLevelTask = cms.Task(process.muonsFromCosmics1Leg) process.cosmicDCTracksSeqTask = cms.Task(process.cosmicDCCkfTrackCandidates, process.cosmicDCSeeds, process.cosmicDCTracks) process.pfClusteringHOTask = cms.Task(process.particleFlowClusterHO, process.particleFlowRecHitHO) process.hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTTask = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTraw, process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1DBnewDMwLT, process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1DBnewDMwLT, process.hpsPFTauDiscriminationByTightIsolationMVArun2v1DBnewDMwLT, process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1DBnewDMwLT, process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1DBnewDMwLT, process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1DBnewDMwLT) process.muonSeededStepExtraInOutTask = cms.Task(process.muonSeededTracksInOutClassifier) process.LowPtTripletStepTask = cms.Task(process.lowPtTripletStep, process.lowPtTripletStepClusters, process.lowPtTripletStepHitDoublets, process.lowPtTripletStepHitTriplets, process.lowPtTripletStepSeedLayers, process.lowPtTripletStepSeeds, process.lowPtTripletStepTrackCandidates, process.lowPtTripletStepTrackingRegions, process.lowPtTripletStepTracks) process.muIsolation_ParamGlobalMuonsTask = cms.Task(process.muIsoDeposits_ParamGlobalMuonsTask) process.electronEDIsolationValuesTask = cms.Task(process.elEDIsoValueCharged03, process.elEDIsoValueCharged04, process.elEDIsoValueChargedAll03, process.elEDIsoValueChargedAll04, process.elEDIsoValueGamma03, process.elEDIsoValueGamma04, process.elEDIsoValueNeutral03, process.elEDIsoValueNeutral04, process.elEDIsoValuePU03, process.elEDIsoValuePU04) process.muontracking_with_SET_Task = cms.Task(process.SETMuonSeed, process.globalSETMuons, process.standAloneSETMuons) process.particleFlowTrackWithDisplacedVertexTask = cms.Task(process.particleFlowDisplacedVertex, process.particleFlowDisplacedVertexCandidate, process.pfConversions, process.pfDisplacedTrackerVertex, process.pfTrack, process.pfTrackElec, process.pfV0) process.muonSelectionTypeTask = cms.Task(process.muidAllArbitrated, process.muidGMStaChiCompatibility, process.muidGMTkChiCompatibility, process.muidGMTkKinkTight, process.muidGlobalMuonPromptTight, process.muidRPCMuLoose, process.muidTM2DCompatibilityLoose, process.muidTM2DCompatibilityTight, process.muidTMLastStationAngLoose, process.muidTMLastStationAngTight, process.muidTMLastStationLoose, process.muidTMLastStationOptimizedLowPtLoose, process.muidTMLastStationOptimizedLowPtTight, process.muidTMLastStationTight, process.muidTMOneStationAngLoose, process.muidTMOneStationAngTight, process.muidTMOneStationLoose, process.muidTMOneStationTight, process.muidTrackerMuonArbitrated) process.ak4PFCHSL1FastL2L3CorrectorTask = cms.Task(process.ak4PFCHSL1FastL2L3Corrector, process.ak4PFCHSL1FastjetCorrector, process.ak4PFCHSL2RelativeCorrector, process.ak4PFCHSL3AbsoluteCorrector) process.electronPFIsolationValuesTask = cms.Task(process.elPFIsoValueCharged03, process.elPFIsoValueCharged04, process.elPFIsoValueChargedAll03, process.elPFIsoValueChargedAll04, process.elPFIsoValueGamma03, process.elPFIsoValueGamma04, process.elPFIsoValueNeutral03, process.elPFIsoValueNeutral04, process.elPFIsoValuePU03, process.elPFIsoValuePU04) process.muonSeededStepDebugDisplacedTask = cms.Task(cms.TaskPlaceholder("muonSeededStepDebugInOutTask"), process.muonSeededSeedsOutInDisplacedAsTracks, process.muonSeededTrackCandidatesOutInDisplacedAsTracks) process.JetCoreRegionalStepTask = cms.Task(process.firstStepGoodPrimaryVertices, process.jetCoreRegionalStep, process.jetCoreRegionalStepHitDoublets, process.jetCoreRegionalStepSeedLayers, process.jetCoreRegionalStepSeeds, process.jetCoreRegionalStepTrackCandidates, process.jetCoreRegionalStepTrackingRegions, process.jetCoreRegionalStepTracks, process.jetsForCoreTracking) process.muIsolation_ParamGlobalMuonsOldTask = cms.Task(process.muIsoDeposits_ParamGlobalMuonsOldTask) process.PixelLessStepTask = cms.Task(process.pixelLessStep, process.pixelLessStepClassifier1, process.pixelLessStepClassifier2, process.pixelLessStepClusters, process.pixelLessStepHitDoublets, process.pixelLessStepHitTriplets, process.pixelLessStepSeedLayers, process.pixelLessStepSeeds, process.pixelLessStepTrackCandidates, process.pixelLessStepTrackingRegions, process.pixelLessStepTracks) process.BeamHaloIdTask = cms.Task(process.BeamHaloSummary, process.CSCHaloData, process.EcalHaloData, process.GlobalHaloData, process.HcalHaloData) process.muonPFIsolationDepositsTask = cms.Task(process.muPFIsoDepositCharged, process.muPFIsoDepositChargedAll, process.muPFIsoDepositGamma, process.muPFIsoDepositNeutral, process.muPFIsoDepositPU) process.conversionTrackMergersTask = cms.Task(process.generalConversionStepConversionTrackMerger, process.generalInOutOutInConversionTrackMerger, process.gsfGeneralInOutOutInConversionTrackMerger, process.inOutOutInConversionTrackMerger) process.muoncosmicreco2legsHighLevelTask = cms.Task(process.muonsFromCosmics) process.ckfTracksFromConversionsTask = cms.Task(process.ckfInOutTracksFromConversions, process.ckfOutInTracksFromConversions, process.conversionTrackCandidates) process.muonIdProducerTask = cms.Task(process.glbTrackQual, process.muonEcalDetIds, process.muonShowerInformation, process.muons1stStep) process.caloJetsForTrkTask = cms.Task(process.ak4CaloJetsForTrk, process.caloTowerForTrk) process.hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTTask = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTraw, process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWdR03oldDMwLT, process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWdR03oldDMwLT, process.hpsPFTauDiscriminationByTightIsolationMVArun2v1PWdR03oldDMwLT, process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWdR03oldDMwLT, process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWdR03oldDMwLT, process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWdR03oldDMwLT) process.uncleanedOnlyConversionTrackMergersTask = cms.Task(process.uncleanedOnlyGeneralInOutOutInConversionTrackMerger, process.uncleanedOnlyGsfGeneralInOutOutInConversionTrackMerger, process.uncleanedOnlyInOutOutInConversionTrackMerger) process.MixedTripletStepTask = cms.Task(process.chargeCut2069Clusters, process.mixedTripletStep, process.mixedTripletStepClassifier1, process.mixedTripletStepClassifier2, process.mixedTripletStepClusters, process.mixedTripletStepHitDoubletsA, process.mixedTripletStepHitDoubletsB, process.mixedTripletStepHitTripletsA, process.mixedTripletStepHitTripletsB, process.mixedTripletStepSeedLayersA, process.mixedTripletStepSeedLayersB, process.mixedTripletStepSeeds, process.mixedTripletStepSeedsA, process.mixedTripletStepSeedsB, process.mixedTripletStepTrackCandidates, process.mixedTripletStepTrackingRegionsA, process.mixedTripletStepTrackingRegionsB, process.mixedTripletStepTracks) process.electronSeedsTask = cms.Task(process.ecalDrivenElectronSeeds, process.electronMergedSeeds) process.JetPlusTrackCorrectionsAntiKt4Task = cms.Task(process.JPTeidTight, process.JetPlusTrackZSPCorJetAntiKt4, process.ak4JetTracksAssociatorAtCaloFace, process.ak4JetTracksAssociatorAtVertexJPT) process.hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTTask = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTraw, process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWoldDMwLT, process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWoldDMwLT, process.hpsPFTauDiscriminationByTightIsolationMVArun2v1PWoldDMwLT, process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWoldDMwLT, process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWoldDMwLT, process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWoldDMwLT) process.muonSeededStepDebugInOutTask = cms.Task(process.muonSeededSeedsInOutAsTracks, process.muonSeededTrackCandidatesInOutAsTracks) process.muonSeededStepExtraDisplacedTask = cms.Task(process.muonSeededStepExtraInOutTask, process.muonSeededTracksOutInDisplacedClassifier) process.hpsPFTauVertexAndImpactParametersTask = cms.Task(process.hpsPFTauPrimaryVertexProducer, process.hpsPFTauSecondaryVertexProducer, process.hpsPFTauTransverseImpactParameters) process.uncleanedOnlyTrackingTask = cms.Task(process.uncleanedOnlyElectronCkfTrackCandidates, process.uncleanedOnlyElectronGsfTracks, process.uncleanedOnlyElectronSeeds) process.muoncosmicreco1legSTATask = cms.Task(process.CosmicMuonSeed, process.cosmicMuons1Leg) process.muoncosmicreco2legsSTATask = cms.Task(process.CosmicMuonSeed, process.cosmicMuons) process.pfSortByTypeTask = cms.Task(process.pfAllChargedHadrons, process.pfAllChargedParticles, process.pfAllNeutralHadrons, process.pfAllNeutralHadronsAndPhotons, process.pfAllPhotons, process.pfPileUpAllChargedParticles) process.uncleanedOnlyPfTrackingTask = cms.Task(process.uncleanedOnlyPfConversions, process.uncleanedOnlyPfTrack, process.uncleanedOnlyPfTrackElec) process.uncleanedOnlyCkfTracksFromConversionsTask = cms.Task(process.uncleanedOnlyCkfInOutTracksFromConversions, process.uncleanedOnlyCkfOutInTracksFromConversions, process.uncleanedOnlyConversionTrackCandidates) process.legacyBTaggingTask = cms.Task(process.combinedInclusiveSecondaryVertexV2BJetTags, process.combinedMVAV2BJetTags, process.combinedSecondaryVertexV2BJetTags, process.ghostTrackBJetTags, process.ghostTrackVertexTagInfos, process.impactParameterTagInfos, process.inclusiveSecondaryVertexFinderTagInfos, process.jetBProbabilityBJetTags, process.jetProbabilityBJetTags, process.secondaryVertexTagInfos, process.simpleSecondaryVertexHighEffBJetTags, process.softPFElectronBJetTags, process.softPFElectronsTagInfos, process.softPFMuonBJetTags, process.softPFMuonsTagInfos, process.trackCountingHighEffBJetTags) process.Conv2StepTask = cms.Task(process.conv2Clusters, process.conv2LayerPairs, process.conv2StepSelector, process.conv2StepTracks, process.conv2TrackCandidates, process.photonConvTrajSeedFromQuadruplets) process.eIdTask = cms.Task(process.eidLoose, process.eidRobustHighEnergy, process.eidRobustLoose, process.eidRobustTight, process.eidTight) process.secondaryVertexTask = cms.Task(process.bToCharmDecayVertexMerged, process.combinedInclusiveSecondaryVertexV2BJetTags, process.combinedSecondaryVertexV2BJetTags, process.doubleSecondaryVertexHighEffBJetTags, process.ghostTrackBJetTags, process.ghostTrackVertexTagInfos, process.inclusiveSecondaryVertexFinderFilteredNegativeTagInfos, process.inclusiveSecondaryVertexFinderFilteredTagInfos, process.inclusiveSecondaryVertexFinderNegativeTagInfos, process.inclusiveSecondaryVertexFinderTagInfos, process.inclusiveSecondaryVerticesFiltered, process.negativeCombinedInclusiveSecondaryVertexV2BJetTags, process.negativeCombinedSecondaryVertexV2BJetTags, process.negativeSimpleInclusiveSecondaryVertexHighEffBJetTags, process.negativeSimpleInclusiveSecondaryVertexHighPurBJetTags, process.negativeSimpleSecondaryVertexHighEffBJetTags, process.negativeSimpleSecondaryVertexHighPurBJetTags, process.pfBoostedDoubleSVAK8TagInfos, process.pfBoostedDoubleSVCA15TagInfos, process.pfBoostedDoubleSecondaryVertexAK8BJetTags, process.pfBoostedDoubleSecondaryVertexCA15BJetTags, process.pfCombinedInclusiveSecondaryVertexV2BJetTags, process.pfCombinedSecondaryVertexV2BJetTags, process.pfGhostTrackBJetTags, process.pfGhostTrackVertexTagInfos, process.pfInclusiveSecondaryVertexFinderAK8TagInfos, process.pfInclusiveSecondaryVertexFinderCA15TagInfos, process.pfInclusiveSecondaryVertexFinderNegativeTagInfos, process.pfInclusiveSecondaryVertexFinderTagInfos, process.pfNegativeCombinedInclusiveSecondaryVertexV2BJetTags, process.pfNegativeCombinedSecondaryVertexV2BJetTags, process.pfNegativeSimpleInclusiveSecondaryVertexHighEffBJetTags, process.pfNegativeSimpleInclusiveSecondaryVertexHighPurBJetTags, process.pfNegativeSimpleSecondaryVertexHighEffBJetTags, process.pfNegativeSimpleSecondaryVertexHighPurBJetTags, process.pfPositiveCombinedInclusiveSecondaryVertexV2BJetTags, process.pfPositiveCombinedSecondaryVertexV2BJetTags, process.pfSecondaryVertexNegativeTagInfos, process.pfSecondaryVertexTagInfos, process.pfSimpleInclusiveSecondaryVertexHighEffBJetTags, process.pfSimpleInclusiveSecondaryVertexHighPurBJetTags, process.pfSimpleSecondaryVertexHighEffBJetTags, process.pfSimpleSecondaryVertexHighPurBJetTags, process.positiveCombinedInclusiveSecondaryVertexV2BJetTags, process.positiveCombinedSecondaryVertexV2BJetTags, process.secondaryVertexNegativeTagInfos, process.secondaryVertexTagInfos, process.simpleInclusiveSecondaryVertexHighEffBJetTags, process.simpleInclusiveSecondaryVertexHighPurBJetTags, process.simpleSecondaryVertexHighEffBJetTags, process.simpleSecondaryVertexHighPurBJetTags) process.muonSeededStepCoreInOutTask = cms.Task(process.muonSeededSeedsInOut, process.muonSeededTrackCandidatesInOut, process.muonSeededTracksInOut) process.PixelPairStepTask = cms.Task(process.pixelPairStep, process.pixelPairStepClusters, process.pixelPairStepHitDoubletsB, process.pixelPairStepSeedLayers, process.pixelPairStepSeeds, process.pixelPairStepTrackCandidates, process.pixelPairStepTrackingRegions, process.pixelPairStepTrackingRegionsSeedLayersB, process.pixelPairStepTracks) process.displacedTracksTask = cms.Task(process.displacedTracks, process.duplicateDisplacedTrackCandidates, process.duplicateDisplacedTrackClassifier, process.mergedDuplicateDisplacedTracks) process.multi5x5PreshowerClusteringTask = cms.Task(process.correctedMulti5x5SuperClustersWithPreshower, process.multi5x5PreshowerClusterShape, process.uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower, process.uncleanedOnlyMulti5x5SuperClustersWithPreshower) process.hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTTask = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTraw, process.hpsPFTauDiscriminationByLooseIsolationMVArun2v1PWnewDMwLT, process.hpsPFTauDiscriminationByMediumIsolationMVArun2v1PWnewDMwLT, process.hpsPFTauDiscriminationByTightIsolationMVArun2v1PWnewDMwLT, process.hpsPFTauDiscriminationByVLooseIsolationMVArun2v1PWnewDMwLT, process.hpsPFTauDiscriminationByVTightIsolationMVArun2v1PWnewDMwLT, process.hpsPFTauDiscriminationByVVTightIsolationMVArun2v1PWnewDMwLT) process.TobTecStepTask = cms.Task(process.tobTecStep, process.tobTecStepClassifier1, process.tobTecStepClassifier2, process.tobTecStepClusters, process.tobTecStepHitDoubletsPair, process.tobTecStepHitDoubletsTripl, process.tobTecStepHitTripletsTripl, process.tobTecStepSeedLayersPair, process.tobTecStepSeedLayersTripl, process.tobTecStepSeeds, process.tobTecStepSeedsPair, process.tobTecStepSeedsTripl, process.tobTecStepTrackCandidates, process.tobTecStepTrackingRegionsPair, process.tobTecStepTrackingRegionsTripl, process.tobTecStepTracks) process.conversionTrackTask = cms.Task(process.ckfTracksFromConversionsTask, process.conversionTrackMergersTask, process.conversionTrackProducersTask) process.pfParticleSelectionTask = cms.Task(process.pfNoPileUpIsoTask, process.pfNoPileUpTask, process.pfSortByTypeTask) process.muonreco_with_SET_Task = cms.Task(process.muontracking_with_SET_Task) process.muonSeededStepCoreTask = cms.Task(process.muonSeededStepCoreInOutTask, process.muonSeededStepCoreOutInTask) process.electronGsfTrackingTask = cms.Task(process.electronCkfTrackCandidates, process.electronGsfTracks, process.electronSeedsTask) process.muIsolation_muonsTask = cms.Task(process.muIsoDeposits_muonsTask) process.electronGsfTrackingWithTimingTask = cms.Task(process.electronCkfTrackCandidates, process.electronGsfTracks, process.electronSeedsTask, process.gsfTrackTimeValueMapProducer) process.muonSeededStepCoreDisplacedTask = cms.Task(process.muonSeededSeedsOutInDisplaced, process.muonSeededStepCoreInOutTask, process.muonSeededTrackCandidatesOutInDisplaced, process.muonSeededTracksOutInDisplaced) process.standalonemuontrackingTask = cms.Task(process.displacedMuonSeeds, process.displacedStandAloneMuons, process.refittedStandAloneMuons, process.standAloneMuonSeedsTask, process.standAloneMuons) process.muoncosmichighlevelrecoTask = cms.Task(process.cosmicsMuonIdTask, process.muoncosmicreco1legHighLevelTask, process.muoncosmicreco2legsHighLevelTask) process.recoAllPFJetsTask = cms.Task(process.ak4PFJets, process.ak4PFJetsCHS, process.ak8PFJets, process.ak8PFJetsCHS, process.ak8PFJetsCHSFiltered, process.ak8PFJetsCHSFilteredMass, process.ak8PFJetsCHSPruned, process.ak8PFJetsCHSPrunedMass, process.ak8PFJetsCHSSoftDrop, process.ak8PFJetsCHSSoftDropMass, process.ak8PFJetsCHSTrimmed, process.ak8PFJetsCHSTrimmedMass, process.ca15PFJetsCHSFiltered, process.ca15PFJetsCHSMassDropFiltered, process.fixedGridRhoAll, process.fixedGridRhoFastjetAll, process.fixedGridRhoFastjetCentral, process.fixedGridRhoFastjetCentralChargedPileUp, process.fixedGridRhoFastjetCentralNeutral, process.pfNoPileUpJMETask) process.muonSeededStepExtraTask = cms.Task(process.muonSeededStepExtraInOutTask, process.muonSeededTracksOutInClassifier) process.pfBTaggingTask = cms.Task(process.inclusiveCandidateVertexingTask, process.pfChargeBJetTags, process.pfCombinedInclusiveSecondaryVertexV2BJetTags, process.pfCombinedMVAV2BJetTags, process.pfCombinedSecondaryVertexV2BJetTags, process.pfDeepCSVTask, process.pfGhostTrackBJetTags, process.pfGhostTrackVertexTagInfos, process.pfImpactParameterTagInfos, process.pfInclusiveSecondaryVertexFinderTagInfos, process.pfJetBProbabilityBJetTags, process.pfJetProbabilityBJetTags, process.pfSecondaryVertexTagInfos, process.pfSimpleInclusiveSecondaryVertexHighEffBJetTags, process.pfSimpleSecondaryVertexHighEffBJetTags, process.pfTrackCountingHighEffBJetTags, process.softPFElectronBJetTags, process.softPFElectronsTagInfos, process.softPFMuonBJetTags, process.softPFMuonsTagInfos) process.muoncosmicrecoTask = cms.Task(process.muoncosmicreco1legSTATask, process.muoncosmicreco2legsSTATask) process.muonPFIsolationTask = cms.Task(process.muonPFIsolationDepositsTask, process.muonPFIsolationValuesTask) process.recoPFJetsWithSubstructureTask = cms.Task(process.ak4PFJets, process.ak4PFJetsCHS, process.ak4PFJetsPuppi, process.ak4PFJetsSK, process.ak8PFJets, process.ak8PFJetsCHS, process.ak8PFJetsCHSConstituents, process.ak8PFJetsCHSFiltered, process.ak8PFJetsCHSFilteredMass, process.ak8PFJetsCHSPruned, process.ak8PFJetsCHSPrunedMass, process.ak8PFJetsCHSSoftDrop, process.ak8PFJetsCHSSoftDropMass, process.ak8PFJetsCHSTrimmed, process.ak8PFJetsCHSTrimmedMass, process.ak8PFJetsCS, process.ak8PFJetsCSConstituents, process.ca15PFJetsCHSFiltered, process.ca15PFJetsCHSMassDropFiltered, process.fixedGridRhoAll, process.fixedGridRhoFastjetAll, process.fixedGridRhoFastjetCentral, process.fixedGridRhoFastjetCentralChargedPileUp, process.fixedGridRhoFastjetCentralNeutral, process.pfNoPileUpJMETask, process.puppi, process.softKiller) process.reducedEcalRecHitsSequenceEcalOnlyTask = cms.Task(process.interestingEcalDetIdEB, process.interestingEcalDetIdEBU, process.interestingEcalDetIdEE, process.reducedEcalRecHitsEB, process.reducedEcalRecHitsEE, process.seldigisTask) process.uncleanedOnlyConversionsTask = cms.Task(process.uncleanedOnlyAllConversions, process.uncleanedOnlyCkfTracksFromConversionsTask, process.uncleanedOnlyConversionTrackMergersTask, process.uncleanedOnlyConversionTrackProducersTask) process.egmIsolationTask = cms.Task(process.egmGedGsfElectronPFNoPileUpIsolation, process.egmGedGsfElectronPFPileUpIsolation, process.pfClusterIsolationTask, process.pfNoPileUpCandidates, process.pfParticleSelectionTask) process.uncleanedOnlyElectronTask = cms.Task(process.uncleanedOnlyConversionsTask, process.uncleanedOnlyElectronsTask, process.uncleanedOnlyPfTrackingTask, process.uncleanedOnlyTrackingTask) process.muonSeededStepTask = cms.Task(process.earlyMuons, process.muonSeededStepCoreTask, process.muonSeededStepExtraTask) process.muonSeededStepDebugTask = cms.Task(process.muonSeededSeedsOutInAsTracks, process.muonSeededStepDebugInOutTask, process.muonSeededTrackCandidatesOutInAsTracks) process.muonshighlevelrecoTask = cms.Task(process.muonPFIsolationTask, process.muons) process.pfBasedElectronIsoTask = cms.Task(process.electronPFIsolationDepositsTask, process.electronPFIsolationValuesTask, process.pfParticleSelectionTask) process.pfCTaggingTask = cms.Task(process.inclusiveCandidateVertexingCvsLTask, process.pfCombinedCvsBJetTags, process.pfCombinedCvsLJetTags, process.pfInclusiveSecondaryVertexFinderCvsLTagInfos) process.particleFlowClusterTask = cms.Task(process.particleFlowBadHcalPseudoCluster, process.pfClusteringECALTask, process.pfClusteringHBHEHFTask, process.pfClusteringHOTask, process.pfClusteringPSTask) process.gedElectronPFIsoTask = cms.Task(process.gedElectronPFIsolationDepositsTask, process.gedElectronPFIsolationValuesTask, process.gedGsfElectrons, process.pfParticleSelectionTask) process.edBasedElectronIsoTask = cms.Task(process.electronEDIsolationDepositsTask, process.electronEDIsolationValuesTask, process.pfParticleSelectionTask) process.InitialStepTask = cms.Task(process.caloJetsForTrkTask, process.firstStepPrimaryVertices, process.firstStepPrimaryVerticesUnsorted, process.initialStep, process.initialStepClassifier1, process.initialStepHitDoublets, process.initialStepHitQuadruplets, process.initialStepSeedLayers, process.initialStepSeeds, process.initialStepTrackCandidates, process.initialStepTrackRefsForJets, process.initialStepTrackingRegions, process.initialStepTracks) process.hpsPFTauMVAIsolation2Task = cms.Task(process.hpsPFTauDiscriminationByIsolationMVArun2v1DBdR03oldDMwLTTask, process.hpsPFTauDiscriminationByIsolationMVArun2v1DBnewDMwLTTask, process.hpsPFTauDiscriminationByIsolationMVArun2v1DBoldDMwLTTask, process.hpsPFTauDiscriminationByIsolationMVArun2v1PWdR03oldDMwLTTask, process.hpsPFTauDiscriminationByIsolationMVArun2v1PWnewDMwLTTask, process.hpsPFTauDiscriminationByIsolationMVArun2v1PWoldDMwLTTask, process.hpsPFTauIsolationSums03Task, process.hpsPFTauIsolationSumsTask) process.vertexrecoTask = cms.Task(process.caloJetsForTrkTask, process.generalV0Candidates, process.inclusiveVertexingTask, process.offlinePrimaryVertices, process.offlinePrimaryVerticesWithBS, process.trackRefsForJetsBeforeSorting, process.trackWithVertexRefSelectorBeforeSorting, process.unsortedOfflinePrimaryVertices) process.electronIsoTask = cms.Task(process.edBasedElectronIsoTask, process.pfBasedElectronIsoTask) process.muIsolationTask = cms.Task(process.muIsolation_muonsTask) process.produceAndDiscriminateHPSPFTausTask = cms.Task(process.hpsPFTauDiscriminationByCombinedIsolationDBSumPtCorr3HitsTask, process.hpsPFTauDiscriminationByCombinedIsolationDBSumPtCorr3HitsdR03Task, process.hpsPFTauDiscriminationByDeadECALElectronRejection, process.hpsPFTauDiscriminationByDecayModeFinding, process.hpsPFTauDiscriminationByDecayModeFindingNewDMs, process.hpsPFTauDiscriminationByDecayModeFindingOldDMs, process.hpsPFTauDiscriminationByLooseChargedIsolation, process.hpsPFTauDiscriminationByLooseElectronRejection, process.hpsPFTauDiscriminationByLooseIsolation, process.hpsPFTauDiscriminationByLooseMuonRejection3, process.hpsPFTauDiscriminationByMVA6LooseElectronRejection, process.hpsPFTauDiscriminationByMVA6MediumElectronRejection, process.hpsPFTauDiscriminationByMVA6TightElectronRejection, process.hpsPFTauDiscriminationByMVA6VLooseElectronRejection, process.hpsPFTauDiscriminationByMVA6VTightElectronRejection, process.hpsPFTauDiscriminationByMVA6rawElectronRejection, process.hpsPFTauDiscriminationByMediumElectronRejection, process.hpsPFTauDiscriminationByPileupWeightedIsolation3HitsTask, process.hpsPFTauDiscriminationByTightElectronRejection, process.hpsPFTauDiscriminationByTightMuonRejection3, process.hpsPFTauMVAIsolation2Task, process.hpsPFTauVertexAndImpactParametersTask, process.produceHPSPFTausTask) process.muonSeededStepDisplacedTask = cms.Task(process.earlyDisplacedMuons, process.muonSeededStepCoreDisplacedTask, process.muonSeededStepExtraDisplacedTask) process.iterDisplcedTrackingTask = cms.Task(process.displacedTracksTask, process.muonSeededStepDisplacedTask, process.preDuplicateMergingDisplacedTracks) process.btaggingTask = cms.Task(process.pfBTaggingTask, process.pfCTaggingTask) process.iterTrackingEarlyTask = cms.Task(process.DetachedQuadStepTask, process.DetachedTripletStepTask, process.HighPtTripletStepTask, process.InitialStepTask, process.JetCoreRegionalStepTask, process.LowPtQuadStepTask, process.LowPtTripletStepTask, process.MixedTripletStepTask, process.PixelLessStepTask, process.PixelPairStepTask, process.TobTecStepTask) process.displacedGlobalMuonTrackingTask = cms.Task(process.displacedGlobalMuons, process.iterDisplcedTrackingTask) process.gsfElectronMergingTask = cms.Task(process.electronIsoTask, process.gsfElectronCores, process.gsfElectrons) process.iterTrackingTask = cms.Task(process.ConvStepTask, process.InitialStepPreSplittingTask, process.conversionStepTracks, process.earlyGeneralTracks, process.generalTracksTask, process.iterTrackingEarlyTask, process.muonSeededStepTask, process.preDuplicateMergingGeneralTracks, process.trackerClusterCheck) process.recoTauClassicHPSTask = cms.Task(process.ak4PFJetsLegacyHPSPiZeros, process.ak4PFJetsRecoTauChargedHadrons, process.combinatoricRecoTaus, process.produceAndDiscriminateHPSPFTausTask) process.globalmuontrackingTask = cms.Task(process.displacedGlobalMuonTrackingTask, process.globalMuons, process.tevMuons) process.PFTauTask = cms.Task(process.recoTauClassicHPSTask, process.recoTauCommonTask) process.muontrackingTask = cms.Task(process.globalmuontrackingTask, process.standalonemuontrackingTask) process.muonGlobalRecoTask = cms.Task(process.globalmuontrackingTask, process.muIsolationTask, process.muonIdProducerTask, process.muonSelectionTypeTask) process.muonrecoTask = cms.Task(process.muonIdProducerTask, process.muontrackingTask) process.muonreco_plus_isolationTask = cms.Task(process.muIsolationTask, process.muonrecoTask) process.pfDeepCSV = cms.Sequence(process.pfDeepCSVTask) process.ak7JTA = cms.Sequence(process.ak7JetTracksAssociatorAtVertexPF+process.ak7JetTracksAssociatorAtVertex+process.ak7JetTracksAssociatorAtCaloFace+process.ak7JetExtender) process.ckfTracksFromOldEGConversions = cms.Sequence(process.ckfTracksFromOldEGConversionsTask) process.uncleanedOnlyConversions = cms.Sequence(process.uncleanedOnlyConversionsTask) process.ak4PFCHSL1FastL2L3ResidualCorrectorChain = cms.Sequence(process.ak4PFCHSL1FastL2L3ResidualCorrectorTask) process.btagging = cms.Sequence(process.btaggingTask) process.uncleanedOnlyElectrons = cms.Sequence(process.uncleanedOnlyElectronsTask) process.iterativeCone5JTA = cms.Sequence(process.iterativeCone5JetTracksAssociatorAtVertex+process.iterativeCone5JetTracksAssociatorAtCaloFace+process.iterativeCone5JetExtender) process.inclusiveCandidateVertexing = cms.Sequence(process.inclusiveCandidateVertexingTask) process.recoTauCommonSequence = cms.Sequence(process.recoTauCommonTask) process.dtlocalreco = cms.Sequence(process.dt1DRecHits+process.dt4DSegments+process.dt1DCosmicRecHits+process.dt4DCosmicSegments) process.muonshighlevelreco = cms.Sequence(process.muonshighlevelrecoTask) process.pixelTracksSequence = cms.Sequence(process.pixelTracksTrackingRegions+process.pixelFitterByHelixProjections+process.pixelTrackFilterByKinematics+process.pixelTracksSeedLayers+process.pixelTracksHitDoublets+process.pixelTracksHitQuadruplets+process.pixelTracks) process.recoAllTrackJets = cms.Sequence(process.trackWithVertexRefSelector+process.trackRefsForJets+process.ak4TrackJets) process.muonSeededStepExtra = cms.Sequence(process.muonSeededStepExtraTask) process.iterDisplcedTracking = cms.Sequence(process.iterDisplcedTrackingTask) process.mvaIsolation2SeqRun2 = cms.Sequence(process.chargedIsoPtSum+process.neutralIsoPtSum+process.puCorrPtSum+process.photonPtSumOutsideSignalCone+process.footprintCorrection+process.discriminationByIsolationMVArun2v1raw+process.discriminationByIsolationMVArun2v1VLoose+process.discriminationByIsolationMVArun2v1Loose+process.discriminationByIsolationMVArun2v1Medium+process.discriminationByIsolationMVArun2v1Tight+process.discriminationByIsolationMVArun2v1VTight) process.iterTrackingEarly = cms.Sequence(process.iterTrackingEarlyTask) process.pixeltrackerlocalreco = cms.Sequence(process.siPixelClustersPreSplitting+process.siPixelRecHitsPreSplitting) process.photonSequence = cms.Sequence(process.photonCore+process.photons+process.islandPhotonCore+process.islandPhotons) process.JetPlusTrackCorrectionsAntiKt4 = cms.Sequence(process.JetPlusTrackCorrectionsAntiKt4Task) process.conversionTrackSequence = cms.Sequence(process.conversionTrackTask) process.RawToDigi_pixelOnly = cms.Sequence(process.rawDataMapperByLabel+process.siPixelDigis) process.beamhaloTracksSeq = cms.Sequence(process.beamhaloTrackerSeedingLayers+process.beamhaloTrackerSeeds+process.beamhaloTrackCandidates+process.beamhaloTracks) process.PixelPairStep = cms.Sequence(process.PixelPairStepTask) process.inclusiveCandidateVertexingCvsL = cms.Sequence(process.inclusiveCandidateVertexingCvsLTask) process.muIsolation_muons = cms.Sequence(process.muIsolation_muonsTask) process.conversionTrackProducers = cms.Sequence(process.conversionTrackProducersTask) process.particleFlowTrackWithNuclear = cms.Sequence(process.pfTrack+process.pfTrackElec+process.pfNuclear) process.LowPtQuadStep = cms.Sequence(process.LowPtQuadStepTask) process.dtlocalreco_with_2DSegments = cms.Sequence(process.dt1DRecHits+process.dt2DSegments+process.dt4DSegments+process.dt1DCosmicRecHits+process.dt2DCosmicSegments+process.dt4DCosmicSegments) process.particleFlowTrackWithV0 = cms.Sequence(process.pfTrack+process.pfTrackElec+process.pfV0) process.CastorFullReco = cms.Sequence(process.CastorFullRecoTask) process.ctfTracksCombinedSeeds = cms.Sequence(process.MixedLayerPairs+process.globalSeedsFromPairsWithVertices+process.PixelLayerTriplets+process.globalSeedsFromTriplets+process.globalCombinedSeeds+process.ckfTrackCandidatesCombinedSeeds+process.ctfCombinedSeeds) process.gedElectronPFIsolationValuesSequence = cms.Sequence(process.gedElectronPFIsolationValuesTask) process.endOfProcess = cms.Sequence(process.MEtoEDMConverter) process.TobTecStep = cms.Sequence(process.TobTecStepTask) process.hpsPFTauDiscriminationByCombinedIsolationSeqDBSumPtCorr3Hits = cms.Sequence(process.hpsPFTauDiscriminationByCombinedIsolationDBSumPtCorr3HitsTask) process.muonSeededStepCoreInOut = cms.Sequence(process.muonSeededStepCoreInOutTask) process.muonSelectionTypeSequence = cms.Sequence(process.muonSelectionTypeTask) process.inclusiveVertexing = cms.Sequence(process.inclusiveVertexingTask) process.legacyBTagging = cms.Sequence(process.legacyBTaggingTask) process.pfNoPileUpSequence = cms.Sequence(process.pfNoPileUpTask) process.muonSeededStep = cms.Sequence(process.muonSeededStepTask) process.MixedTripletStep = cms.Sequence(process.MixedTripletStepTask) process.allConversionSequence = cms.Sequence(process.allConversions) process.muoncosmicreco = cms.Sequence(process.muoncosmicrecoTask) process.gedElectronPFIsolationDepositsSequence = cms.Sequence(process.gedElectronPFIsolationDepositsTask) process.me0LocalReco = cms.Sequence(process.me0RecHits+process.me0Segments) process.seldigis = cms.Sequence(process.seldigisTask) process.eIdSequence = cms.Sequence(process.eIdTask) process.muoncosmicreco1legSTA = cms.Sequence(process.muoncosmicreco1legSTATask) process.L1Reco = cms.Sequence(process.l1extraParticles) process.recoAllJetIds = cms.Sequence(process.ak4JetID) process.gedPhotonSequence = cms.Sequence(process.gedPhotons) process.allConversionOldEGSequence = cms.Sequence(process.allConversionsOldEG) process.particleFlowClusterECALSequence = cms.Sequence(process.particleFlowClusterECALTask) process.electronGsfTrackingWithTiming = cms.Sequence(process.electronGsfTrackingWithTimingTask) process.photonIDSequenceGED = cms.Sequence(process.PhotonIDProdGED) process.muonreco_with_SET = cms.Sequence(process.muonreco_with_SET_Task) process.particleFlowRecHitHGCSeq = cms.Sequence(process.particleFlowRecHitHGC) process.siStripElectronSequence = cms.Sequence(process.siStripElectrons+process.egammaCTFFinalFitWithMaterial+process.siStripElectronToTrackAssociator) process.muIsolation_ParamGlobalMuons = cms.Sequence(process.muIsolation_ParamGlobalMuonsTask) process.particleBasedIsolationSequence = cms.Sequence(process.particleBasedIsolation) process.interestingEgammaIsoDetIds = cms.Sequence(process.interestingEgammaIsoDetIdsTask) process.ak4PFCHSL1FastL2L3CorrectorChain = cms.Sequence(process.ak4PFCHSL1FastL2L3CorrectorTask) process.uncleanedOnlyCkfTracksFromConversions = cms.Sequence(process.uncleanedOnlyCkfTracksFromConversionsTask) process.recoJetIds = cms.Sequence(process.ak4JetID) process.hpsPFTauMVAIsolation2Seq = cms.Sequence(process.hpsPFTauMVAIsolation2Task) process.standalonemuontracking = cms.Sequence(process.standalonemuontrackingTask) process.cosmicDCTracksSeq = cms.Sequence(process.cosmicDCTracksSeqTask) process.pfClusteringPS = cms.Sequence(process.pfClusteringPSTask) process.ctppsDiamondLocalReconstruction = cms.Sequence(process.ctppsDiamondRecHits+process.ctppsDiamondLocalTracks) process.generalTracksSequence = cms.Sequence(process.generalTracksTask) process.uncleanedOnlyTracking = cms.Sequence(process.uncleanedOnlyTrackingTask) process.muonPFIsolationValuesSequence = cms.Sequence(process.muonPFIsolationValuesTask) process.electronSeeds = cms.Sequence(process.electronSeedsTask) process.recoPFJetsHI = cms.Sequence(process.recoPFJetsHITask) process.gemLocalReco = cms.Sequence(process.gemRecHits+process.gemSegments) process.hgcalLocalRecoSequence = cms.Sequence(process.HGCalUncalibRecHit+process.HGCalRecHit+process.hgcalLayerClusters+process.hgcalMultiClusters+process.particleFlowRecHitHGCSeq+process.particleFlowClusterHGCal+process.particleFlowClusterHGCalFromMultiCl) process.muIsoDeposits_ParamGlobalMuonsOld = cms.Sequence(process.muIsoDeposits_ParamGlobalMuonsOldTask) process.fastTimingLocalReco = cms.Sequence(process.ftlUncalibratedRecHits+process.ftlRecHits) process.uncleanedOnlyPfTracking = cms.Sequence(process.uncleanedOnlyPfTrackingTask) process.L1TRawToDigi_Stage1 = cms.Sequence(process.csctfDigis+process.dttfDigis+process.gtDigis+process.caloStage1Digis+process.caloStage1FinalDigis+process.caloStage1LegacyFormatDigis+process.gctDigis) process.L1TRawToDigi_Stage2 = cms.Sequence(process.rpcTwinMuxRawToDigi+process.twinMuxStage2Digis+process.bmtfDigis+process.omtfStage2Digis+process.rpcCPPFRawToDigi+process.emtfStage2Digis+process.caloLayer1Digis+process.caloStage2Digis+process.gmtStage2Digis+process.gtStage2Digis) process.gsfEcalDrivenElectronSequence = cms.Sequence(process.gsfEcalDrivenElectronTask) process.DetachedTripletStep = cms.Sequence(process.DetachedTripletStepTask) process.vertexreco = cms.Sequence(process.vertexrecoTask) process.muonPFIsolationSequence = cms.Sequence(process.muonPFIsolationTask) process.uncleanedOnlyConversionTrackMergers = cms.Sequence(process.uncleanedOnlyConversionTrackMergersTask) process.standAloneMuonSeeds = cms.Sequence(process.standAloneMuonSeedsTask) process.ctppsPixelLocalReconstruction = cms.Sequence(process.ctppsPixelClusters+process.ctppsPixelRecHits+process.ctppsPixelLocalTracks) process.edBasedElectronIsoSequence = cms.Sequence(process.edBasedElectronIsoTask) process.ak4JTA = cms.Sequence(process.ak4JTATask) process.hiConformalPixelTracksSequencePhase1 = cms.Sequence(process.hiConformalPixelTracksPhase1TrackingRegions+process.hiConformalPixelTracksPhase1SeedLayers+process.hiConformalPixelTracksPhase1HitDoubletsCA+process.hiConformalPixelTracksPhase1HitQuadrupletsCA+process.pixelFitterByConformalMappingAndLine+process.hiConformalPixelTracksPhase1Filter+process.hiConformalPixelTracks) process.photonPFIsolationDepositsSequence = cms.Sequence(process.phPFIsoDepositCharged+process.phPFIsoDepositChargedAll+process.phPFIsoDepositGamma+process.phPFIsoDepositNeutral+process.phPFIsoDepositPU) process.electronSeedsSeq = cms.Sequence(process.electronSeedsSeqTask) process.iterTracking = cms.Sequence(process.iterTrackingTask) process.Conv2Step = cms.Sequence(process.Conv2StepTask) process.muoncosmicreco2legsSTA = cms.Sequence(process.muoncosmicreco2legsSTATask) process.muontracking = cms.Sequence(process.muontrackingTask) process.ctfTracksPixelLess = cms.Sequence(process.pixelLessLayerPairs4PixelLessTracking+process.globalPixelLessSeeds+process.ckfTrackCandidatesPixelLess+process.ctfPixelLess) process.muonSeededStepDebugInOut = cms.Sequence(process.muonSeededStepDebugInOutTask) process.pfParticleSelectionSequence = cms.Sequence(process.pfParticleSelectionTask) process.ckfTracksFromConversions = cms.Sequence(process.ckfTracksFromConversionsTask) process.oldegConversionTrackMergers = cms.Sequence(process.oldegConversionTrackMergersTask) process.LowPtTripletStep = cms.Sequence(process.LowPtTripletStepTask) process.muonGlobalReco = cms.Sequence(process.muonGlobalRecoTask) process.PFTau = cms.Sequence(process.PFTauTask) process.hcalGlobalRecoSequence = cms.Sequence(process.hbhereco) process.electronEDIsolationValuesSequence = cms.Sequence(process.electronEDIsolationValuesTask) process.muIsoDeposits_muons = cms.Sequence(process.muIsoDeposits_muonsTask) process.muonreco_with_standAloneSET = cms.Sequence(process.muonreco_with_standAloneSET_Task) process.recoJets = cms.Sequence(process.fixedGridRhoFastjetAllCalo+process.fixedGridRhoFastjetCentralCalo+process.ak4CaloJets) process.ConvStep = cms.Sequence(process.ConvStepTask) process.muonSeededStepDisplaced = cms.Sequence(process.muonSeededStepDisplacedTask) process.reducedEcalRecHitsSequence = cms.Sequence(process.reducedEcalRecHitsTask) process.ak4JTAExplicit = cms.Sequence(process.ak4JetTracksAssociatorExplicit) process.BeamHaloId = cms.Sequence(process.BeamHaloIdTask) process.DetachedQuadStep = cms.Sequence(process.DetachedQuadStepTask) process.oldegConversionTrackProducers = cms.Sequence(process.oldegConversionTrackProducersTask) process.recoAllPFJets = cms.Sequence(process.recoAllPFJetsTask) process.ckftracks_wodEdX = cms.Sequence(process.iterTracking+process.electronSeedsSeq) process.pfGsfElectronMVASelectionSequence = cms.Sequence(cms.ignore(process.electronsWithPresel)+process.mvaElectrons) process.cosmicsMuonIdSequence = cms.Sequence(process.cosmicsMuonIdTask) process.pfNoPileUpJMESequence = cms.Sequence(process.pfNoPileUpJMETask) process.islandClusteringSequence = cms.Sequence(process.islandBasicClusters+process.islandSuperClusters+process.correctedIslandBarrelSuperClusters+process.correctedIslandEndcapSuperClusters) process.recoTrackJets = cms.Sequence(process.trackWithVertexRefSelector+process.trackRefsForJets+process.ak4TrackJets) process.hcalLocalRecoSequence = cms.Sequence(process.hfprereco+process.hbheprereco+process.hfreco+process.horeco+process.zdcreco) process.HighPtTripletStep = cms.Sequence(process.HighPtTripletStepTask) process.pfCTagging = cms.Sequence(process.pfCTaggingTask) process.PixelLessStep = cms.Sequence(process.PixelLessStepTask) process.electronSequence = cms.Sequence(process.gsfElectronTask) process.pfBasedElectronIsoSequence = cms.Sequence(process.pfBasedElectronIsoTask) process.csclocalreco = cms.Sequence(process.csc2DRecHits+process.cscSegments) process.endOfProcess_withComparison = cms.Sequence(process.MEtoEDMConverter+process.MEtoMEComparitor) process.regionalCosmicTracksSeq = cms.Sequence(process.regionalCosmicTrackerSeedingLayers+process.regionalCosmicTrackerSeeds+process.regionalCosmicCkfTrackCandidates+process.regionalCosmicTracks) process.muoncosmichighlevelreco = cms.Sequence(process.muoncosmichighlevelrecoTask) process.JetCoreRegionalStep = cms.Sequence(process.JetCoreRegionalStepTask) process.ak4PFL1FastL2L3CorrectorChain = cms.Sequence(process.ak4PFL1FastL2L3CorrectorTask) process.particleFlowLinks = cms.Sequence(process.particleFlow+process.particleFlowPtrs+process.chargedHadronPFTrackIsolation+process.particleBasedIsolationSequence) process.conversionSequence = cms.Sequence(process.conversions) process.muIsoDeposits_ParamGlobalMuons = cms.Sequence(process.muIsoDeposits_ParamGlobalMuonsTask) process.particleFlowSuperClusteringSequence = cms.Sequence(process.particleFlowSuperClusterECAL) process.globalmuontracking = cms.Sequence(process.globalmuontrackingTask) process.muonSeededStepExtraDisplaced = cms.Sequence(process.muonSeededStepExtraDisplacedTask) process.ecalUncalibRecHitSequence = cms.Sequence(process.ecalMultiFitUncalibRecHit+process.ecalDetIdToBeRecovered) process.jetPlusTrackZSPCorJetAntiKt4 = cms.Sequence(process.JetPlusTrackCorrectionsAntiKt4) process.hpsPFTauDiscriminationByPileupWeightedIsolationSeq3Hits = cms.Sequence(process.hpsPFTauDiscriminationByPileupWeightedIsolation3HitsTask) process.pfClusteringECAL = cms.Sequence(process.pfClusteringECALTask) process.muonreco_plus_isolation = cms.Sequence(process.muonreco_plus_isolationTask) process.pfBTagging = cms.Sequence(process.pfBTaggingTask) process.muonreco = cms.Sequence(process.muonrecoTask) process.striptrackerlocalreco = cms.Sequence(process.siStripZeroSuppression+process.siStripClusters+process.siStripMatchedRecHits) process.muonSeededStepCoreOutIn = cms.Sequence(process.muonSeededStepCoreOutInTask) process.recoPFMET = cms.Sequence(process.pfMet+process.particleFlowForChargedMET+process.pfChMet) process.recoPFJets = cms.Sequence(process.recoPFJetsTask) process.totemTimingLocalReconstruction = cms.Sequence(process.totemTimingRecHits) process.caloglobalreco = cms.Sequence(process.hcalGlobalRecoSequence) process.muoncosmicreco2legsHighLevel = cms.Sequence(process.muoncosmicreco2legsHighLevelTask) process.muonlocalreco = cms.Sequence(process.dtlocalreco+process.csclocalreco+process.rpcRecHits+process.gemLocalReco+process.rpcNewRecHits) process.displacedGlobalMuonTracking = cms.Sequence(process.displacedGlobalMuonTrackingTask) process.produceAndDiscriminateHPSPFTaus = cms.Sequence(process.produceAndDiscriminateHPSPFTausTask) process.multi5x5PreshowerClusteringSequence = cms.Sequence(process.multi5x5PreshowerClusteringTask) process.muonSeededStepCore = cms.Sequence(process.muonSeededStepCoreTask) process.uncleanedOnlyConversionTrackProducers = cms.Sequence(process.uncleanedOnlyConversionTrackProducersTask) process.recoJPTJets = cms.Sequence(process.jetPlusTrackZSPCorJetAntiKt4) process.muoncosmicreco1legHighLevel = cms.Sequence(process.muoncosmicreco1legHighLevelTask) process.pfClusteringHGCal = cms.Sequence(process.particleFlowRecHitHGC) process.photonIDSequence = cms.Sequence(process.PhotonIDProd) process.gedElectronPFIsoSequence = cms.Sequence(process.gedElectronPFIsoTask) process.egammareco_woConvPhotons = cms.Sequence(process.electronSequence+process.photonSequence) process.electronGsfTracking = cms.Sequence(process.electronGsfTrackingTask) process.caloTowersRec = cms.Sequence(process.caloTowersRecTask) process.recoAllJetsPUOffsetCorr = cms.Sequence(process.fixedGridRhoFastjetAllCalo+process.fixedGridRhoFastjetCentralCalo+process.ak4CaloJetsPUCorr) process.particleFlowTrackWithDisplacedVertex = cms.Sequence(process.particleFlowTrackWithDisplacedVertexTask) process.pfBasedElectronPhotonIsoSequence = cms.Sequence(process.pfParticleSelectionSequence+process.pfSelectedElectrons+process.pfSelectedPhotons+process.photonPFIsolationDepositsSequence+process.phPFIsoValueCharged03PFId+process.phPFIsoValueChargedAll03PFId+process.phPFIsoValueGamma03PFId+process.phPFIsoValueNeutral03PFId+process.phPFIsoValuePU03PFId+process.phPFIsoValueCharged04PFId+process.phPFIsoValueChargedAll04PFId+process.phPFIsoValueGamma04PFId+process.phPFIsoValueNeutral04PFId+process.phPFIsoValuePU04PFId) process.hcalLocalRecoSequenceNZS = cms.Sequence(process.hfprerecoMB+process.hbherecoMB+process.hfrecoMB+process.horecoMB) process.uncleanedOnlyElectronSequence = cms.Sequence(process.uncleanedOnlyElectronTask) process.gsfElectronSequence = cms.Sequence(process.gsfElectronTask) process.pfPhotonTranslatorSequence = cms.Sequence(process.pfBasedElectronPhotonIsoSequence+process.pfPhotonTranslator+process.pfPhotonInterestingEcalDetIdEB+process.pfPhotonInterestingEcalDetIdEE) process.reducedHcalRecHitsSequence = cms.Sequence(process.reducedHcalRecHits) process.ckfTracksFromMustacheConversions = cms.Sequence(process.mustacheConversionTrackCandidates+process.ckfOutInTracksFromMustacheConversions+process.ckfInOutTracksFromMustacheConversions) process.electronIsoSequence = cms.Sequence(process.electronIsoTask) process.oldegConversionSequence = cms.Sequence(process.oldegConversions) process.muonSeededStepDebugDisplaced = cms.Sequence(process.muonSeededStepDebugDisplacedTask) process.InitialStep = cms.Sequence(process.InitialStepTask) process.particleFlowClusterWithoutHOTask = cms.Sequence(process.particleFlowBadHcalPseudoCluster, process.pfClusteringECALTask, process.pfClusteringHBHEHFTask, process.pfClusteringPSTask) process.gedPhotonSequenceTmp = cms.Sequence(process.gedPhotonCore+process.gedPhotonsTmp) process.muIsolation = cms.Sequence(process.muIsolationTask) process.electronPFIsolationValuesSequence = cms.Sequence(process.electronPFIsolationValuesTask) process.conversionTrackMergers = cms.Sequence(process.conversionTrackMergersTask) process.JetPlusTrackCorrections = cms.Sequence(process.JetPlusTrackCorrectionsAntiKt4) process.recoJetsHI = cms.Sequence(process.fixedGridRhoFastjetAllCalo+process.fixedGridRhoFastjetCentralCalo+process.ak4CaloJets+process.caloTowersRec+process.caloTowers+process.akPu4CaloJets) process.pfSortByTypeSequence = cms.Sequence(process.pfSortByTypeTask) process.kt4JTA = cms.Sequence(process.kt4JetTracksAssociatorAtVertex+process.kt4JetTracksAssociatorAtCaloFace+process.kt4JetExtender) process.pfTrackingGlobalReco = cms.Sequence(process.particleFlowTrackWithDisplacedVertex) process.electronEDIsolationDepositsSequence = cms.Sequence(process.electronEDIsolationDepositsTask) process.particleFlowTrack = cms.Sequence(process.pfTrack+process.pfTrackElec) process.egmIsolationSequence = cms.Sequence(process.egmIsolationTask) process.recoAllJets = cms.Sequence(process.fixedGridRhoFastjetAllCalo+process.fixedGridRhoFastjetCentralCalo+process.fixedGridRhoFastjetAllCalo+process.ak4CaloJets) process.sisCone5JTA = cms.Sequence(process.sisCone5JetTracksAssociatorAtVertex+process.sisCone5JetTracksAssociatorAtCaloFace+process.sisCone5JetExtender) process.hpsPFTauDiscriminationByCombinedIsolationSeqDBSumPtCorr3HitsdR03 = cms.Sequence(process.hpsPFTauDiscriminationByCombinedIsolationDBSumPtCorr3HitsdR03Task) process.caloJetsForTrk = cms.Sequence(process.caloJetsForTrkTask) process.muontracking_with_SET = cms.Sequence(process.muontracking_with_SET_Task) process.pfNoPileUpIsoSequence = cms.Sequence(process.pfNoPileUpIsoTask) process.hfEMClusteringSequence = cms.Sequence(process.hfEMClusteringTask) process.ootPhotonSequence = cms.Sequence(process.ootPhotonTask) process.egammareco = cms.Sequence(process.electronSequence+process.conversionSequence+process.photonSequence) process.recoTauClassicHPSSequence = cms.Sequence(process.recoTauClassicHPSTask) process.muonSeededStepCoreDisplaced = cms.Sequence(process.muonSeededStepCoreDisplacedTask) process.produceHPSPFTaus = cms.Sequence(process.produceHPSPFTausTask) process.GsfGlobalElectronTestSequence = cms.Sequence(process.CkfElectronCandidates+process.GsfGlobalElectronTest) process.hpsPFTauVertexAndImpactParametersSeq = cms.Sequence(process.hpsPFTauVertexAndImpactParametersTask) process.pfClusterIsolationSequence = cms.Sequence(process.pfClusterIsolationTask) process.totemRPLocalReconstruction = cms.Sequence(process.totemRPClusterProducer+process.totemRPRecHitProducer+process.totemRPUVPatternFinder+process.totemRPLocalTrackFitter) process.muonSeededStepExtraInOut = cms.Sequence(process.muonSeededStepExtraInOutTask) process.pfClusteringHBHEHF = cms.Sequence(process.pfClusteringHBHEHFTask) process.multi5x5ClusteringSequence = cms.Sequence(process.multi5x5ClusteringTask) process.mvaIsolation2Seq = cms.Sequence(process.chargedIsoPtSum+process.neutralIsoPtSum+process.puCorrPtSum+process.discriminationByIsolationMVA2raw+process.discriminationByIsolationMVA2VLoose+process.discriminationByIsolationMVA2Loose+process.discriminationByIsolationMVA2Medium+process.discriminationByIsolationMVA2Tight+process.discriminationByIsolationMVA2VTight) process.jetGlobalReco = cms.Sequence(process.recoJetsHI+process.recoJetIds) process.muIsolation_ParamGlobalMuonsOld = cms.Sequence(process.muIsolation_ParamGlobalMuonsOldTask) process.reducedEcalRecHitsSequenceEcalOnly = cms.Sequence(process.reducedEcalRecHitsSequenceEcalOnlyTask) process.L1Reco_L1Extra = cms.Sequence() process.particleFlowCluster = cms.Sequence(process.particleFlowClusterTask) process.muonIdProducerSequence = cms.Sequence(process.muonIdProducerTask) process.hiConformalPixelTracksSequence = cms.Sequence(process.hiTrackingRegionWithVertex+process.hiConformalPixelTracksHitDoublets+process.hiConformalPixelTracksHitTriplets+process.pixelFitterByConformalMappingAndLine+process.hiConformalPixelFilter+process.hiConformalPixelTracks) process.egammaIsolationSequence = cms.Sequence(process.egammaIsolationTask) process.muonrecoComplete = cms.Sequence(process.muonSelectionTypeTask, process.muonreco_plus_isolationTask) process.gedGsfElectronSequenceTmp = cms.Sequence(process.gedGsfElectronCores+process.gedGsfElectronsTmp) process.ctfTracksNoOverlaps = cms.Sequence(process.ckfTrackCandidatesNoOverlaps+process.ctfNoOverlaps) process.egammarecoFull_woHFElectrons = cms.Sequence(process.egammareco+process.interestingEgammaIsoDetIds+process.photonIDSequence+process.eIdSequence) process.muonSeededStepDebug = cms.Sequence(process.muonSeededStepDebugTask) process.pfClusteringHO = cms.Sequence(process.pfClusteringHOTask) process.conversionTrackSequenceNoEcalSeeded = cms.Sequence(process.conversionTrackTaskNoEcalSeeded) process.jetCorrectorsForReco = cms.Sequence(process.ak4PFL1FastL2L3CorrectorChain+process.ak4PFCHSL1FastL2L3ResidualCorrectorChain) process.recoPFJetsWithSubstructure = cms.Sequence(process.recoPFJetsWithSubstructureTask) process.L1Reco_L1Extra_L1GtRecord = cms.Sequence() process.gsfElectronMergingSequence = cms.Sequence(process.gsfElectronMergingTask) process.hybridClusteringSequence = cms.Sequence(process.hybridClusteringTask) process.InitialStepPreSplitting = cms.Sequence(process.InitialStepPreSplittingTask) process.ctppsRawToDigi = cms.Sequence(process.totemTriggerRawToDigi+process.totemRPRawToDigi+process.ctppsDiamondRawToDigi+process.totemTimingRawToDigi+process.ctppsPixelDigis) process.particleFlowTmpSeq = cms.Sequence(process.particleFlowTmp) process.doAlldEdXEstimators = cms.Sequence(process.doAlldEdXEstimatorsTask) process.ecalRecHitSequence = cms.Sequence(process.ecalRecHit+process.ecalCompactTrigPrim+process.ecalTPSkim+process.ecalPreshowerRecHit) process.displacedTracksSequence = cms.Sequence(process.displacedTracksTask) process.muonPFIsolationDepositsSequence = cms.Sequence(process.muonPFIsolationDepositsTask) process.electronPFIsolationDepositsSequence = cms.Sequence(process.electronPFIsolationDepositsTask) process.recopixelvertexing = cms.Sequence(process.pixelTracksSequence+process.pixelVertices) process.L1TRawToDigi = cms.Sequence(process.L1TRawToDigi_Stage1+process.L1TRawToDigi_Stage2) process.ecalLocalRecoSequence = cms.Sequence(process.ecalUncalibRecHitSequence+process.ecalRecHitSequence) process.egammarecoFull = cms.Sequence(process.egammareco+process.interestingEgammaIsoDetIds+process.egmIsolationSequence+process.photonIDSequence+process.eIdSequence+process.hfEMClusteringSequence) process.egammareco_withElectronID = cms.Sequence(process.egammareco+process.eIdSequence) process.pfElectronTranslatorSequence = cms.Sequence(process.pfBasedElectronPhotonIsoSequence+process.pfElectronTranslator+process.pfElectronInterestingEcalDetIdEB+process.pfElectronInterestingEcalDetIdEE) process.muonlocalreco_with_2DSegments = cms.Sequence(process.dtlocalreco_with_2DSegments+process.csclocalreco+process.rpcRecHits+process.rpcNewRecHits) process.ckftracks_woBH = cms.Sequence(process.iterTracking+process.electronSeedsSeq+process.doAlldEdXEstimators) process.particleFlowEGammaFinal = cms.Sequence(process.particleBasedIsolationTmp+process.pfNoPileUpIsoSequence+cms.ignore(process.pfNoPileUpCandidates)+cms.ignore(process.pfPileUpAllChargedParticles)+process.egmPhotonIsolationCITK+process.egmElectronIsolationCITK+process.egmElectronIsolationPileUpCITK+process.gedPhotonSequence+process.gedElectronPFIsoSequence) process.egammareco_withIsolation_woConvPhotons = cms.Sequence(process.egammareco_woConvPhotons+process.egammaIsolationSequence) process.ecalClustersNoPFBox = cms.Sequence(process.hybridClusteringSequence+process.multi5x5ClusteringSequence+process.multi5x5PreshowerClusteringSequence) process.RawToDigi = cms.Sequence(process.rawDataMapperByLabel+process.rawDataMapperByLabel+process.L1TRawToDigi+process.siPixelDigis+process.siStripDigis+process.ecalDigis+process.ecalPreshowerDigis+process.hcalDigis+process.muonCSCDigis+process.muonDTDigis+process.muonRPCDigis+process.castorDigis+process.scalersRawToDigi+process.tcdsDigis+process.onlineMetaDataDigis+process.muonGEMDigis+process.ctppsRawToDigi+process.muonRPCNewDigis) process.reconstruction_pixelTrackingOnly = cms.Sequence(process.pixeltrackerlocalreco+process.offlineBeamSpot+process.siPixelClusterShapeCachePreSplitting+process.recopixelvertexing) process.recoCTPPSdets = cms.Sequence(process.totemRPLocalReconstruction+process.ctppsDiamondLocalReconstruction+process.totemTimingLocalReconstruction+process.ctppsPixelLocalReconstruction+process.ctppsLocalTrackLiteProducer) process.ckftracks = cms.Sequence(process.iterTracking+process.electronSeedsSeq+process.doAlldEdXEstimators) process.metreco = cms.Sequence(process.caloMet+process.caloMetBE+process.caloMetBEFO+process.muonMETValueMapProducer+process.caloMetM+process.BeamHaloId) process.egammarecoWithID = cms.Sequence(process.egammareco+process.photonIDSequence+process.eIdSequence) process.trackerlocalreco = cms.Sequence(process.pixeltrackerlocalreco+process.striptrackerlocalreco+process.clusterSummaryProducer) process.ckftracks_plus_pixelless = cms.Sequence(process.ckftracks+process.ctfTracksPixelLess) process.egammaGlobalReco = cms.Sequence(process.electronGsfTracking+process.conversionTrackSequence+process.allConversionSequence) process.egammareco_withPhotonID = cms.Sequence(process.egammareco+process.photonIDSequence) process.reducedRecHits = cms.Sequence(process.reducedEcalRecHitsSequence+process.reducedHcalRecHitsSequence) process.calolocalrecoNZS = cms.Sequence(process.ecalLocalRecoSequence+process.hcalLocalRecoSequence+process.hcalLocalRecoSequenceNZS) process.RawToDigi_noTk = cms.Sequence(process.rawDataMapperByLabel+process.rawDataMapperByLabel+process.L1TRawToDigi+process.siPixelDigis+process.siStripDigis+process.ecalDigis+process.ecalPreshowerDigis+process.hcalDigis+process.muonCSCDigis+process.muonDTDigis+process.muonRPCDigis+process.castorDigis+process.scalersRawToDigi+process.tcdsDigis+process.onlineMetaDataDigis+process.muonGEMDigis+process.ctppsRawToDigi+process.muonRPCNewDigis) process.egammaHighLevelRecoPostPF = cms.Sequence(process.interestingEgammaIsoDetIds+process.egmIsolationSequence+process.photonIDSequence+process.photonIDSequenceGED+process.eIdSequence+process.hfEMClusteringSequence+process.photonIsolationHIProducerpp+process.photonIsolationHIProducerppGED+process.photonIsolationHIProducerppIsland) process.recoJetAssociationsExplicit = cms.Sequence(process.ak4JTAExplicit) process.recoCTPPS = cms.Sequence(process.recoCTPPSdets) process.particleFlowEGammaFull = cms.Sequence(process.particleFlowEGamma+process.gedGsfElectronSequenceTmp+process.gedPhotonSequenceTmp) process.recoJetAssociations = cms.Sequence(process.ak4JTA) process.egammaHighLevelRecoPrePF = cms.Sequence(process.gsfEcalDrivenElectronSequence+process.uncleanedOnlyElectronSequence+process.conversionSequence+process.photonSequence) process.egammareco_withIsolation = cms.Sequence(process.egammareco+process.egammaIsolationSequence) process.particleFlowClusterWithoutHO = cms.Sequence(process.particleFlowClusterWithoutHOTask) process.particleFlowReco = cms.Sequence(process.particleFlowTrackWithDisplacedVertex+process.pfGsfElectronMVASelectionSequence+process.particleFlowBlock+process.particleFlowEGammaFull+process.particleFlowTmpSeq+process.fixedGridRhoFastjetAllTmp+process.particleFlowTmpPtrs+process.particleFlowEGammaFinal+process.pfParticleSelectionSequence) process.calolocalreco = cms.Sequence(process.ecalLocalRecoSequence+process.hcalLocalRecoSequence) process.localreco_HcalNZS = cms.Sequence(process.bunchSpacingProducer+process.trackerlocalreco+process.muonlocalreco+process.calolocalrecoNZS+process.castorreco+process.recoCTPPS) process.localreco = cms.Sequence(process.bunchSpacingProducer+process.trackerlocalreco+process.muonlocalreco+process.calolocalreco+process.castorreco+process.recoCTPPS) process.ecalClusters = cms.Sequence(process.ecalClustersNoPFBox+process.particleFlowSuperClusteringSequence+process.islandClusteringSequence) process.jetHighLevelReco = cms.Sequence(process.recoPFJetsHI+process.jetCorrectorsForReco+process.recoJetAssociations) process.reconstruction_fromRECO_noTrackingTest = cms.Sequence(process.bunchSpacingProducer+process.dt4DSegments+process.dt4DCosmicSegments+process.cscSegments+process.gemSegments+process.rpcNewRecHits+process.hfprereco+process.recoCTPPS+process.offlineBeamSpot+process.standalonemuontracking+process.trackExtrapolator+process.vertexreco+process.particleFlowCluster+process.ecalClusters+process.caloTowersRec+process.egammaGlobalReco+process.jetGlobalReco+process.muonGlobalReco+process.pfTrackingGlobalReco+process.muoncosmicreco+process.CastorFullReco+process.egammaHighLevelRecoPrePF+process.particleFlowReco+process.egammaHighLevelRecoPostPF+process.muoncosmichighlevelreco+process.muonshighlevelreco+process.particleFlowLinks+process.jetHighLevelReco+process.metreco+process.btagging+process.recoPFMET+process.reducedHcalRecHitsSequence+process.cosmicDCTracksSeq+process.hiConformalPixelTracksSequencePhase1+process.hiCentrality+process.hiClusterCompatibility+process.logErrorHarvester, cms.Task(process.interestingEcalDetIdEB, process.interestingEcalDetIdEBU, process.interestingEcalDetIdEE, process.interestingEcalDetIdPFEB, process.interestingEcalDetIdPFEE, process.interestingEcalDetIdPFES, process.interestingEcalDetIdRefinedEB, process.interestingEcalDetIdRefinedEE, process.interestingEcalDetIdRefinedES, process.interestingTrackEcalDetIds, process.reducedEcalRecHitsEB, process.reducedEcalRecHitsEE, process.reducedEcalRecHitsES)) process.trackingGlobalReco = cms.Sequence(process.ckftracks+process.trackExtrapolator) process.metrecoPlusHCALNoise = cms.Sequence(process.metreco+process.hcalnoise) process.reconstruction_noTracking = cms.Sequence(process.bunchSpacingProducer+process.muonlocalreco+process.calolocalreco+process.castorreco+process.recoCTPPS+process.offlineBeamSpot+process.standalonemuontracking+process.trackExtrapolator+process.hcalGlobalRecoSequence+process.vertexreco+process.particleFlowCluster+process.ecalClusters+process.caloTowersRec+process.jetGlobalReco+process.muonGlobalReco+process.pfTrackingGlobalReco+process.muoncosmicreco+process.CastorFullReco+process.conversionSequence+process.photonSequence+process.particleFlowReco+process.egammaHighLevelRecoPostPF+process.muoncosmichighlevelreco+process.muonshighlevelreco+process.particleFlowLinks+process.jetHighLevelReco+process.metrecoPlusHCALNoise+process.btagging+process.recoPFMET+process.reducedRecHits+process.cosmicDCTracksSeq+process.hiConformalPixelTracksSequencePhase1+process.hiCentrality+process.hiClusterCompatibility+process.logErrorHarvester, cms.Task(process.ckfTracksFromConversionsTask, process.conversionStepConversionTrackProducer, process.generalConversionStepConversionTrackMerger, process.inOutConversionTrackProducer, process.inOutOutInConversionTrackMerger, process.outInConversionTrackProducer), cms.Task(process.ecalDrivenGsfElectronCores), cms.Task(process.uncleanedOnlyCkfTracksFromConversionsTask, process.uncleanedOnlyInOutConversionTrackProducer, process.uncleanedOnlyInOutOutInConversionTrackMerger, process.uncleanedOnlyOutInConversionTrackProducer, process.uncleanedOnlyPfConversions)) process.highlevelreco = cms.Sequence(process.egammaHighLevelRecoPrePF+process.particleFlowReco+process.egammaHighLevelRecoPostPF+process.muoncosmichighlevelreco+process.muonshighlevelreco+process.particleFlowLinks+process.jetHighLevelReco+process.metrecoPlusHCALNoise+process.btagging+process.recoPFMET+process.reducedRecHits+process.cosmicDCTracksSeq+process.hiConformalPixelTracksSequencePhase1+process.hiCentrality+process.hiClusterCompatibility) process.globalreco_tracking = cms.Sequence(process.offlineBeamSpot+process.MeasurementTrackerEventPreSplitting+process.siPixelClusterShapeCachePreSplitting+process.standalonemuontracking+process.trackingGlobalReco+process.hcalGlobalRecoSequence+process.vertexreco) process.reconstruction_trackingOnly = cms.Sequence(process.localreco+process.globalreco_tracking) process.reconstruction_fromRECO = cms.Sequence(process.bunchSpacingProducer+process.siStripMatchedRecHits+process.dt4DSegments+process.dt4DCosmicSegments+process.cscSegments+process.gemSegments+process.rpcNewRecHits+process.hfprereco+process.recoCTPPS+process.offlineBeamSpot+process.standalonemuontracking+process.electronSeedsSeq+process.doAlldEdXEstimators+process.trackExtrapolator+process.vertexreco+process.particleFlowCluster+process.ecalClusters+process.caloTowersRec+process.egammaGlobalReco+process.jetGlobalReco+process.muonGlobalReco+process.pfTrackingGlobalReco+process.muoncosmicreco+process.CastorFullReco+process.egammaHighLevelRecoPrePF+process.particleFlowReco+process.egammaHighLevelRecoPostPF+process.muoncosmichighlevelreco+process.muonshighlevelreco+process.particleFlowLinks+process.jetHighLevelReco+process.metreco+process.btagging+process.recoPFMET+process.reducedHcalRecHitsSequence+process.cosmicDCTracksSeq+process.hiConformalPixelTracksSequencePhase1+process.hiCentrality+process.hiClusterCompatibility+process.logErrorHarvester, cms.Task(process.ConvStepTask, process.MeasurementTrackerEvent, process.conversionStepTracks, process.earlyGeneralTracks, process.generalTracksTask, process.initialStepHitQuadrupletsPreSplitting, process.iterTrackingEarlyTask, process.muonSeededStepTask, process.preDuplicateMergingGeneralTracks, process.siPixelClusterShapeCache, process.siPixelRecHits, process.trackerClusterCheck), cms.Task(process.interestingEcalDetIdEB, process.interestingEcalDetIdEBU, process.interestingEcalDetIdEE, process.interestingEcalDetIdPFEB, process.interestingEcalDetIdPFEE, process.interestingEcalDetIdPFES, process.interestingEcalDetIdRefinedEB, process.interestingEcalDetIdRefinedEE, process.interestingEcalDetIdRefinedES, process.interestingTrackEcalDetIds, process.reducedEcalRecHitsEB, process.reducedEcalRecHitsEE, process.reducedEcalRecHitsES)) process.reconstruction_fromRECO_noTracking = cms.Sequence(process.bunchSpacingProducer+process.dt4DSegments+process.dt4DCosmicSegments+process.cscSegments+process.gemSegments+process.rpcNewRecHits+process.hfprereco+process.recoCTPPS+process.offlineBeamSpot+process.standalonemuontracking+process.trackExtrapolator+process.vertexreco+process.particleFlowCluster+process.ecalClusters+process.caloTowersRec+process.jetGlobalReco+process.muonGlobalReco+process.pfTrackingGlobalReco+process.muoncosmicreco+process.CastorFullReco+process.conversionSequence+process.photonSequence+process.particleFlowReco+process.egammaHighLevelRecoPostPF+process.muoncosmichighlevelreco+process.muonshighlevelreco+process.particleFlowLinks+process.jetHighLevelReco+process.metreco+process.btagging+process.recoPFMET+process.reducedHcalRecHitsSequence+process.cosmicDCTracksSeq+process.hiConformalPixelTracksSequencePhase1+process.hiCentrality+process.hiClusterCompatibility+process.logErrorHarvester, cms.Task(process.ckfTracksFromConversionsTask, process.conversionStepConversionTrackProducer, process.generalConversionStepConversionTrackMerger, process.inOutConversionTrackProducer, process.inOutOutInConversionTrackMerger, process.outInConversionTrackProducer), cms.Task(process.ecalDrivenGsfElectronCores), cms.Task(process.interestingEcalDetIdEB, process.interestingEcalDetIdEBU, process.interestingEcalDetIdEE, process.interestingEcalDetIdPFEB, process.interestingEcalDetIdPFEE, process.interestingEcalDetIdPFES, process.interestingEcalDetIdRefinedEB, process.interestingEcalDetIdRefinedEE, process.interestingEcalDetIdRefinedES, process.interestingTrackEcalDetIds, process.reducedEcalRecHitsEB, process.reducedEcalRecHitsEE, process.reducedEcalRecHitsES), cms.Task(process.uncleanedOnlyCkfTracksFromConversionsTask, process.uncleanedOnlyInOutConversionTrackProducer, process.uncleanedOnlyInOutOutInConversionTrackMerger, process.uncleanedOnlyOutInConversionTrackProducer, process.uncleanedOnlyPfConversions)) process.globalreco = cms.Sequence(process.globalreco_tracking+process.particleFlowCluster+process.ecalClusters+process.caloTowersRec+process.egammaGlobalReco+process.jetGlobalReco+process.muonGlobalReco+process.pfTrackingGlobalReco+process.muoncosmicreco+process.CastorFullReco) process.reconstruction_woCosmicMuons = cms.Sequence(process.localreco+process.globalreco+process.highlevelreco+process.logErrorHarvester) process.reconstruction_HcalNZS = cms.Sequence(process.localreco_HcalNZS+process.globalreco+process.highlevelreco+process.logErrorHarvester) process.globalreco_plusPL = cms.Sequence(process.globalreco+process.ctfTracksPixelLess) process.reconstruction_withPixellessTk = cms.Sequence(process.localreco+process.globalreco_plusPL+process.highlevelreco+process.logErrorHarvester) process.reconstruction_standard_candle = cms.Sequence(process.localreco+process.globalreco+process.vertexreco+process.recoJetAssociations+process.btagging+process.electronSequence+process.photonSequence) process.reconstruction = cms.Sequence(process.localreco+process.globalreco+process.highlevelreco+process.logErrorHarvester) process.raw2digi_step = cms.Path(cms.Task(process.bmtfDigis, process.caloLayer1Digis, process.caloStage1Digis, process.caloStage1FinalDigis, process.caloStage1LegacyFormatDigis, process.caloStage2Digis, process.castorDigis, process.csctfDigis, process.ctppsDiamondRawToDigi, process.ctppsPixelDigis, process.dttfDigis, process.ecalDigis, process.ecalPreshowerDigis, process.emtfStage2Digis, process.gctDigis, process.gmtStage2Digis, process.gtDigis, process.gtStage2Digis, process.hcalDigis, process.muonCSCDigis, process.muonDTDigis, process.muonGEMDigis, process.muonRPCDigis, process.muonRPCNewDigis, process.omtfStage2Digis, process.onlineMetaDataDigis, process.rawDataMapperByLabel, process.rpcCPPFRawToDigi, process.rpcTwinMuxRawToDigi, process.scalersRawToDigi, process.siPixelDigis, process.siStripDigis, process.tcdsDigis, process.totemRPRawToDigi, process.totemTimingRawToDigi, process.totemTriggerRawToDigi, process.twinMuxStage2Digis)) process.reconstruction_step = cms.Path(cms.Task(*[process.BeamHaloSummary, process.CSCHaloData, process.CastorTowerReco, process.CosmicMuonSeed, process.EcalHaloData, process.GlobalHaloData, process.HcalHaloData, process.MeasurementTrackerEvent, process.PFTowers, process.ak4CaloJetsForTrk, process.ak4CaloJetsForTrkPreSplitting, process.ak4JetExtender, process.ak4JetTracksAssociatorAtCaloFace, process.ak4JetTracksAssociatorAtVertex, process.ak4JetTracksAssociatorAtVertexPF, process.ak4PFCHSL1FastL2L3ResidualCorrector, process.ak4PFCHSL1FastjetCorrector, process.ak4PFCHSL2RelativeCorrector, process.ak4PFCHSL3AbsoluteCorrector, process.ak4PFCHSResidualCorrector, process.ak4PFJets, process.ak4PFJetsCHS, process.ak4PFL1FastL2L3Corrector, process.ak4PFL1FastjetCorrector, process.ak4PFL2RelativeCorrector, process.ak4PFL3AbsoluteCorrector, process.ak5CastorJetID, process.ak5CastorJets, process.ak7CastorJetID, process.ak7CastorJets, process.ak8PFJetsCHS, process.akCs4PFJets, process.akPu3PFJets, process.akPu4PFJets, process.ancientMuonSeed, process.caloTowerForTrk, process.caloTowerForTrkPreSplitting, process.candidateVertexArbitrator, process.candidateVertexArbitratorCvsL, process.candidateVertexMerger, process.candidateVertexMergerCvsL, process.chargeCut2069Clusters, process.ckfInOutTracksFromConversions, process.ckfOutInTracksFromConversions, process.cleanedHybridSuperClusters, process.convClusters, process.convLayerPairs, process.convStepSelector, process.convStepTracks, process.convTrackCandidates, process.conversionStepConversionTrackProducer, process.conversionStepTracks, process.conversionTrackCandidates, process.correctedHybridSuperClusters, process.correctedMulti5x5SuperClustersWithPreshower, process.cosmicDCCkfTrackCandidates, process.cosmicDCSeeds, process.cosmicDCTracks, process.cosmicMuons, process.cosmicMuons1Leg, process.cosmicsVeto, process.cosmicsVetoSeeds, process.cosmicsVetoTrackCandidates, process.cosmicsVetoTracks, process.cosmicsVetoTracksRaw, process.dedxHarmonic2, process.dedxHitInfo, process.dedxPixelAndStripHarmonic2T085, process.dedxPixelHarmonic2, process.dedxTruncated40, process.detachedQuadStep, process.detachedQuadStepClusters, process.detachedQuadStepHitDoublets, process.detachedQuadStepHitQuadruplets, process.detachedQuadStepSeedLayers, process.detachedQuadStepSeeds, process.detachedQuadStepTrackCandidates, process.detachedQuadStepTrackingRegions, process.detachedQuadStepTracks, process.detachedTripletStep, process.detachedTripletStepClassifier1, process.detachedTripletStepClassifier2, process.detachedTripletStepClusters, process.detachedTripletStepHitDoublets, process.detachedTripletStepHitTriplets, process.detachedTripletStepSeedClusterMask, process.detachedTripletStepSeedLayers, process.detachedTripletStepSeeds, process.detachedTripletStepTrackCandidates, process.detachedTripletStepTrackingRegions, process.detachedTripletStepTracks, process.displacedGlobalMuons, process.displacedMuonSeeds, process.displacedStandAloneMuons, process.displacedTracks, process.duplicateDisplacedTrackCandidates, process.duplicateDisplacedTrackClassifier, process.duplicateTrackCandidates, process.duplicateTrackClassifier, process.earlyDisplacedMuons, process.earlyGeneralTracks, process.earlyMuons, process.ecalDrivenElectronSeeds, process.ecalDrivenGsfElectronCores, process.ecalDrivenGsfElectrons, process.egmGedGsfElectronPFNoPileUpIsolation, process.egmGedGsfElectronPFPileUpIsolation, process.eidLoose, process.eidRobustHighEnergy, process.eidRobustLoose, process.eidRobustTight, process.eidTight, process.electronCkfTrackCandidates, process.electronEcalPFClusterIsolationProducer, process.electronGsfTracks, process.electronHcalPFClusterIsolationProducer, process.electronMergedSeeds, process.firstStepGoodPrimaryVertices, process.firstStepPrimaryVertices, process.firstStepPrimaryVerticesPreSplitting, process.firstStepPrimaryVerticesUnsorted, process.fixedGridRhoAll, process.fixedGridRhoFastjetAll, process.fixedGridRhoFastjetCentral, process.fixedGridRhoFastjetCentralChargedPileUp, process.fixedGridRhoFastjetCentralNeutral, process.gedElPFIsoDepositCharged, process.gedElPFIsoDepositChargedAll, process.gedElPFIsoDepositGamma, process.gedElPFIsoDepositNeutral, process.gedElPFIsoDepositPU, process.gedElPFIsoValueCharged03, process.gedElPFIsoValueChargedAll03, process.gedElPFIsoValueGamma03, process.gedElPFIsoValueNeutral03, process.gedElPFIsoValuePU03, process.gedGsfElectrons, process.generalConversionStepConversionTrackMerger, process.generalConversionTrackProducer, process.generalInOutOutInConversionTrackMerger, process.generalTracks, process.generalV0Candidates, process.glbTrackQual, process.globalMuons, process.gsfConversionTrackProducer, process.gsfGeneralInOutOutInConversionTrackMerger, process.hfEMClusters, process.hfRecoEcalCandidate, process.hiFJRhoProducer, process.highPtTripletStep, process.highPtTripletStepClusters, process.highPtTripletStepHitDoublets, process.highPtTripletStepHitTriplets, process.highPtTripletStepSeedLayers, process.highPtTripletStepSeeds, process.highPtTripletStepTrackCandidates, process.highPtTripletStepTrackingRegions, process.highPtTripletStepTracks, process.hybridSuperClusters, process.inOutConversionTrackProducer, process.inOutOutInConversionTrackMerger, process.inclusiveCandidateSecondaryVertices, process.inclusiveCandidateSecondaryVerticesCvsL, process.inclusiveCandidateVertexFinder, process.inclusiveCandidateVertexFinderCvsL, process.inclusiveSecondaryVertices, process.inclusiveVertexFinder, process.initialStep, process.initialStepClassifier1, process.initialStepHitDoublets, process.initialStepHitDoubletsPreSplitting, process.initialStepHitQuadruplets, process.initialStepHitQuadrupletsPreSplitting, process.initialStepSeedClusterMask, process.initialStepSeedLayers, process.initialStepSeedLayersPreSplitting, process.initialStepSeeds, process.initialStepSeedsPreSplitting, process.initialStepTrackCandidates, process.initialStepTrackCandidatesPreSplitting, process.initialStepTrackRefsForJets, process.initialStepTrackRefsForJetsPreSplitting, process.initialStepTrackingRegions, process.initialStepTrackingRegionsPreSplitting, process.initialStepTracks, process.initialStepTracksPreSplitting, process.interestingEcalDetIdEB, process.interestingEcalDetIdEBU, process.interestingEcalDetIdEE, process.interestingEcalDetIdPFEB, process.interestingEcalDetIdPFEE, process.interestingEcalDetIdPFES, process.interestingEcalDetIdRefinedEB, process.interestingEcalDetIdRefinedEE, process.interestingEcalDetIdRefinedES, process.interestingGamIsoDetIdEB, process.interestingGamIsoDetIdEE, process.interestingGedEgammaIsoESDetId, process.interestingGedEgammaIsoHCALDetId, process.interestingGedEleIsoDetIdEB, process.interestingGedEleIsoDetIdEE, process.interestingGedGamIsoDetIdEB, process.interestingGedGamIsoDetIdEE, process.interestingTrackEcalDetIds, process.jetCoreRegionalStep, process.jetCoreRegionalStepHitDoublets, process.jetCoreRegionalStepSeedLayers, process.jetCoreRegionalStepSeeds, process.jetCoreRegionalStepTrackCandidates, process.jetCoreRegionalStepTrackingRegions, process.jetCoreRegionalStepTracks, process.jetsForCoreTracking, process.jetsForCoreTrackingPreSplitting, process.kt4PFJetsForRho, process.lowPtQuadStep, process.lowPtQuadStepClusters, process.lowPtQuadStepHitDoublets, process.lowPtQuadStepHitQuadruplets, process.lowPtQuadStepSeedLayers, process.lowPtQuadStepSeeds, process.lowPtQuadStepTrackCandidates, process.lowPtQuadStepTrackingRegions, process.lowPtQuadStepTracks, process.lowPtTripletStep, process.lowPtTripletStepClusters, process.lowPtTripletStepHitDoublets, process.lowPtTripletStepHitTriplets, process.lowPtTripletStepSeedLayers, process.lowPtTripletStepSeeds, process.lowPtTripletStepTrackCandidates, process.lowPtTripletStepTrackingRegions, process.lowPtTripletStepTracks, process.mergedDuplicateDisplacedTracks, process.mergedDuplicateTracks, process.mixedTripletStep, process.mixedTripletStepClassifier1, process.mixedTripletStepClassifier2, process.mixedTripletStepClusters, process.mixedTripletStepHitDoubletsA, process.mixedTripletStepHitDoubletsB, process.mixedTripletStepHitTripletsA, process.mixedTripletStepHitTripletsB, process.mixedTripletStepSeedClusterMask, process.mixedTripletStepSeedLayersA, process.mixedTripletStepSeedLayersB, process.mixedTripletStepSeeds, process.mixedTripletStepSeedsA, process.mixedTripletStepSeedsB, process.mixedTripletStepTrackCandidates, process.mixedTripletStepTrackingRegionsA, process.mixedTripletStepTrackingRegionsB, process.mixedTripletStepTracks, process.muIsoDepositCalByAssociatorTowers, process.muIsoDepositJets, process.muIsoDepositTk, process.muPFIsoDepositCharged, process.muPFIsoDepositChargedAll, process.muPFIsoDepositGamma, process.muPFIsoDepositNeutral, process.muPFIsoDepositPU, process.muPFIsoValueCharged03, process.muPFIsoValueCharged04, process.muPFIsoValueChargedAll03, process.muPFIsoValueChargedAll04, process.muPFIsoValueGamma03, process.muPFIsoValueGamma04, process.muPFIsoValueGammaHighThreshold03, process.muPFIsoValueGammaHighThreshold04, process.muPFIsoValueNeutral03, process.muPFIsoValueNeutral04, process.muPFIsoValueNeutralHighThreshold03, process.muPFIsoValueNeutralHighThreshold04, process.muPFIsoValuePU03, process.muPFIsoValuePU04, process.muPFMeanDRIsoValueCharged03, process.muPFMeanDRIsoValueCharged04, process.muPFMeanDRIsoValueChargedAll03, process.muPFMeanDRIsoValueChargedAll04, process.muPFMeanDRIsoValueGamma03, process.muPFMeanDRIsoValueGamma04, process.muPFMeanDRIsoValueGammaHighThreshold03, process.muPFMeanDRIsoValueGammaHighThreshold04, process.muPFMeanDRIsoValueNeutral03, process.muPFMeanDRIsoValueNeutral04, process.muPFMeanDRIsoValueNeutralHighThreshold03, process.muPFMeanDRIsoValueNeutralHighThreshold04, process.muPFMeanDRIsoValuePU03, process.muPFMeanDRIsoValuePU04, process.muPFSumDRIsoValueCharged03, process.muPFSumDRIsoValueCharged04, process.muPFSumDRIsoValueChargedAll03, process.muPFSumDRIsoValueChargedAll04, process.muPFSumDRIsoValueGamma03, process.muPFSumDRIsoValueGamma04, process.muPFSumDRIsoValueGammaHighThreshold03, process.muPFSumDRIsoValueGammaHighThreshold04, process.muPFSumDRIsoValueNeutral03, process.muPFSumDRIsoValueNeutral04, process.muPFSumDRIsoValueNeutralHighThreshold03, process.muPFSumDRIsoValueNeutralHighThreshold04, process.muPFSumDRIsoValuePU03, process.muPFSumDRIsoValuePU04, process.muidAllArbitrated, process.muidGMStaChiCompatibility, process.muidGMTkChiCompatibility, process.muidGMTkKinkTight, process.muidGlobalMuonPromptTight, process.muidRPCMuLoose, process.muidTM2DCompatibilityLoose, process.muidTM2DCompatibilityTight, process.muidTMLastStationAngLoose, process.muidTMLastStationAngTight, process.muidTMLastStationLoose, process.muidTMLastStationOptimizedLowPtLoose, process.muidTMLastStationOptimizedLowPtTight, process.muidTMLastStationTight, process.muidTMOneStationAngLoose, process.muidTMOneStationAngTight, process.muidTMOneStationLoose, process.muidTMOneStationTight, process.muidTrackerMuonArbitrated, process.multi5x5BasicClustersCleaned, process.multi5x5BasicClustersUncleaned, process.multi5x5PreshowerClusterShape, process.multi5x5SuperClusters, process.multi5x5SuperClustersCleaned, process.multi5x5SuperClustersUncleaned, process.multi5x5SuperClustersWithPreshower, process.muonEcalDetIds, process.muonSeededSeedsInOut, process.muonSeededSeedsOutIn, process.muonSeededSeedsOutInDisplaced, process.muonSeededTrackCandidatesInOut, process.muonSeededTrackCandidatesOutIn, process.muonSeededTrackCandidatesOutInDisplaced, process.muonSeededTracksInOut, process.muonSeededTracksInOutClassifier, process.muonSeededTracksOutIn, process.muonSeededTracksOutInClassifier, process.muonSeededTracksOutInDisplaced, process.muonSeededTracksOutInDisplacedClassifier, process.muonShowerInformation, process.muons, process.muons1stStep, process.muonsFromCosmics, process.muonsFromCosmics1Leg, process.newCombinedSeeds, process.offlinePrimaryVertices, process.offlinePrimaryVerticesWithBS, process.ootPhotonEcalPFClusterIsolationProducer, process.ootPhotonHcalPFClusterIsolationProducer, process.outInConversionTrackProducer, process.particleFlowBadHcalPseudoCluster, process.particleFlowClusterECAL, process.particleFlowClusterECALUncorrected, process.particleFlowClusterHBHE, process.particleFlowClusterHCAL, process.particleFlowClusterHF, process.particleFlowClusterHO, process.particleFlowClusterPS, process.particleFlowDisplacedVertex, process.particleFlowDisplacedVertexCandidate, process.particleFlowRecHitECAL, process.particleFlowRecHitHBHE, process.particleFlowRecHitHF, process.particleFlowRecHitHO, process.particleFlowRecHitPS, process.pfAllChargedHadrons, process.pfAllChargedParticles, process.pfAllNeutralHadrons, process.pfAllNeutralHadronsAndPhotons, process.pfAllPhotons, process.pfChargeBJetTags, process.pfCombinedCvsBJetTags, process.pfCombinedCvsLJetTags, process.pfCombinedInclusiveSecondaryVertexV2BJetTags, process.pfCombinedMVAV2BJetTags, process.pfCombinedSecondaryVertexV2BJetTags, process.pfConversions, process.pfDeepCMVAJetTags, process.pfDeepCMVATagInfos, process.pfDeepCSVJetTags, process.pfDeepCSVTagInfos, process.pfDisplacedTrackerVertex, process.pfGhostTrackBJetTags, process.pfGhostTrackVertexTagInfos, process.pfImpactParameterTagInfos, process.pfInclusiveSecondaryVertexFinderCvsLTagInfos, process.pfInclusiveSecondaryVertexFinderTagInfos, process.pfJetBProbabilityBJetTags, process.pfJetProbabilityBJetTags, process.pfNoPileUp, process.pfNoPileUpCandidates, process.pfNoPileUpIso, process.pfNoPileUpJMEHI, process.pfPileUp, process.pfPileUpAllChargedParticles, process.pfPileUpIso, process.pfSecondaryVertexTagInfos, process.pfSimpleInclusiveSecondaryVertexHighEffBJetTags, process.pfSimpleSecondaryVertexHighEffBJetTags, process.pfTrack, process.pfTrackCountingHighEffBJetTags, process.pfTrackElec, process.pfV0, process.photonConvTrajSeedFromSingleLeg, process.photonEcalPFClusterIsolationProducer, process.photonHcalPFClusterIsolationProducer, process.pixelLessStep, process.pixelLessStepClassifier1, process.pixelLessStepClassifier2, process.pixelLessStepClusters, process.pixelLessStepHitDoublets, process.pixelLessStepHitTriplets, process.pixelLessStepSeedClusterMask, process.pixelLessStepSeedLayers, process.pixelLessStepSeeds, process.pixelLessStepTrackCandidates, process.pixelLessStepTrackingRegions, process.pixelLessStepTracks, process.pixelPairElectronHitDoublets, process.pixelPairElectronSeedLayers, process.pixelPairElectronSeeds, process.pixelPairElectronTrackingRegions, process.pixelPairStep, process.pixelPairStepClusters, process.pixelPairStepHitDoubletsB, process.pixelPairStepSeedLayers, process.pixelPairStepSeeds, process.pixelPairStepTrackCandidates, process.pixelPairStepTrackingRegions, process.pixelPairStepTrackingRegionsSeedLayersB, process.pixelPairStepTracks, process.preDuplicateMergingDisplacedTracks, process.preDuplicateMergingGeneralTracks, process.reducedEcalRecHitsEB, process.reducedEcalRecHitsEE, process.reducedEcalRecHitsES, process.refittedStandAloneMuons, process.selectDigi, process.siPixelClusterShapeCache, process.siPixelClusters, process.siPixelRecHits, process.softPFElectronBJetTags, process.softPFElectronsTagInfos, process.softPFMuonBJetTags, process.softPFMuonsTagInfos, process.standAloneMuons, process.stripPairElectronHitDoublets, process.stripPairElectronSeedLayers, process.stripPairElectronSeeds, process.stripPairElectronTrackingRegions, process.tevMuons, process.tobTecStep, process.tobTecStepClassifier1, process.tobTecStepClassifier2, process.tobTecStepClusters, process.tobTecStepHitDoubletsPair, process.tobTecStepHitDoubletsTripl, process.tobTecStepHitTripletsTripl, process.tobTecStepSeedLayersPair, process.tobTecStepSeedLayersTripl, process.tobTecStepSeeds, process.tobTecStepSeedsPair, process.tobTecStepSeedsTripl, process.tobTecStepTrackCandidates, process.tobTecStepTrackingRegionsPair, process.tobTecStepTrackingRegionsTripl, process.tobTecStepTracks, process.towerMaker, process.towerMakerWithHO, process.trackRefsForJetsBeforeSorting, process.trackVertexArbitrator, process.trackWithVertexRefSelectorBeforeSorting, process.trackerClusterCheck, process.trackerClusterCheckPreSplitting, process.tripletElectronClusterMask, process.tripletElectronHitDoublets, process.tripletElectronHitTriplets, process.tripletElectronSeedLayers, process.tripletElectronSeeds, process.tripletElectronTrackingRegions, process.uncleanedHybridSuperClusters, process.uncleanedOnlyAllConversions, process.uncleanedOnlyCkfInOutTracksFromConversions, process.uncleanedOnlyCkfOutInTracksFromConversions, process.uncleanedOnlyConversionTrackCandidates, process.uncleanedOnlyCorrectedHybridSuperClusters, process.uncleanedOnlyCorrectedMulti5x5SuperClustersWithPreshower, process.uncleanedOnlyElectronCkfTrackCandidates, process.uncleanedOnlyElectronGsfTracks, process.uncleanedOnlyElectronSeeds, process.uncleanedOnlyGeneralConversionTrackProducer, process.uncleanedOnlyGeneralInOutOutInConversionTrackMerger, process.uncleanedOnlyGsfConversionTrackProducer, process.uncleanedOnlyGsfElectronCores, process.uncleanedOnlyGsfElectrons, process.uncleanedOnlyGsfGeneralInOutOutInConversionTrackMerger, process.uncleanedOnlyInOutConversionTrackProducer, process.uncleanedOnlyInOutOutInConversionTrackMerger, process.uncleanedOnlyMulti5x5SuperClustersWithPreshower, process.uncleanedOnlyOutInConversionTrackProducer, process.uncleanedOnlyPfConversions, process.uncleanedOnlyPfTrack, process.uncleanedOnlyPfTrackElec, process.unsortedOfflinePrimaryVertices, process.vertexMerger]), cms.Task(process.MeasurementTrackerEventPreSplitting, process.PhotonIDProd, process.PhotonIDProdGED, process.ak4CaloJets, process.ak4JetID, process.akPu4CaloJets, process.allConversions, process.bunchSpacingProducer, process.caloMet, process.caloMetBE, process.caloMetBEFO, process.caloMetM, process.caloTowers, process.castorreco, process.chargedHadronPFTrackIsolation, process.clusterSummaryProducer, process.conversions, process.correctedIslandBarrelSuperClusters, process.correctedIslandEndcapSuperClusters, process.csc2DRecHits, process.cscSegments, process.ctppsDiamondLocalTracks, process.ctppsDiamondRecHits, process.ctppsLocalTrackLiteProducer, process.ctppsPixelClusters, process.ctppsPixelLocalTracks, process.ctppsPixelRecHits, process.dt1DCosmicRecHits, process.dt1DRecHits, process.dt4DCosmicSegments, process.dt4DSegments, process.ecalCompactTrigPrim, process.ecalDetIdToBeRecovered, process.ecalMultiFitUncalibRecHit, process.ecalPreshowerRecHit, process.ecalRecHit, process.ecalTPSkim, process.egmElectronIsolationCITK, process.egmElectronIsolationPileUpCITK, process.egmPhotonIsolationCITK, process.electronsWithPresel, process.fixedGridRhoFastjetAllCalo, process.fixedGridRhoFastjetAllTmp, process.fixedGridRhoFastjetCentralCalo, process.gedGsfElectronCores, process.gedGsfElectronsTmp, process.gedPhotonCore, process.gedPhotons, process.gedPhotonsTmp, process.gemRecHits, process.gemSegments, process.hbheprereco, process.hbhereco, process.hcalnoise, process.hfprereco, process.hfreco, process.hiCentrality, process.hiClusterCompatibility, process.hiConformalPixelTracks, process.hiConformalPixelTracksPhase1Filter, process.hiConformalPixelTracksPhase1HitDoubletsCA, process.hiConformalPixelTracksPhase1HitQuadrupletsCA, process.hiConformalPixelTracksPhase1SeedLayers, process.hiConformalPixelTracksPhase1TrackingRegions, process.horeco, process.islandBasicClusters, process.islandPhotonCore, process.islandPhotons, process.islandSuperClusters, process.logErrorHarvester, process.muonMETValueMapProducer, process.mvaElectrons, process.offlineBeamSpot, process.particleBasedIsolation, process.particleBasedIsolationTmp, process.particleFlow, process.particleFlowBlock, process.particleFlowEGamma, process.particleFlowForChargedMET, process.particleFlowPtrs, process.particleFlowSuperClusterECAL, process.particleFlowTmp, process.particleFlowTmpPtrs, process.pfChMet, process.pfMet, process.pfNoPileUpCandidates, process.pfPileUpAllChargedParticles, process.photonCore, process.photonIsolationHIProducerpp, process.photonIsolationHIProducerppGED, process.photonIsolationHIProducerppIsland, process.photons, process.pixelFitterByConformalMappingAndLine, process.reducedHcalRecHits, process.rpcNewRecHits, process.rpcRecHits, process.siPixelClusterShapeCachePreSplitting, process.siPixelClustersPreSplitting, process.siPixelRecHitsPreSplitting, process.siStripClusters, process.siStripMatchedRecHits, process.siStripZeroSuppression, process.totemRPClusterProducer, process.totemRPLocalTrackFitter, process.totemRPRecHitProducer, process.totemRPUVPatternFinder, process.totemTimingRecHits, process.trackExtrapolator, process.zdcreco)) process.L1Reco_step = cms.Path(cms.Task(process.l1extraParticles)) process.AODoutput_step = cms.EndPath(process.AODoutput) process.endjob_step = cms.EndPath(cms.Task(process.MEtoEDMConverter)) process.schedule = cms.Schedule(*[ process.raw2digi_step, process.L1Reco_step, process.reconstruction_step, process.endjob_step, process.AODoutput_step ], tasks=[process.patAlgosToolsTask])

[ "dhanga2@uic.edu" ]

dhanga2@uic.edu

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/study/정올/Language_Coder/j_504_자가진단4.py

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[]

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Anseik/algorithm

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2023-02-26T00:02:01.696624

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line1 = '(@) (@)' line2 = '(=^.^=)' line3 = '(-m-m-)' print(line1, line2, line3, sep='\n')

[ "kma9271@naver.com" ]

kma9271@naver.com

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/bin/easy_install

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ShunnoSaiful/JobPortal

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#!/home/slash/Desktop/SocialBook/bin/python3 # -*- coding: utf-8 -*- import re import sys from setuptools.command.easy_install import main if __name__ == '__main__': sys.argv[0] = re.sub(r'(-script\.pyw?|\.exe)?$', '', sys.argv[0]) sys.exit(main())

[ "sunnosaiful@gmail.com" ]

sunnosaiful@gmail.com

15754d5a381476e2b135a910dfd8de885c100c93

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/src/MDS-PerformanceOfMetrics.py

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[]

no_license

ylmzkaan/MVE440-HW4

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46d7000f55f21d79a296ee1d6d0b430ccb985362

refs/heads/master

2022-07-09T20:48:24.200104

2019-05-30T16:22:32

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Jupyter Notebook

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import numpy as np import os from gap_statistic import OptimalK from matplotlib import pyplot as plt from sklearn.manifold import MDS from sklearn.neighbors import DistanceMetric from DataGenerator import generateOneClusterData from Settings import (DEFAULT_FEATURE_MEAN_RANGE, DEFAULT_NUMBER_OF_FEATURES, DEFAULT_NUMBER_OF_RECORDS_PER_CLASS, DEFAULT_RANDOM_NUMBER_SEED) metrics = ("euclidean", "manhattan", "chebyshev", "minkowski") nMetrics = len(metrics) meanStress = np.empty((nMetrics,)) stdStress = np.empty((nMetrics,)) meanClusterCount = np.empty((nMetrics,)) stdClusterCount = np.empty((nMetrics,)) nDifferentDataSet = 20 stress = np.empty((nDifferentDataSet,4)) for j, metric in enumerate(metrics): clusterCounts = np.empty((nDifferentDataSet,)) dist = DistanceMetric.get_metric(metric) print("MDS Metric: {}".format(metric)) for i in range(nDifferentDataSet): data = generateOneClusterData(DEFAULT_NUMBER_OF_FEATURES, DEFAULT_NUMBER_OF_RECORDS_PER_CLASS, DEFAULT_FEATURE_MEAN_RANGE, i, distribution="normal") precomputedMetricData = dist.pairwise(data) mds = MDS(n_components=8, n_jobs=-1, dissimilarity="precomputed") mdsData = mds.fit_transform(precomputedMetricData) optimalK = OptimalK(parallel_backend='joblib', n_jobs=-1) clusterCount = optimalK(mdsData, n_refs=3, cluster_array=np.arange(1, 10)) clusterCounts[i] = clusterCount stress[i,j] = mds.stress_ meanClusterCount[j] = np.mean(clusterCounts) stdClusterCount[j] = np.std(clusterCounts) meanStress[j] = np.mean(stress[:,j]) stdStress[j] = np.std(stress[:,j]) saveDir = os.path.join("data", "MDS-stressPerMetric.npy") np.save(saveDir, stress) plt.subplot(1,2,1) plt.tight_layout() plt.title("Metrics VS Cluster Counts") plt.xlabel("Metric") plt.ylabel("Cluster Counts") plt.errorbar(metrics, meanClusterCount, yerr=stdClusterCount, capthick=2, capsize=10, linewidth=3) plt.subplot(1,2,2) plt.title("Metrics VS Cluster Counts") plt.xlabel("Metric") plt.ylabel("Stress") plt.errorbar(metrics, meanStress, yerr=stdStress, capthick=2, capsize=10, linewidth=3) plt.show()

[ "kaan-yilmaz@outlook.com.tr" ]

kaan-yilmaz@outlook.com.tr

1fa634ea7182b12e6ce9021f8050dcc3492d90b5

fe3ecb9b1ddd8de17b8cc93209134f86cd9c4a6f

/4_Python_ML/chap06_Regression/lecture/step01_regression.py

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[]

no_license

nsh92/Bigdata-and-Machine-Learning-Education-at-ITWILL

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refs/heads/master

2022-11-21T23:10:51.421708

2020-07-23T12:49:11

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py

# -*- coding: utf-8 -*- """ 회귀방정식에서 기울기와 절편 식 기울기 = Cov(x,y) / Sxx(x의 편차 제곱의 평균) 절편 = y_mu - (기울기 * x_mu) """ from scipy import stats # 회귀모델 import pandas as pd galton = pd.read_csv('C:/ITWILL/4_Python-II/data/galton.csv') galton.info() ''' <class 'pandas.core.frame.DataFrame'> RangeIndex: 928 entries, 0 to 927 Data columns (total 2 columns): # Column Non-Null Count Dtype --- ------ -------------- ----- 0 child 928 non-null float64 1 parent 928 non-null float64 ''' # 부모의 키X가 자녀의 키Y에 미치는 영향 x = galton['parent'] y = galton['child'] model = stats.linregress(x, y) # slope=0.6462905819936423, intercept=23.941530180412748, # rvalue=0.4587623682928238, pvalue=1.7325092920142867e-49, stderr=0.04113588223793335 # rvalue : 부모의 키가 모든 것을 결정하지 않는구나 # Y = x*a + b y_pred = x*model.slope + model.intercept y_pred y_true = y # 예측치 vs 관측치(정답) y_pred.mean() y_true.mean() # 먼저 평균 비교 : 매우 유사 # 기울기 계산식 xu = x.mean() yu = y.mean() Cov_xy = sum((x-xu) * (y-yu)) / len(x) Sxx = np.mean((x-xu)**2) slope = Cov_xy / Sxx # 0.6462905819936413 # 절편 계산식 incept = yu - (slope * xu) # 23.94153018041171 # 설명력 rvalue galton.corr() # 0.458762 : 이게 걍 rvalue구만 y_pred = x * slope + incept y_pred.mean() # 68.08846982758423

[ "totols1092@gmail.com" ]

totols1092@gmail.com

e441c1876e506f4abbcc04d200cb18189987ceec

4ccff489fccbeb033a9f2dad46d8fdd88f19f77b

/zipline/data/treasuries_cn.py

2196b20a306a9d38ea1fa18a85fe9e9c86ce3b67

[ "Apache-2.0" ]

permissive

hebpmo/zipline

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396469b29e7e0daea4fe1e8a1c18f6c7eeb92780

refs/heads/master

2020-04-07T03:32:54.494193

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""" 国库券资金成本 """ import pandas as pd from cswd.sqldata.treasury import TreasuryData def earliest_possible_date(): """ The earliest date for which we can load data from this module. """ return pd.Timestamp('2006-3-1', tz = 'UTC') def get_treasury_data(start_date, end_date): """读取期间数据""" df = TreasuryData.read(start_date, end_date) df.index = pd.to_datetime(df.index, utc=True) return df

[ "liu.dengfeng@hotmail.com" ]

liu.dengfeng@hotmail.com

e9f257c5fcb395ace5094f1d7f8a4c7089a59c4d

fdfffa8cacb572a157ead4a9723f90b25ecfe50c

/modules/ducktests/tests/ignitetest/tests/self_test.py

5ebabde56c14a2f8f89d2c9ef23b989133e61a1a

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permissive

apache/ignite

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2023-08-31T21:31:04.618489

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2023-09-14T18:56:33

2015-02-19T08:00:05

Java

UTF-8

Python

false

11,141

py

# 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. """ This module contains smoke tests that checks that ducktape works as expected """ import os from ducktape.mark import matrix from ignitetest.services.ignite import IgniteService from ignitetest.services.ignite_app import IgniteApplicationService from ignitetest.services.ignite_execution_exception import IgniteExecutionException from ignitetest.services.utils.control_utility import ControlUtility from ignitetest.services.utils.ignite_configuration import DataStorageConfiguration, TransactionConfiguration, \ BinaryConfiguration, \ TcpCommunicationSpi from ignitetest.services.utils.ignite_configuration import IgniteConfiguration, IgniteClientConfiguration from ignitetest.services.utils.ignite_configuration.cache import CacheConfiguration from ignitetest.services.utils.ignite_configuration.data_storage import DataRegionConfiguration from ignitetest.services.utils.ignite_configuration.discovery import from_ignite_cluster from ignitetest.services.utils.ssl.client_connector_configuration import ClientConnectorConfiguration, \ ThinClientConfiguration from ignitetest.services.utils.ssl.connector_configuration import ConnectorConfiguration from ignitetest.utils import ignite_versions, cluster from ignitetest.utils.bean import Bean from ignitetest.utils.ignite_test import IgniteTest from ignitetest.utils.version import DEV_BRANCH, IgniteVersion class SelfTest(IgniteTest): """ Self test """ @cluster(num_nodes=1) @ignite_versions(str(DEV_BRANCH)) def test_assertion_convertion(self, ignite_version): """ Test to make sure Java assertions are converted to python exceptions """ server_configuration = IgniteConfiguration(version=IgniteVersion(ignite_version)) app = IgniteApplicationService( self.test_context, server_configuration, java_class_name="org.apache.ignite.internal.ducktest.tests.smoke_test.AssertionApplication") try: app.start() except IgniteExecutionException as ex: assert str(ex) == "Java application execution failed. java.lang.AssertionError" else: app.stop() assert False @cluster(num_nodes=4) @ignite_versions(str(DEV_BRANCH)) def test_simple_services_start_stop(self, ignite_version): """ Tests plain services start and stop (termitation vs self-terination). """ ignites = IgniteService(self.test_context, IgniteConfiguration(version=IgniteVersion(ignite_version)), num_nodes=1) ignites.start() client = IgniteService(self.test_context, IgniteClientConfiguration(version=IgniteVersion(ignite_version)), num_nodes=1) client.start() node1 = IgniteApplicationService( self.test_context, IgniteClientConfiguration(version=IgniteVersion(ignite_version), discovery_spi=from_ignite_cluster(ignites)), java_class_name="org.apache.ignite.internal.ducktest.tests.self_test.TestKillableApplication", startup_timeout_sec=180) node2 = IgniteApplicationService( self.test_context, IgniteClientConfiguration(version=IgniteVersion(ignite_version), discovery_spi=from_ignite_cluster(ignites)), java_class_name="org.apache.ignite.internal.ducktest.tests.self_test.TestSelfKillableApplication", startup_timeout_sec=180) node1.start() node2.run() node1.stop() client.stop() ignites.stop() @cluster(num_nodes=1) @ignite_versions(str(DEV_BRANCH)) def test_logs_rotation(self, ignite_version): """ Test logs rotation after ignite service restart. """ def get_log_lines_count(service, filename): node = service.nodes[0] log_file = os.path.join(service.log_dir, filename) log_cnt = list(node.account.ssh_capture(f'cat {log_file} | wc -l', callback=int))[0] return log_cnt def get_logs_count(service): node = service.nodes[0] return list(node.account.ssh_capture(f'ls {service.log_dir}/ignite.log* | wc -l', callback=int))[0] ignites = IgniteService(self.test_context, IgniteConfiguration(version=IgniteVersion(ignite_version)), num_nodes=1) ignites.start() num_restarts = 6 for i in range(num_restarts - 1): ignites.stop() old_cnt = get_log_lines_count(ignites, "ignite.log") assert old_cnt > 0 ignites.start(clean=False) new_cnt = get_log_lines_count(ignites, "ignite.log") assert new_cnt > 0 # check that there is no new entry in rotated file assert old_cnt == get_log_lines_count(ignites, f"ignite.log.{i + 1}") assert get_logs_count(ignites) == num_restarts @cluster(num_nodes=1) @ignite_versions(str(DEV_BRANCH)) @matrix(is_ignite_service=[True, False]) def test_config_add_to_result(self, ignite_version, is_ignite_service): """ Test that the config file is in config directory and Service.logs contains the config directory to add to the result. """ ignite_cfg = IgniteConfiguration(version=IgniteVersion(ignite_version)) if is_ignite_service: ignite = IgniteService(self.test_context, ignite_cfg, num_nodes=1) else: ignite = IgniteApplicationService( self.test_context, ignite_cfg, java_class_name="org.apache.ignite.internal.ducktest.tests.self_test.TestKillableApplication") ignite.start() assert ignite.logs.get('config').get('path') == ignite.config_dir assert ignite.config_file.startswith(ignite.config_dir) ignite.nodes[0].account.ssh(f'ls {ignite.config_dir} | grep {os.path.basename(ignite.config_file)}') ignite.nodes[0].account.ssh(f'ls {ignite.config_dir} | grep {os.path.basename(ignite.log_config_file)}') ignite.stop() @cluster(num_nodes=1) @ignite_versions(str(DEV_BRANCH)) def test_server_config_options(self, ignite_version): """ Test to make sure non-default non-trivial ignite node configuration XML file is generated correctly. """ ignite = IgniteService(self.test_context, get_server_config(ignite_version), 1, jvm_opts="-DCELL=1") ignite.start() control_utility = ControlUtility(ignite) control_utility.activate() ignite.stop() def get_server_config(ignite_version): affinity = Bean("org.apache.ignite.cache.affinity.rendezvous.RendezvousAffinityFunction", partitions=16384, affinityBackupFilter=Bean( "org.apache.ignite.cache.affinity.rendezvous.ClusterNodeAttributeColocatedBackupFilter", constructor_args=["CELL"])) cache_templates = [ CacheConfiguration(name="PARTITIONED*", cache_mode="PARTITIONED", atomicity_mode="TRANSACTIONAL", statistics_enabled=True, affinity=affinity), CacheConfiguration(name="AffinityTemplate*", cache_mode="PARTITIONED", atomicity_mode="TRANSACTIONAL", statistics_enabled=True, affinity=affinity, affinity_mapper=Bean( "org.apache.ignite.internal.ducktest.tests.self_test.TestAffinityMapper")), ] return IgniteConfiguration(version=IgniteVersion(ignite_version), data_storage=DataStorageConfiguration( checkpoint_frequency=10000, wal_history_size=2147483647, wal_segment_size=1024 * 1024 * 1024, wal_mode="LOG_ONLY", metrics_enabled=True, metrics_rate_time_interval=60000, wal_buffer_size=5242880, wal_compaction_enabled=True, default=DataRegionConfiguration( persistence_enabled=True, max_size=1024 * 1024 * 1024, metrics_enabled=True, metrics_rate_time_interval=1000 )), client_connector_configuration=ClientConnectorConfiguration( thread_pool_size=10, thin_client_configuration=ThinClientConfiguration( max_active_compute_tasks_per_connection=100)), transaction_configuration=TransactionConfiguration( default_tx_timeout=300000, default_tx_isolation="READ_COMMITTED", tx_timeout_on_partition_map_exchange=120000), sql_schemas=["schema1", "schema2"], caches=cache_templates, metrics_log_frequency=30000, failure_detection_timeout=120000, rebalance_thread_pool_size=8, peer_class_loading_enabled=True, auto_activation_enabled=False, binary_configuration=BinaryConfiguration(compact_footer=True), communication_spi=TcpCommunicationSpi( idle_connection_timeout=600000, socket_write_timeout=30000, selectors_count=18, connections_per_node=4, use_paired_connections=True, message_queue_limit=0), connector_configuration=ConnectorConfiguration(idle_timeout=180000) )

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include_rules = [ "+components/metrics", "+third_party/crashpad/crashpad", ]

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""" Testing for export functions of decision trees (sklearn.tree.export). """ import unittest from re import finditer from numpy.testing import assert_equal from nose.tools import assert_raises from uplift.tree import DecisionTreeClassifier, DecisionTreeRegressor from uplift.ensemble import GradientBoostingClassifier from uplift.tree import export_graphviz from uplift.externals.six import StringIO from uplift.utils.testing import assert_in # toy sample X = [[-2, -1], [-1, -1], [-1, -2], [1, 1], [1, 2], [2, 1]] y = [-1, -1, -1, 1, 1, 1] y2 = [[-1, 1], [-1, 1], [-1, 1], [1, 2], [1, 2], [1, 3]] w = [1, 1, 1, .5, .5, .5] y_degraded = [1, 1, 1, 1, 1, 1] def test_graphviz_toy(): # Check correctness of export_graphviz clf = DecisionTreeClassifier(max_depth=3, min_samples_split=2, criterion="gini", random_state=2) clf.fit(X, y) # Test export code out = StringIO() export_graphviz(clf, out_file=out) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box] ;\n' \ '0 [label="X[0] <= 0.0\\ngini = 0.5\\nsamples = 6\\n' \ 'value = [3, 3]"] ;\n' \ '1 [label="gini = 0.0\\nsamples = 3\\nvalue = [3, 0]"] ;\n' \ '0 -> 1 [labeldistance=2.5, labelangle=45, ' \ 'headlabel="True"] ;\n' \ '2 [label="gini = 0.0\\nsamples = 3\\nvalue = [0, 3]"] ;\n' \ '0 -> 2 [labeldistance=2.5, labelangle=-45, ' \ 'headlabel="False"] ;\n' \ '}' assert_equal(contents1, contents2) # Test with feature_names out = StringIO() export_graphviz(clf, out_file=out, feature_names=["feature0", "feature1"]) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box] ;\n' \ '0 [label="feature0 <= 0.0\\ngini = 0.5\\nsamples = 6\\n' \ 'value = [3, 3]"] ;\n' \ '1 [label="gini = 0.0\\nsamples = 3\\nvalue = [3, 0]"] ;\n' \ '0 -> 1 [labeldistance=2.5, labelangle=45, ' \ 'headlabel="True"] ;\n' \ '2 [label="gini = 0.0\\nsamples = 3\\nvalue = [0, 3]"] ;\n' \ '0 -> 2 [labeldistance=2.5, labelangle=-45, ' \ 'headlabel="False"] ;\n' \ '}' assert_equal(contents1, contents2) # Test with class_names out = StringIO() export_graphviz(clf, out_file=out, class_names=["yes", "no"]) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box] ;\n' \ '0 [label="X[0] <= 0.0\\ngini = 0.5\\nsamples = 6\\n' \ 'value = [3, 3]\\nclass = yes"] ;\n' \ '1 [label="gini = 0.0\\nsamples = 3\\nvalue = [3, 0]\\n' \ 'class = yes"] ;\n' \ '0 -> 1 [labeldistance=2.5, labelangle=45, ' \ 'headlabel="True"] ;\n' \ '2 [label="gini = 0.0\\nsamples = 3\\nvalue = [0, 3]\\n' \ 'class = no"] ;\n' \ '0 -> 2 [labeldistance=2.5, labelangle=-45, ' \ 'headlabel="False"] ;\n' \ '}' assert_equal(contents1, contents2) # Test plot_options out = StringIO() export_graphviz(clf, out_file=out, filled=True, impurity=False, proportion=True, special_characters=True, rounded=True) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box, style="filled, rounded", color="black", ' \ 'fontname=helvetica] ;\n' \ 'edge [fontname=helvetica] ;\n' \ '0 [label=<X<SUB>0</SUB> ≤ 0.0<br/>samples = 100.0%<br/>' \ 'value = [0.5, 0.5]>, fillcolor="#e5813900"] ;\n' \ '1 [label=<samples = 50.0%<br/>value = [1.0, 0.0]>, ' \ 'fillcolor="#e58139ff"] ;\n' \ '0 -> 1 [labeldistance=2.5, labelangle=45, ' \ 'headlabel="True"] ;\n' \ '2 [label=<samples = 50.0%<br/>value = [0.0, 1.0]>, ' \ 'fillcolor="#399de5ff"] ;\n' \ '0 -> 2 [labeldistance=2.5, labelangle=-45, ' \ 'headlabel="False"] ;\n' \ '}' assert_equal(contents1, contents2) # Test max_depth out = StringIO() export_graphviz(clf, out_file=out, max_depth=0, class_names=True) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box] ;\n' \ '0 [label="X[0] <= 0.0\\ngini = 0.5\\nsamples = 6\\n' \ 'value = [3, 3]\\nclass = y[0]"] ;\n' \ '1 [label="(...)"] ;\n' \ '0 -> 1 ;\n' \ '2 [label="(...)"] ;\n' \ '0 -> 2 ;\n' \ '}' assert_equal(contents1, contents2) # Test max_depth with plot_options out = StringIO() export_graphviz(clf, out_file=out, max_depth=0, filled=True, node_ids=True) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box, style="filled", color="black"] ;\n' \ '0 [label="node #0\\nX[0] <= 0.0\\ngini = 0.5\\n' \ 'samples = 6\\nvalue = [3, 3]", fillcolor="#e5813900"] ;\n' \ '1 [label="(...)", fillcolor="#C0C0C0"] ;\n' \ '0 -> 1 ;\n' \ '2 [label="(...)", fillcolor="#C0C0C0"] ;\n' \ '0 -> 2 ;\n' \ '}' assert_equal(contents1, contents2) # Test multi-output with weighted samples clf = DecisionTreeClassifier(max_depth=2, min_samples_split=2, criterion="gini", random_state=2) clf = clf.fit(X, y2, sample_weight=w) out = StringIO() export_graphviz(clf, out_file=out, filled=True, impurity=False) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box, style="filled", color="black"] ;\n' \ '0 [label="X[0] <= 0.0\\nsamples = 6\\n' \ 'value = [[3.0, 1.5, 0.0]\\n' \ '[3.0, 1.0, 0.5]]", fillcolor="#e5813900"] ;\n' \ '1 [label="samples = 3\\nvalue = [[3, 0, 0]\\n' \ '[3, 0, 0]]", fillcolor="#e58139ff"] ;\n' \ '0 -> 1 [labeldistance=2.5, labelangle=45, ' \ 'headlabel="True"] ;\n' \ '2 [label="X[0] <= 1.5\\nsamples = 3\\n' \ 'value = [[0.0, 1.5, 0.0]\\n' \ '[0.0, 1.0, 0.5]]", fillcolor="#e5813986"] ;\n' \ '0 -> 2 [labeldistance=2.5, labelangle=-45, ' \ 'headlabel="False"] ;\n' \ '3 [label="samples = 2\\nvalue = [[0, 1, 0]\\n' \ '[0, 1, 0]]", fillcolor="#e58139ff"] ;\n' \ '2 -> 3 ;\n' \ '4 [label="samples = 1\\nvalue = [[0.0, 0.5, 0.0]\\n' \ '[0.0, 0.0, 0.5]]", fillcolor="#e58139ff"] ;\n' \ '2 -> 4 ;\n' \ '}' assert_equal(contents1, contents2) # Test regression output with plot_options clf = DecisionTreeRegressor(max_depth=3, min_samples_split=2, criterion="mse", random_state=2) clf.fit(X, y) out = StringIO() export_graphviz(clf, out_file=out, filled=True, leaves_parallel=True, rotate=True, rounded=True) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box, style="filled, rounded", color="black", ' \ 'fontname=helvetica] ;\n' \ 'graph [ranksep=equally, splines=polyline] ;\n' \ 'edge [fontname=helvetica] ;\n' \ 'rankdir=LR ;\n' \ '0 [label="X[0] <= 0.0\\nmse = 1.0\\nsamples = 6\\n' \ 'value = 0.0", fillcolor="#e5813980"] ;\n' \ '1 [label="mse = 0.0\\nsamples = 3\\nvalue = -1.0", ' \ 'fillcolor="#e5813900"] ;\n' \ '0 -> 1 [labeldistance=2.5, labelangle=-45, ' \ 'headlabel="True"] ;\n' \ '2 [label="mse = 0.0\\nsamples = 3\\nvalue = 1.0", ' \ 'fillcolor="#e58139ff"] ;\n' \ '0 -> 2 [labeldistance=2.5, labelangle=45, ' \ 'headlabel="False"] ;\n' \ '{rank=same ; 0} ;\n' \ '{rank=same ; 1; 2} ;\n' \ '}' assert_equal(contents1, contents2) @unittest.skip("breaks for no good reason.") def test_toy_graphviz_degraded(): clf = DecisionTreeClassifier(max_depth=3) clf.fit(X, y_degraded) out = StringIO() export_graphviz(clf, out_file=out, filled=True) contents1 = out.getvalue() contents2 = 'digraph Tree {\n' \ 'node [shape=box, style="filled", color="black"] ;\n' \ '0 [label="gini = 0.0\\nsamples = 6\\nvalue = 6.0", fillcolor="#e5813900"] ;\n' \ '}' assert_equal(contents1, contents2) def test_graphviz_errors(): # Check for errors of export_graphviz clf = DecisionTreeClassifier(max_depth=3, min_samples_split=2) clf.fit(X, y) # Check feature_names error out = StringIO() assert_raises(IndexError, export_graphviz, clf, out, feature_names=[]) # Check class_names error out = StringIO() assert_raises(IndexError, export_graphviz, clf, out, class_names=[]) def test_friedman_mse_in_graphviz(): clf = DecisionTreeRegressor(criterion="friedman_mse", random_state=0) clf.fit(X, y) dot_data = StringIO() export_graphviz(clf, out_file=dot_data) clf = GradientBoostingClassifier(n_estimators=2, random_state=0) clf.fit(X, y) for estimator in clf.estimators_: export_graphviz(estimator[0], out_file=dot_data) for finding in finditer("\[.*?samples.*?\]", dot_data.getvalue()): assert_in("friedman_mse", finding.group())

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""" Module that contains various functions, constants, and tools for interacting with a hypnoLSD object """ import sys, serial ############################################################################### # Constants ############################################################################### NATIVE_BAUD = 9600 MAX_BAUD = 12000000 COMMAND_MODE = 0 DRAW_MODE = 1 READLINE_TIMEOUT = 0.5 SYNC_BYTE = b'0xFE' ############################################################################### # Utility methods ############################################################################### def baud_from_divisor(divisor): """ Returns the baud rate, given a divisor. Parameters ---------- divisor : int baud rate divisor for the HypnoLSD. See HypnoLSD docs for more details """ return MAX_BAUD / (int(divisor)+1) def divisor_from_baud(baud) : """ Returns the divisor, given a baud rate. ints only please Parameters ---------- baud : int baud rate you'd like to operate at, and need the divisor for to set speed on the HypnoLSD """ return int(MAX_BAUD/int(baud))-1 ############################################################################### # HypnoLSD class ############################################################################### class HypnoLSD: """ Class meant to symbolize a single HypnoLSD module. Tracks the state of the module so that it may be used by different convenience interfaces, or used directly. By default, demo is turned off because it is useless when programming. """ def __init__(self, port, baudrate=NATIVE_BAUD): # Initialize internal variables self.mode = COMMAND_MODE # Initialize serial connection self.serial = serial.Serial(port=port, baudrate=NATIVE_BAUD, timeout=READLINE_TIMEOUT) self.serial.close() self.serial.open() # Turn off demo mode self.demo_off() # Update baud rate if necessary if baudrate != NATIVE_BAUD: self.change_baudrate(baudrate) def change_baudrate(self, baudrate): """ Change the baud rate used to speak to HypnoLSD """ if baudrate == self.serial.baudrate: return ["Baudrate already set to " + str(baudrate)] divisor = divisor_from_baud(baudrate) return self.change_divisor(divisor, baudrate) def change_divisor(self, divisor, baudrate=False): """ Change the baud rate divisor on the HypnoLSD """ if not baudrate: baudrate = baud_from_divisor(divisor) if baudrate == self.serial.baudrate: return ["Baudrate already set to " + str(baudrate)] # Send command response = self.send_command("set speed " + str(divisor)) self.serial.flush() # Flush command so we can read output with new baud rate self.serial.baudrate = baudrate return response def send_command(self, command, override=False, print_it=False): """ Send a command to HypnoLSD, only available in Command Mode Parameters ---------- command : string Command to send to HypnoLSD, with no return chars override : boolean (optional) Set true if you want to switch modes (if currently in draw mode) so you can send the command. resp : boolean (optional) Set true if you want to return the response (list of strings) """ # Check modes if self.mode == DRAW_MODE and not override: print "Currently in Draw Mode, cannot execute commands" return elif self.mode == DRAW_MODE and override: self.draw_mode() # Execute command self.serial.write(command+"\r\n") return self.get_response(print_it) def get_response(self, print_it=False, break_on_OK=True): """ Get one HypnoLSD response, a list of lines. Parameters ---------- print_it : boolean (optional) Print the output to stdout break_on_OK : boolean (optional) If set true, it will only print up to the last "OK". This can speed up program flow if you are retrieving responses for each command you send. When set to false, it will spit out everything available for it to spit out. """ response = [] has_serial = True while has_serial: # Keep reading lines from serial until you timeout from_serial = self.serial.readline() if not from_serial: has_serial = False else: response.append(from_serial.strip()) if print_it: sys.stdout.write(from_serial) if break_on_OK and from_serial == "OK\r\n": break if print_it: sys.stdout.flush() return response def command_mode(self): """ Put HypnoLSD in Command Mode """ self.serial.write(SYNC_BYTE+SYNC_BYTE) self.mode = COMMAND_MODE def draw_mode(self): """ Put HypnoLSD in Draw Mode """ if self.mode == DRAW_MODE: return self.send_command("draw") self.mode = DRAW_MODE def demo_off(self): """ Turn off demo mode. Useless when coding. """ self.send_command("demodelay 0") self.get_response(break_on_OK=False) # swallow response def close(self): """ Close connection to HypnoLSD """ self.change_baudrate(NATIVE_BAUD) self.serial.close() def flush(self): """ Flush inputs and outputs of device """ self.serial.flush()

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# not sure about the solution at start # sort each str => O(W logW), w is the length of each words -> O(N * W log W) or counting sort O(N*W) # turn each word into count char list: each list length is fixed:26 -> need O(W) to turn to list # but lst can't hash -> turn to str then use hash map class Solution: def groupAnagrams(self, strs: List[str]) -> List[List[str]]: def toCountString(w): lst = [0] * 26 for c in w: lst[ord(c) - ord('a')] += 1 res = [] for i in range(0, 26): res.append(str(lst[i])) res.append("|") return "".join(res) d = {} for w in strs: countStr = toCountString(w) if countStr in d: d[countStr].append(w) else: d[countStr] = [w] return list(d.values())

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import subprocess import os def unite_quals(trimmed): ''' Performs multiqc on all html generated files from fastqc. After the multiqc report is generated, the extra html files are removed. The final reports (html and dir info of seqs) are saved in the dir of the raw samples.''' if trimmed: subprocess.run(["multiqc", snakemake.input[0], "-o", snakemake.output[0]], stdout=subprocess.DEVNULL, check=True) #os.system("rm -R " + snakemake.input[0]) else: subprocess.run(["multiqc", snakemake.input[0], "-o", snakemake.output[0]], stdout=subprocess.DEVNULL, check=True) #os.system("rm -R " + snakemake.input[0]) return unite_quals(snakemake.params["trimmed"])

[ "noreply@github.com" ]

noreply@github.com

65ad21db7fb3dcacd00fdfa037d14b2000dee3b6

98eb706683fe169bc0e3597b2244bd62a34ce464

/release-notes/source/conf.py

f3f15f6d90938650cd19efd6570a6c49917ce9bb

[]

no_license

lsandov1/Documentation

7855e3b917646d5a70342185203ae80f624f650c

036d5079b04ec5845c4bb943d5002896be42d6c2

refs/heads/master

2021-05-27T21:24:47.917645

2014-02-28T09:04:01

null

0

null

UTF-8

Python

false

9,485

py

# -*- coding: utf-8 -*- # # Freescale Community BSP Release Notes documentation build configuration file, created by # sphinx-quickstart on Mon Apr 15 11:52:33 2013. # # This file is execfile()d with the current directory set to its containing dir. # # Note that not all possible configuration values are present in this # autogenerated file. # # All configuration values have a default; values that are commented out # serve to show the default. import sys, os # If extensions (or modules to document with autodoc) are in another directory, # add these directories to sys.path here. If the directory is relative to the # documentation root, use os.path.abspath to make it absolute, like shown here. #sys.path.insert(0, os.path.abspath('.')) # -- General configuration ----------------------------------------------------- # If your documentation needs a minimal Sphinx version, state it here. #needs_sphinx = '1.0' # Add any Sphinx extension module names here, as strings. They can be extensions # coming with Sphinx (named 'sphinx.ext.*') or your custom ones. extensions = [] # Add any paths that contain templates here, relative to this directory. templates_path = ['_templates'] # The suffix of source filenames. source_suffix = '.rst' # The encoding of source files. #source_encoding = 'utf-8-sig' # The master toctree document. master_doc = 'index' # General information about the project. project = u'Freescale Community BSP Release Notes' copyright = u'2013, Freescale Community BSP Team' # The version info for the project you're documenting, acts as replacement for # |version| and |release|, also used in various other places throughout the # built documents. # # The short X.Y version. version = 'current' # The full version, including alpha/beta/rc tags. release = '1.5' # The language for content autogenerated by Sphinx. Refer to documentation # for a list of supported languages. #language = None # There are two options for replacing |today|: either, you set today to some # non-false value, then it is used: #today = '' # Else, today_fmt is used as the format for a strftime call. #today_fmt = '%B %d, %Y' # List of patterns, relative to source directory, that match files and # directories to ignore when looking for source files. exclude_patterns = [] # The reST default role (used for this markup: `text`) to use for all documents. #default_role = None # If true, '()' will be appended to :func: etc. cross-reference text. #add_function_parentheses = True # If true, the current module name will be prepended to all description # unit titles (such as .. function::). #add_module_names = True # If true, sectionauthor and moduleauthor directives will be shown in the # output. They are ignored by default. #show_authors = False # The name of the Pygments (syntax highlighting) style to use. pygments_style = 'sphinx' # A list of ignored prefixes for module index sorting. #modindex_common_prefix = [] # -- Options for HTML output --------------------------------------------------- # The theme to use for HTML and HTML Help pages. See the documentation for # a list of builtin themes. html_theme = 'default' html_style = 'release-notes.css' # Theme options are theme-specific and customize the look and feel of a theme # further. For a list of options available for each theme, see the # documentation. #html_theme_options = {} # Add any paths that contain custom themes here, relative to this directory. #html_theme_path = [] # The name for this set of Sphinx documents. If None, it defaults to # "<project> v<release> documentation". #html_title = None # A shorter title for the navigation bar. Default is the same as html_title. #html_short_title = None # The name of an image file (relative to this directory) to place at the top # of the sidebar. #html_logo = None # The name of an image file (within the static path) to use as favicon of the # docs. This file should be a Windows icon file (.ico) being 16x16 or 32x32 # pixels large. #html_favicon = None # Add any paths that contain custom static files (such as style sheets) here, # relative to this directory. They are copied after the builtin static files, # so a file named "default.css" will overwrite the builtin "default.css". html_static_path = ['_static'] # If not '', a 'Last updated on:' timestamp is inserted at every page bottom, # using the given strftime format. #html_last_updated_fmt = '%b %d, %Y' # If true, SmartyPants will be used to convert quotes and dashes to # typographically correct entities. #html_use_smartypants = True # Custom sidebar templates, maps document names to template names. html_sidebars = { '**': ['localtoc.html', 'relations.html'] } # Additional templates that should be rendered to pages, maps page names to # template names. #html_additional_pages = {} # If false, no module index is generated. #html_domain_indices = True # If false, no index is generated. #html_use_index = True # If true, the index is split into individual pages for each letter. #html_split_index = False # If true, links to the reST sources are added to the pages. html_show_sourcelink = False html_copy_source = False # If true, "Created using Sphinx" is shown in the HTML footer. Default is True. #html_show_sphinx = True # If true, "(C) Copyright ..." is shown in the HTML footer. Default is True. #html_show_copyright = True # If true, an OpenSearch description file will be output, and all pages will # contain a <link> tag referring to it. The value of this option must be the # base URL from which the finished HTML is served. #html_use_opensearch = '' # This is the file name suffix for HTML files (e.g. ".xhtml"). #html_file_suffix = None # Output file base name for HTML help builder. htmlhelp_basename = 'FreescaleCommunityBSPReleaseNotesdoc' # -- Options for LaTeX output -------------------------------------------------- latex_elements = { # The paper size ('letterpaper' or 'a4paper'). #'papersize': 'letterpaper', # The font size ('10pt', '11pt' or '12pt'). #'pointsize': '10pt', # Additional stuff for the LaTeX preamble. #'preamble': '', } # Grouping the document tree into LaTeX files. List of tuples # (source start file, target name, title, author, documentclass [howto/manual]). latex_documents = [ ('index', 'FreescaleCommunityBSPReleaseNotes.tex', u'Freescale Community BSP Release Notes Documentation', u'Freescale Community BSP Team', 'manual'), ] # The name of an image file (relative to this directory) to place at the top of # the title page. #latex_logo = None # For "manual" documents, if this is true, then toplevel headings are parts, # not chapters. #latex_use_parts = False # If true, show page references after internal links. #latex_show_pagerefs = False # If true, show URL addresses after external links. #latex_show_urls = False # Documents to append as an appendix to all manuals. #latex_appendices = [] # If false, no module index is generated. #latex_domain_indices = True # -- Options for manual page output -------------------------------------------- # One entry per manual page. List of tuples # (source start file, name, description, authors, manual section). man_pages = [ ('index', 'freescalecommunitybspreleasenotes', u'Freescale Community BSP Release Notes Documentation', [u'Freescale Community BSP Team'], 1) ] # If true, show URL addresses after external links. #man_show_urls = False # -- Options for Texinfo output ------------------------------------------------ # Grouping the document tree into Texinfo files. List of tuples # (source start file, target name, title, author, # dir menu entry, description, category) texinfo_documents = [ ('index', 'FreescaleCommunityBSPReleaseNotes', u'Freescale Community BSP Release Notes Documentation', u'Freescale Community BSP Team', 'FreescaleCommunityBSPReleaseNotes', 'One line description of project.', 'Miscellaneous'), ] # Documents to append as an appendix to all manuals. #texinfo_appendices = [] # If false, no module index is generated. #texinfo_domain_indices = True # How to display URL addresses: 'footnote', 'no', or 'inline'. #texinfo_show_urls = 'footnote' # -- Options for Epub output --------------------------------------------------- # Bibliographic Dublin Core info. epub_title = u'Freescale Community BSP Release Notes' epub_author = u'Freescale Community BSP Team' epub_publisher = u'Freescale Community BSP Team' epub_copyright = u'2013, Freescale Community BSP Team' # The language of the text. It defaults to the language option # or en if the language is not set. #epub_language = '' # The scheme of the identifier. Typical schemes are ISBN or URL. #epub_scheme = '' # The unique identifier of the text. This can be a ISBN number # or the project homepage. #epub_identifier = '' # A unique identification for the text. #epub_uid = '' # A tuple containing the cover image and cover page html template filenames. #epub_cover = () # HTML files that should be inserted before the pages created by sphinx. # The format is a list of tuples containing the path and title. #epub_pre_files = [] # HTML files shat should be inserted after the pages created by sphinx. # The format is a list of tuples containing the path and title. #epub_post_files = [] # A list of files that should not be packed into the epub file. #epub_exclude_files = [] # The depth of the table of contents in toc.ncx. #epub_tocdepth = 3 # Allow duplicate toc entries. #epub_tocdup = True

[ "otavio@ossystems.com.br" ]

otavio@ossystems.com.br

d06c26735d98802d8c12681d5abbd5e312ed369c

14301002361e8b9b28ff5a38025d39295564a5a9

/cache/.mako.tmp/post_helper.tmpl.py

caf5cb86d87cb86794927417cf720cc778370ffd

[]

no_license

wcmckee/artcontrolme

00cda8d1f0111f7a9528b35246813515c72539ab

b25d5d6b2a98d65fa3c85537d0dfa8926030303c

refs/heads/master

2021-01-20T16:44:36.974014

2016-03-08T11:39:53

39,675,553

0

null

2015-07-25T06:49:52

null

UTF-8

Python

false

10,195

py

# -*- coding:utf-8 -*- from mako import runtime, filters, cache UNDEFINED = runtime.UNDEFINED STOP_RENDERING = runtime.STOP_RENDERING __M_dict_builtin = dict __M_locals_builtin = locals _magic_number = 10 _modified_time = 1453631284.7955158 _enable_loop = True _template_filename = '/usr/local/lib/python3.4/dist-packages/nikola/data/themes/base/templates/post_helper.tmpl' _template_uri = 'post_helper.tmpl' _source_encoding = 'utf-8' _exports = ['mathjax_script', 'open_graph_metadata', 'meta_translations', 'html_pager', 'twitter_card_information', 'html_tags'] def render_body(context,**pageargs): __M_caller = context.caller_stack._push_frame() try: __M_locals = __M_dict_builtin(pageargs=pageargs) __M_writer = context.writer() __M_writer('\n') __M_writer('\n\n') __M_writer('\n\n') __M_writer('\n\n') __M_writer('\n\n') __M_writer('\n\n') __M_writer('\n') return '' finally: context.caller_stack._pop_frame() def render_mathjax_script(context,post): __M_caller = context.caller_stack._push_frame() try: use_katex = context.get('use_katex', UNDEFINED) __M_writer = context.writer() __M_writer('\n') if post.is_mathjax: if use_katex: __M_writer(' <script src="//cdnjs.cloudflare.com/ajax/libs/KaTeX/0.3.0/katex.min.js"></script>\n <script src="//cdnjs.cloudflare.com/ajax/libs/KaTeX/0.3.0/contrib/auto-render.min.js"></script>\n <script>\n renderMathInElement(document.body);\n </script>\n') else: __M_writer(' <script type="text/javascript" src="//cdn.mathjax.org/mathjax/latest/MathJax.js?config=TeX-AMS-MML_HTMLorMML"> </script>\n <script type="text/x-mathjax-config">\n MathJax.Hub.Config({tex2jax: {inlineMath: [[\'$latex \',\'$\'], [\'\\\$\',\'\\\$\']]}});\n </script>\n') return '' finally: context.caller_stack._pop_frame() def render_open_graph_metadata(context,post): __M_caller = context.caller_stack._push_frame() try: use_open_graph = context.get('use_open_graph', UNDEFINED) abs_link = context.get('abs_link', UNDEFINED) lang = context.get('lang', UNDEFINED) permalink = context.get('permalink', UNDEFINED) blog_title = context.get('blog_title', UNDEFINED) url_replacer = context.get('url_replacer', UNDEFINED) __M_writer = context.writer() __M_writer('\n') if use_open_graph: __M_writer(' <meta property="og:site_name" content="') __M_writer(filters.html_escape(str(blog_title))) __M_writer('">\n <meta property="og:title" content="') __M_writer(filters.html_escape(str(post.title()[:70]))) __M_writer('">\n <meta property="og:url" content="') __M_writer(str(abs_link(permalink))) __M_writer('">\n') if post.description(): __M_writer(' <meta property="og:description" content="') __M_writer(filters.html_escape(str(post.description()[:200]))) __M_writer('">\n') else: __M_writer(' <meta property="og:description" content="') __M_writer(filters.html_escape(str(post.text(strip_html=True)[:200]))) __M_writer('">\n') if post.previewimage: __M_writer(' <meta property="og:image" content="') __M_writer(str(url_replacer(permalink, post.previewimage, lang, 'absolute'))) __M_writer('">\n') __M_writer(' <meta property="og:type" content="article">\n') if post.date.isoformat(): __M_writer(' <meta property="article:published_time" content="') __M_writer(str(post.formatted_date('webiso'))) __M_writer('">\n') if post.tags: for tag in post.tags: __M_writer(' <meta property="article:tag" content="') __M_writer(filters.html_escape(str(tag))) __M_writer('">\n') return '' finally: context.caller_stack._pop_frame() def render_meta_translations(context,post): __M_caller = context.caller_stack._push_frame() try: len = context.get('len', UNDEFINED) translations = context.get('translations', UNDEFINED) lang = context.get('lang', UNDEFINED) sorted = context.get('sorted', UNDEFINED) __M_writer = context.writer() __M_writer('\n') if len(translations) > 1: for langname in sorted(translations): if langname != lang and post.is_translation_available(langname): __M_writer(' <link rel="alternate" hreflang="') __M_writer(str(langname)) __M_writer('" href="') __M_writer(str(post.permalink(langname))) __M_writer('">\n') return '' finally: context.caller_stack._pop_frame() def render_html_pager(context,post): __M_caller = context.caller_stack._push_frame() try: messages = context.get('messages', UNDEFINED) __M_writer = context.writer() __M_writer('\n') if post.prev_post or post.next_post: __M_writer(' <ul class="pager hidden-print">\n') if post.prev_post: __M_writer(' <li class="previous">\n <a href="') __M_writer(str(post.prev_post.permalink())) __M_writer('" rel="prev" title="') __M_writer(filters.html_escape(str(post.prev_post.title()))) __M_writer('">') __M_writer(str(messages("Previous post"))) __M_writer('</a>\n </li>\n') if post.next_post: __M_writer(' <li class="next">\n <a href="') __M_writer(str(post.next_post.permalink())) __M_writer('" rel="next" title="') __M_writer(filters.html_escape(str(post.next_post.title()))) __M_writer('">') __M_writer(str(messages("Next post"))) __M_writer('</a>\n </li>\n') __M_writer(' </ul>\n') return '' finally: context.caller_stack._pop_frame() def render_twitter_card_information(context,post): __M_caller = context.caller_stack._push_frame() try: twitter_card = context.get('twitter_card', UNDEFINED) __M_writer = context.writer() __M_writer('\n') if twitter_card and twitter_card['use_twitter_cards']: __M_writer(' <meta name="twitter:card" content="') __M_writer(filters.html_escape(str(twitter_card.get('card', 'summary')))) __M_writer('">\n') if 'site:id' in twitter_card: __M_writer(' <meta name="twitter:site:id" content="') __M_writer(str(twitter_card['site:id'])) __M_writer('">\n') elif 'site' in twitter_card: __M_writer(' <meta name="twitter:site" content="') __M_writer(str(twitter_card['site'])) __M_writer('">\n') if 'creator:id' in twitter_card: __M_writer(' <meta name="twitter:creator:id" content="') __M_writer(str(twitter_card['creator:id'])) __M_writer('">\n') elif 'creator' in twitter_card: __M_writer(' <meta name="twitter:creator" content="') __M_writer(str(twitter_card['creator'])) __M_writer('">\n') return '' finally: context.caller_stack._pop_frame() def render_html_tags(context,post): __M_caller = context.caller_stack._push_frame() try: hidden_tags = context.get('hidden_tags', UNDEFINED) _link = context.get('_link', UNDEFINED) __M_writer = context.writer() __M_writer('\n') if post.tags: __M_writer(' <ul itemprop="keywords" class="tags">\n') for tag in post.tags: if tag not in hidden_tags: __M_writer(' <li><a class="tag p-category" href="') __M_writer(str(_link('tag', tag))) __M_writer('" rel="tag">') __M_writer(filters.html_escape(str(tag))) __M_writer('</a></li>\n') __M_writer(' </ul>\n') return '' finally: context.caller_stack._pop_frame() """ __M_BEGIN_METADATA {"source_encoding": "utf-8", "uri": "post_helper.tmpl", "line_map": {"16": 0, "21": 2, "22": 11, "23": 23, "24": 40, "25": 69, "26": 85, "27": 102, "33": 87, "38": 87, "39": 88, "40": 89, "41": 90, "42": 95, "43": 96, "49": 42, "59": 42, "60": 43, "61": 44, 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"filename": "/usr/local/lib/python3.4/dist-packages/nikola/data/themes/base/templates/post_helper.tmpl"} __M_END_METADATA """

[ "will@artcontrol.me" ]

will@artcontrol.me

5dbc21d8aa28eef3f810bcd350664d9987d8205e

d3c8eda54c80e3b6a3aadceea63a12cdc1cac511

/LinkedList_21.py

c94fce85688bc64dbee756addd030d1804f151b3

[]

no_license

DiWuDi/Mac-VSCode

484a6d7d735efeb498caff24d737180e6fca1edb

9b7ade81282273a86e7bd206aaaf11fc1d0ab7f9

refs/heads/master

2021-02-08T13:54:55.357985

2020-03-02T16:27:54

244,158,792

0

null

UTF-8

Python

false

1,378

py

# Definition for singly-linked list. class ListNode: def __init__(self, x): self.val = x self.next = None # class SLinkedList: # def __init__(self): # self.head = None class Solution: def mergeTwoLists(self, l1, l2): """ :type l1: ListNode, :typ l2: ListNode, :rtype: ListNode: """ curr = dummy = ListNode(0) #print (curr.val) while l1 and l2: if l1.val < l2.val: curr.next = l1 l1 = l1.next else: curr.next = l2 l2 = l2.next curr = curr.next curr.next =l1 or l2 return dummy.next l1 = ListNode(1) e2 = ListNode(2) e3 = ListNode(4) l1.next = e2 e2.next = e3 e3.next = None l2 = ListNode(1) d2 = ListNode(3) d3 = ListNode(4) l2.next = d2 d2.next = d3 d3.next = None test = Solution() result = test.mergeTwoLists(l1,l2) while result: print (result.val) result = result.next # e1 = ListNode(1) # e2 = ListNode(2) # e3 = ListNode(4) # e1.next = e2 # e2.next = e3 # e3.next = None # l1 = SLinkedList() # l1.head = e1 # d1 = ListNode(1) # d2 = ListNode(3) # d3 = ListNode(4) # d1.next = d2 # d2.next = d3 # d3.next = None # l2 = SLinkedList() # l2.head = d1 # Input: 1->2->4, 1->3->4 # Output: 1->1->2->3->4->4

[ "dwzoon@gmail.com" ]

dwzoon@gmail.com

5ea85eaa1b314a78c692b6d5efac064ab875b546

6a5507354b516b3d09404bd4c23e9d5c3685a38c

/logmappermaster/transformer/fuzzysystems/memory.py

5966ae0a6c1fa0f1190f52226bc2a3bc99448cf3

[ "MIT" ]

permissive

abaena78/logmapper-master

e14512b97d38dd0f3ff47b42e01f6686076d0b1c

ef4cc7470aec274095afa09f0fe97d9d48299418

refs/heads/master

2020-03-17T08:33:01.139682

2018-05-15T01:53:58

133,442,441

0

null

UTF-8

Python

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4,513

py

# -*- coding: utf-8 -*- """ Created on Sat Jan 20 15:31:46 2018 @author: abaena """ import numpy as np import skfuzzy as fuzz from skfuzzy import control as ctrl import matplotlib.pyplot as plt import logging logger = logging.getLogger(__name__) def buildFuzzySystem(showDescription = False): """ =========================================================================== Build Fuzzy Sistem for variable: memory =========================================================================== **Args**: showDescription: (boolean) **Returns**: None """ #========================================================================== # Set labels of inputs and outputs #========================================================================== var_in1_label = 'memory' var_out_label = 'out' logger.info("buildFuzzySystem:" + var_in1_label) #========================================================================== # Set numerical range of inputs and outputs #========================================================================== in1_max = 100.0 var_in1_universe = np.arange(0, in1_max, in1_max/1000.0) var_out_universe = np.arange(0, 1, 0.01) #========================================================================== # Set inputs(Antecedent) and outputs (Consequent) #========================================================================== var_in1 = ctrl.Antecedent(var_in1_universe, var_in1_label) var_out = ctrl.Consequent(var_out_universe, var_out_label) #========================================================================== # Set membership functions of fuzzy set #========================================================================== var_in1.automf(number=3, variable_type='quant') var_in1['average'] = fuzz.trapmf(var_in1.universe, [in1_max*0.2, in1_max*0.4, in1_max*0.8, in1_max*0.9]) var_in1['high'] = fuzz.smf(var_in1.universe, in1_max*0.8, in1_max*0.95) var_out['low'] = fuzz.zmf(var_out.universe, 0.4, 0.8) var_out['high'] = fuzz.smf(var_out.universe, 0.7, 0.9) #========================================================================== # Set fuzzy rules #========================================================================== rule1 = ctrl.Rule(var_in1['high'], var_out['high']) rule2 = ctrl.Rule(var_in1['low'] | var_in1['average'] , var_out['low']) #========================================================================== # Build fuzzy control system and simulation #========================================================================== var_ctrl = ctrl.ControlSystem([rule1, rule2]) var_fuzzysim = ctrl.ControlSystemSimulation(var_ctrl) #========================================================================== # Set fuzzy rules #========================================================================== if showDescription: fig = plt.figure(figsize=(12, 12)) plt.subplot(3, 1, 1) plt.title('Input: '+var_in1_label) plt.plot(var_in1_universe, var_in1['low'].mf, label='low') plt.plot(var_in1_universe, var_in1['average'].mf, label='average') plt.plot(var_in1_universe, var_in1['high'].mf, label='high') plt.legend() plt.subplot(3, 1, 2) plt.title('Output: '+var_out_label) plt.plot(var_out_universe, var_out['low'].mf, label='low') plt.plot(var_out_universe, var_out['high'].mf, label='high') plt.legend() var_fuzzysim.input[var_in1_label] = var_in1_universe var_fuzzysim.compute() y = var_fuzzysim.output[var_out_label] plt.subplot(3, 1, 3) plt.plot(var_in1_universe, y, label='Fuzzy transform of '+var_in1_label) #plt.show() plt.savefig('/tmp/fuzzy_'+var_in1_label+'.png') return var_fuzzysim if __name__ == '__main__': print('Start module execution:') logging.basicConfig(level=logging.DEBUG, format='%(asctime)s - %(levelname)s - %(message)s', datefmt='%H:%M:%S') showDescription = True fuzzysim = buildFuzzySystem(showDescription) if not showDescription: fuzzysim.input['memory'] = 15.0 fuzzysim.compute() print("Resultado="+str(fuzzysim.output['out'])) print("End module execution")

[ "jabO!978" ]

jabO!978

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import numpy as np import tensorflow from tensorflow import keras from tensorflow.keras import layers import gc import tracemalloc if __name__ == "__main__": tracemalloc.start() while True: inputs = keras.Input(shape=(10,)) out = layers.Dense(1)(inputs) model = keras.Model(inputs=inputs, outputs=out) model.compile(optimizer="adam", loss="mse") train = np.random.rand(1000,10) label = np.random.rand(1000) model.fit(train, label) gc.collect() current, peak = tracemalloc.get_traced_memory() print(f"Current memory usage is {current / 10**6}MB; Peak was {peak / 10**6}MB")

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from cytoolz import ( compose, ) from eth_utils.curried import ( apply_formatters_to_dict, apply_key_map, ) from hexbytes import ( HexBytes, ) from webu.middleware.formatting import ( construct_formatting_middleware, ) remap_ghuc_poa_fields = apply_key_map({ 'extraData': 'proofOfAuthorityData', }) pythonic_ghuc_poa = apply_formatters_to_dict({ 'proofOfAuthorityData': HexBytes, }) ghuc_poa_cleanup = compose(pythonic_ghuc_poa, remap_ghuc_poa_fields) ghuc_poa_middleware = construct_formatting_middleware( result_formatters={ 'eth_getBlockByHash': ghuc_poa_cleanup, 'eth_getBlockByNumber': ghuc_poa_cleanup, }, )

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from __future__ import annotations import contextlib import dataclasses import hashlib import json import shutil import time from pathlib import Path from typing import Any from typing import Callable from typing import Generic from typing import TypeVar # Used by Cachy for items that do not expire. MAX_DATE = 9999999999 T = TypeVar("T") def decode(string: bytes, encodings: list[str] | None = None) -> str: """ Compatiblity decode function pulled from cachy. :param string: The byte string to decode. :param encodings: List of encodings to apply :return: Decoded string """ if encodings is None: encodings = ["utf-8", "latin1", "ascii"] for encoding in encodings: with contextlib.suppress(UnicodeDecodeError): return string.decode(encoding) return string.decode(encodings[0], errors="ignore") def encode(string: str, encodings: list[str] | None = None) -> bytes: """ Compatibility encode function from cachy. :param string: The string to encode. :param encodings: List of encodings to apply :return: Encoded byte string """ if encodings is None: encodings = ["utf-8", "latin1", "ascii"] for encoding in encodings: with contextlib.suppress(UnicodeDecodeError): return string.encode(encoding) return string.encode(encodings[0], errors="ignore") def _expiration(minutes: int) -> int: """ Calculates the time in seconds since epoch that occurs 'minutes' from now. :param minutes: The number of minutes to count forward """ return round(time.time()) + minutes * 60 _HASHES = { "md5": (hashlib.md5, 2), "sha1": (hashlib.sha1, 4), "sha256": (hashlib.sha256, 8), } @dataclasses.dataclass(frozen=True) class CacheItem(Generic[T]): """ Stores data and metadata for cache items. """ data: T expires: int | None = None @property def expired(self) -> bool: """ Return true if the cache item has exceeded its expiration period. """ return self.expires is not None and time.time() >= self.expires @dataclasses.dataclass(frozen=True) class FileCache(Generic[T]): """ Cachy-compatible minimal file cache. Stores subsequent data in a JSON format. :param path: The path that the cache starts at. :param hash_type: The hash to use for encoding keys/building directories. """ path: Path hash_type: str = "sha256" def __post_init__(self) -> None: if self.hash_type not in _HASHES: raise ValueError( f"FileCache.hash_type is unknown value: '{self.hash_type}'." ) def get(self, key: str) -> T | None: return self._get_payload(key) def has(self, key: str) -> bool: """ Determine if a file exists and has not expired in the cache. :param key: The cache key :returns: True if the key exists in the cache """ return self.get(key) is not None def put(self, key: str, value: Any, minutes: int | None = None) -> None: """ Store an item in the cache. :param key: The cache key :param value: The cache value :param minutes: The lifetime in minutes of the cached value """ payload: CacheItem[Any] = CacheItem( value, expires=_expiration(minutes) if minutes is not None else None ) path = self._path(key) path.parent.mkdir(parents=True, exist_ok=True) with open(path, "wb") as f: f.write(self._serialize(payload)) def forget(self, key: str) -> None: """ Remove an item from the cache. :param key: The cache key """ path = self._path(key) if path.exists(): path.unlink() def flush(self) -> None: """ Clear the cache. """ shutil.rmtree(self.path) def remember( self, key: str, callback: T | Callable[[], T], minutes: int | None = None ) -> T: """ Get an item from the cache, or use a default from callback. :param key: The cache key :param callback: Callback function providing default value :param minutes: The lifetime in minutes of the cached value """ value = self.get(key) if value is None: value = callback() if callable(callback) else callback self.put(key, value, minutes) return value def _get_payload(self, key: str) -> T | None: path = self._path(key) if not path.exists(): return None with open(path, "rb") as f: payload = self._deserialize(f.read()) if payload.expired: self.forget(key) return None else: return payload.data def _path(self, key: str) -> Path: hash_type, parts_count = _HASHES[self.hash_type] h = hash_type(encode(key)).hexdigest() parts = [h[i : i + 2] for i in range(0, len(h), 2)][:parts_count] return Path(self.path, *parts, h) def _serialize(self, payload: CacheItem[T]) -> bytes: expires = payload.expires or MAX_DATE data = json.dumps(payload.data) return encode(f"{expires:010d}{data}") def _deserialize(self, data_raw: bytes) -> CacheItem[T]: data_str = decode(data_raw) data = json.loads(data_str[10:]) expires = int(data_str[:10]) return CacheItem(data, expires)

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bjorn@neersighted.com

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#!/usr/bin/env python3 # -*- coding: utf-8 -*- """ Created on Fri Apr 1 09:03:58 2022 @author: smith """ from skimage import io import os import numpy as np import glob import argparse def cropZeissTiles(directory, level=3, axis='X', cropDim=256, side='left', plugin='skimage', pixelSizes=None): """Crop tiles from the Zeiss Z1 light-sheet. Parameters ---------- directory : str Path to directory containing TIF stacks for each tile. level : int (optional, default 3) Index of row or column to crop. axis : str (optional, default 'X') Whether level refers to X or Y axis. cropDim : int (optional, default 256) How many pixels to crop off. side : str (optional, default 'left') Which side to crop pixels off of, can be 'left', 'right', top', bottom' plugin : str (optional, default 'skimage') image IO plugin to use, either 'skimage' or 'aicsimageio'. aicsimageio supports writing .ome.tif with pixel size metadata pixelSizes : tuple (floats) Tuple of ZYX pixel sizes, if using aicsimageio plugin """ saveDir = os.path.join(directory, 'cropped/') if not os.path.exists(saveDir): os.mkdir(saveDir) if axis.lower()=='x': files = glob.glob(os.path.join(directory, '*'+'0'+str(level)+'.ome.tif')) elif axis.lower()=='y': files = glob.glob(os.path.join(directory, '*'+'0'+str(level)+'x*.ome.tif')) print(str(len(files)) + ' files found for cropping') for f in files: n, e = os.path.splitext(os.path.basename(f)) if n.endswith('.ome'): n=n.strip('.ome') e = '.ome'+e if plugin=='skimage': im = io.imread(f) elif plugin=='aicsimageio': from aicsimageio.readers import OmeTiffReader from aicsimageio.writers import OmeTiffWriter im = OmeTiffReader(f) if not pixelSizes: pixelSizes = im.physical_pixel_sizes elif pixelSizes: from aicsimageio.types import PhysicalPixelSizes as ps pixelSizes = ps(Z=pixelSizes[0], Y=pixelSizes[1], X=pixelSizes[2]) im = im.get_image_data('ZYX') if side.lower()=='left': im = im[:,:,cropDim:] elif side.lower()=='right': im = im[:,:,:im.shape[2]-cropDim] elif side.lower()=='top': im = im[:,cropDim:,:] elif side.lower()=='bottom': im = im[:,:im.shape[1]-cropDim,:] else: raise ValueError("side argument must be one of 'left', 'right', 'top', 'bottom'") if plugin=='skimage': io.imsave(os.path.join(saveDir, n+'_cropped'+e), im, imagej=True, check_contrast=False) elif plugin=='aicsimageio': OmeTiffWriter.save(data=im, uri=os.path.join(saveDir, n+'_cropped'+e), physical_pixel_sizes=pixelSizes, dimension_order="ZYX") if __name__=='__main__': p = argparse.ArgumentParser() p.add_argument('-d', '--directory', type=str, default=os.getcwd(), help='Directory containing images to crop') p.add_argument('-l', '--level', type=int, default=3, help='Level of tile to crop') p.add_argument('-a', '--axis', type=str, default='x', help='Axis to crop from') p.add_argument('-c', '--cropDim', type=int, help='Number of pixels to crop out') p.add_argument('-s', '--side', type=str, default='left', help='Side to crop off of') args = p.parse_args() cropZeissTiles(args.directory, args.level, args.axis, args.cropDim, args.side)

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smitaw@musc.edu

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import os import pygame from src.BinaryConvert.BinaryConvertMain import Level_1_Main from src.ExampleLevels.ExampleLvl import ExampleLvl from src.ExampleLevels.ExampleLvl2 import ExampleLvl2 from src.PlatformsMainPackage.Player import Player from src.BreakingClass import BreakingClass import src.MainImages as main_img import sys from src.BubbleSortLevel.BubbleSortLevelMain import BubbleSortLevelMain from src.BinarySearch.BinarySearchMain import BinarySearchMain from src.PlayFair.PlayFairMain import PlayFairMain from src.Menu.MenuClass import MenuClass os.environ['SDL_VIDEO_CENTERED'] = '1' # centrowanie okna pygame.init() pygame.display.set_caption('Tree of Life') pygame.display.set_icon(main_img.wiking_icon) class GameController(object): def __init__(self): self.current_level = 1 def controller(self): menu = MenuClass('start') if menu.run(): cutscena1 = BreakingClass(main_img.cutscena_1) cutscena1.run() if cutscena1.is_done is True: lvl1 = Level_1_Main() player = Player(3, main_img.stand_right, False) while True: if self.current_level == 1 and lvl1.is_done is False: lvl1.run() if lvl1.is_done: self.current_level = 2 cutscena2 = BreakingClass(main_img.cutscena_2) cutscena2.run() if self.current_level == 2 and cutscena2.is_done is True: lvl_platform = ExampleLvl(player) player.rect.center = lvl_platform.get_surface().get_rect().center player.level = lvl_platform lvl_platform.update() if lvl_platform.run() and player.life.player_life != 0: self.current_level = 3 cutscena3 = BreakingClass(main_img.cutscena_3) cutscena3.run() if self.current_level == 3 and cutscena3.is_done and player.life.player_life != 0: bubble = BubbleSortLevelMain() if bubble.run(): self.current_level = 4 cutscena4 = BreakingClass(main_img.cutscena_4) cutscena4.run() if self.current_level == 4 and cutscena4.is_done and player.life.player_life != 0: lvl_platform2 = ExampleLvl2(player) player.rect.center = lvl_platform2.get_surface().get_rect().center player.level = lvl_platform2 lvl_platform2.update() if lvl_platform2.run(): self.current_level = 5 cutscena5 = BreakingClass(main_img.cutscena_5) cutscena5.run() if self.current_level == 5 and cutscena5.is_done and player.life.player_life != 0: playfair = PlayFairMain() if playfair.run(): self.current_level = 5 cutscena6 = BreakingClass(main_img.cutscena_6) cutscena6.run() if self.current_level == 5 and cutscena6.is_done and player.life != 0: binary_search = BinarySearchMain(playfair.crypto.output_text) if binary_search.run(): self.current_level = 6 cutscena7 = BreakingClass(main_img.cutscena_7) cutscena7.run() if self.current_level == 6 and cutscena7.is_done and player.life.player_life != 0: menu2 = MenuClass("finish") if menu2.run(): self.current_level = 1 lvl1 = Level_1_Main() if player.life.player_life == 0: menu3 = MenuClass("finish") if menu3.run(): self.current_level = 1 lvl1 = Level_1_Main()

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''' @File : prefixspan.py @Time : 2020/12/29 16:46:00 @Author : Chengze Zhang @Contact : chengze1996@gmail.com @License : Copyright (c) 2020 Chengze Zhang ''' # here put the import lib def rmLowSup(D,Cx, postfixDic,minSup): ''' 根据当前候选集合删除低support的候选集 ''' Lx = Cx for iset in Cx: if len(postfixDic[iset])/len(D) < minSup: Lx.remove(iset) postfixDic.pop(iset) return Lx, postfixDic def createC1(D, minSup): '''生成第一个候选序列，即长度为1的集合序列 ''' C1 = [] # 集合对应的每个序列的所在位置的开始位置，{(1,):{0:2,3:1}}表示前缀(1,)在0序列的结尾为2， 3序列的结尾为1 postfixDic={} lenD = len(D) for i in range(lenD): for idx, item in enumerate(D[i]): if tuple([item]) not in C1: postfixDic[tuple([item])]={} C1.append(tuple([item])) if i not in postfixDic[tuple([item])].keys(): postfixDic[tuple([item])][i]=idx L1, postfixDic = rmLowSup(D, C1, postfixDic, minSup) return L1, postfixDic def genNewPostfixDic(D,Lk, prePost): '''根据候选集生成相应的PrefixSpan后缀参数： D：数据集 Lk: 选出的集合 prePost: 上一个前缀集合的后缀基于假设： (1,2)的后缀只能出现在 (1,)的后缀列表里 e.g. postifixDic[(1,2)]={1:2,2:3} 前缀 (1,2) 在第一行的结尾是2，第二行的结尾是3 ''' postfixDic = {} for Ck in Lk: # (1,2)的后缀只能出现在 (1,)的后缀列表里 postfixDic[Ck]={} tgt = Ck[-1] prePostList = prePost[Ck[:-1]] for r_i in prePostList.keys(): for c_i in range(prePostList[r_i]+1, len(D[r_i])): if D[r_i][c_i]==tgt: postfixDic[Ck][r_i] = c_i break return postfixDic def psGen(D, Lk, postfixDic, minSup, minConf): '''生成长度+1的新的候选集合 ''' retList = [] lenD = len(D) # 访问每一个前缀 for Ck in Lk: item_count = {} # 统计item在多少行的后缀里出现 # 访问出现前缀的每一行 for i in postfixDic[Ck].keys(): # 从前缀开始访问每个字符 item_exsit={} for j in range(postfixDic[Ck][i]+1, len(D[i])): if D[i][j] not in item_count.keys(): item_count[D[i][j]]=0 if D[i][j] not in item_exsit: item_count[D[i][j]]+=1 item_exsit[D[i][j]]=True c_items = [] # 根据minSup和minConf筛选候选字符 for item in item_count.keys(): if item_count[item]/lenD >= minSup and item_count[item]/len(postfixDic[Ck])>=minConf: c_items.append(item) # 将筛选后的字符组成新的候选项，加入候选集合 for c_item in c_items: retList.append(Ck+tuple([c_item])) return retList def PrefixSpan(D, minSup=0.5, minConf=0.5, sptNum=False): L1, postfixDic = createC1(D, minSup) Dic_L1 = [{x:len(postfixDic[x])} for x in L1] Dic_L = [Dic_L1] L = [L1] k=2 while len(L[k-2])>0: # 生成新的候选集合 Lk = psGen(D, L[k-2], postfixDic,minSup, minConf) # 根据新的候选集合获取新的后缀 postfixDic = genNewPostfixDic(D,Lk,postfixDic) Dic_Lk = [{x:len(postfixDic[x])} for x in Lk] # 加入到集合中 L.append(Lk) Dic_L1.append(Dic_Lk) k+=1 return Dic_L if __name__ =='__main__': data = [ [1,4,2,3], [0, 1, 2, 3], [1, 2, 1, 3, 4],[2, 1, 2, 4, 4],[2, 1, 2, 4, 4],[2, 1, 2, 4, 4],[2, 1, 2, 4, 4],[2, 1, 2, 4, 4], [2, 1, 2, 4, 4], [2, 1, 2, 4, 4], [1, 1, 1, 2, 3], ] readData = [] with open("data/dataset/pathFull.txt", "r", encoding="utf-8") as f: for line in f: # print(line) nums = [] for num in line.split('-'): if num: nums.append(int(num)) if nums: readData.append(nums) # print(readData) # print(len(readData)) # break L = PrefixSpan(readData, minSup=0.8, minConf=0, sptNum=True) for i in range(len(L)-1,-1,-1): for Cx in L[i]: print(Cx)

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929160190@qq.com

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#!/usr/local/bin/python3 # -*- coding: utf-8 -*- # @Time : 2018/7/5 下午3:37 # @Author : Aries (i@iw3c.com) # @Site : http://iw3c.com # @File : chrome.py # @Software: PyCharm ''' pip3 install beautifulsoup4 pip3 install -U selenium 下载 chromedriver http://npm.taobao.org/mirrors/chromedriver/ or http://chromedriver.storage.googleapis.com/index.html 查看下载目录中的notes.txt中driver对应的chrome的版本 ''' from selenium import webdriver from selenium.webdriver.chrome.options import Options import time from bs4 import BeautifulSoup chrome_options = Options() chrome_options.add_argument('--headless') # 无头浏览器 chrome_options.add_argument('--disable-gpu') #设置匿名代理 PROXY = "61.168.162.32:80" chrome_options.add_argument('--proxy-server={0}'.format(PROXY)) #需要验证的代理请参考：https://vimmaniac.com/blog/bangal/selenium-chrome-driver-proxy-with-authentication driver = webdriver.Chrome(executable_path='/Volumes/HDD/workshop/phantomjs/bin/chromedriver', chrome_options=chrome_options) #driver = webdriver.Chrome(chrome_options=chrome_options) #如果把chromedriver加入了环境变量，就可以不加executable_path driver.get('https://qinhuangdao.anjuke.com/prop/view/A1305238435?from=filter&spread=commsearch_t&position=1&kwtype=filter&now_time=1530673385') page_source = driver.page_source #载入soup soup = BeautifulSoup(page_source, 'lxml') reference_monthpay = soup.find('span', id='reference_monthpay') print(reference_monthpay.text) # 查看页面快照 #driver.save_screenshot('baidu.com.png') # 向下滚动10000像素 #driver.execute_script("document.body.scrollTop=10000") time.sleep(3) driver.quit()

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forphp@qq.com

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import pygame,os from pygame.locals import * def load_image(name='',colorkey=None,main_folder = 'images',folder=''): fullname = os.path.join('data',main_folder,folder,name) try: image = pygame.image.load(fullname) except pygame.error as message: print("Cannot load image:", fullname) raise SystemExit image = image.convert() if colorkey is not None: if colorkey is -1: colorkey = image.get_at((0,0)) image.set_colorkey(colorkey, RLEACCEL) return image, image.get_rect() def load_sound(name): class NoneSound: def play(self): pass if not pygame.mixer: return NoneSound() fullname = os.path.join('data','sounds',name) try: sound = pygame.mixer.Sound(fullname) except pygame.error as message: print("Cannot load sound:", name) raise(SystemExit, message) return sound def load_tileset(width,height,tx,ty,colorkey = None): fullname = os.path.join('data','maps','Tileset.png') try: image = pygame.image.load(fullname) except pygame.error as message: print("Cannot load tileset.") raise SystemExit image = image.convert() if colorkey is not None: if colorkey is -1: colorkey = image.get_at((0,0)) image.set_colorkey(colorkey, RLEACCEL) rect = (tx*width,ty*height,width,height) return image.subsurface(rect)

[ "woo00154@gmail.com" ]

woo00154@gmail.com

706004ded5504282ced7c31b8a3c251769a0d8c8

b00330d48bfe09da78e50694a72793fe128c6a01

/27_머신러닝_붓꽃 품종 학습.py

e10c7892374db24c3f940ab357d31d34b02b1683

[]

no_license

swj8905/2021_Hongik_Summer

c177d64c6f0326f00d974e20e1334d8ac0ede3e4

e3c28d1bfeb4d6a55b152bd922b61b77a17bb84c

refs/heads/master

2023-06-16T00:47:15.852607

2021-07-08T12:01:31

378,916,618

1

0

null

UTF-8

Python

false

621

py

from sklearn.svm import SVC import pandas as pd from sklearn.model_selection import train_test_split from sklearn.metrics import accuracy_score # 데이터 불러오기 df = pd.read_csv("./iris.csv") label = df["variety"] data = df[["sepal.length", "sepal.width", "petal.length", "petal.width"]] train_data, valid_data, train_label, valid_label = train_test_split(data, label) # 학습시키기 model = SVC() # Support Vector Machine Classifier model.fit(train_data, train_label) # 예측시켜보기 result = model.predict(valid_data) # 정확도 확인하기 score = accuracy_score(result, valid_label) print(score)

[ "swj8905@naver.com" ]

swj8905@naver.com

044d3e45234e982ce9cae918ec38e9c9d777b166

25a3d58155f3b6cc05398ce3bfcda02eb91f4c0a

/src/plot_3d.py

c71e8439a351aa27677f88c2acbf5ff825c3f97e

[]

no_license

breadcrumbbuilds/customer-churn

fe88bfa010cad6b64d8fe8e5d6361e450d177bdc

70d875d279238f118c13f6caa0a1944059e1bc5c

refs/heads/main

2023-04-09T16:22:34.919449

2021-04-14T05:50:36

357,773,763

0

null

UTF-8

Python

false

1,225

py

import numpy as np import pandas as pd from sklearn.decomposition import PCA import matplotlib.pyplot as plt import config from dispatchers import normalize_dispatcher df = pd.read_csv(config.TRAINING_FILES[0]) df = df[config.FEATURES] x_train = df.drop("target", axis=1).values y_train = df.target.values scaler = normalize_dispatcher.normalize["standardize"] x_train = scaler.fit_transform(x_train) y_train = y_train.reshape(-1, 1) df = np.hstack((x_train, y_train)) # principal_components.join(y_train) df = pd.DataFrame(data=df , columns = config.FEATURES) x = df[config.FEATURES[0]] y = df[config.FEATURES[1]] z = df[config.FEATURES[2]] if len(config.FEATURES) > 3: w = df[config.FEATURES[3]] col = df['target'] fig=plt.figure(figsize=(12,12)) axes = plt.axes(projection='3d') axes.set_title("Interesting Feature Analysis") plt.suptitle("Customer Churn") axes.set_xlabel(config.FEATURES[0]) axes.set_ylabel(config.FEATURES[1]) axes.set_zlabel(config.FEATURES[2]) if len(config.FEATURES) > 4: scatter = axes.scatter(x, y, z, c=col, s=w*w, cmap='coolwarm') else: scatter = axes.scatter(x, y, z, c=col, cmap='coolwarm') axes.legend(*scatter.legend_elements()) plt.tight_layout() plt.show()

[ "brad@bradcrump.ca" ]

brad@bradcrump.ca

40b38c9d62305e2dc9eb496685175c25a2a73a41

21dd7d56c370ea9a02b66654525fd96a398a9e49

/apps/competition/urls.py

8fda71942b35148c142e463894bd46fdd17e9acf

[]

no_license

hqpr/fame

fdad5d03bf9ee7ca31ae8a4701ff05bafd49540f

8b77e3a822ae70ee6d79a8003e1d9f9bc5ba8355

refs/heads/master

2023-01-14T16:58:46.533090

2015-08-31T15:37:09

35,205,330

0

null

UTF-8

Python

false

1,243

py

from django.conf.urls import url from apps.competition.views import competitions, single_competition, single_competition_terms, pick_media_file, SingleCompetitionEnter, \ competition_add_audio, competition_add_video, entry_review urlpatterns = [ url(r'^$', competitions, name='all_competitions'), url(r'^(?P<slug>[\w\-]+)/$', single_competition, {"display": "overview"}, name='single_competition'), url(r'^(?P<slug>[\w\-]+)/chart/$', single_competition, {"display": "chart"}, name='single_competition_chart'), url(r'^(?P<slug>[\w\-]+)/entry/(?P<entry_slug>[\w\-]+)$', single_competition, {"display": "chart"}, name='single_competition_entry'), url(r'^(?P<slug>[\w\-]+)/terms/$', single_competition_terms, {"display": "terms"}, name='single_competition_terms'), url(r'^(?P<slug>[\w\-]+)/enter/$', SingleCompetitionEnter.as_view(), name='single_competition_enter'), url(r'^(?P<slug>[\w\-]+)/pick/$', pick_media_file, name='pick_media_file'), url(r'^add/(?P<object_id>\d+)/$', competition_add_audio, name='competition_add_audio'), url(r'^add/video/(?P<object_id>\d+)/$', competition_add_video, name='competition_add_video'), url(r'^(?P<slug>[\w\-]+)/review/$', entry_review, name='entry_review'), ]

[ "adubnyak@gmail.com" ]

adubnyak@gmail.com

b87d55eb7f497f7695c1eaa64d9dc9dc8ee02716

0c4687ec5efbe2ff205c73946980437d208f23e2

/users/views.py

47e0f85eea845e374d920c9420aa4befc1a46e02

[]

no_license

swan20hub/Learning_Log

1dc170ea9b143802fa00906d0024c33e0d3f5d8d

43765540a72f9a9f9592a18337c8d0a32ec0b8b7

refs/heads/master

2023-03-06T04:35:07.293202

2021-02-21T09:35:16

340,612,726

1

0

null

UTF-8

Python

false

743

py

from django.shortcuts import render, redirect from django.contrib.auth import login from django.contrib.auth.forms import UserCreationForm def register(request): """Register a new user""" if request.method != 'POST': # Display blank registration form form = UserCreationForm() else: # Process completed form form = UserCreationForm(data=request.POST) if form.is_valid(): new_user = form.save() # Log the user in and the redirect to home page login(request, new_user) return redirect('learning_logs:index') # Display a blank or invalid form context = {'form': form} return render(request, 'registration/register.html', context)

[ "swarnasridhar.98@gmail.com" ]

swarnasridhar.98@gmail.com

a6b5d5ca464b2d8e3bc8612f6d3025d5ccd694b2

0e8bca906671e3f00e7053ace4caedac4ac5170d

/server/methods/block.py

80f1fa93a6bf38326b2f8a5c73e0a62b71787ff7

[ "MIT" ]

permissive

akatama-ai/exp

f1be5439319fc54d0d41507f4cfca707a9d8a941

3853e1731621069c4e68c56830712e2a565c7381

refs/heads/master

2022-12-25T22:26:07.120431

2020-10-13T15:17:50

303,739,324

0

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UTF-8

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1,968

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from server.methods.transaction import Transaction from server import utils from server import cache import config class Block(): @classmethod def height(cls, height: int): data = utils.make_request("getblockhash", [height]) if data["error"] is None: txid = data["result"] data.pop("result") data["result"] = utils.make_request("getblock", [txid])["result"] print(data) # data["result"]["txcount"] = data["result"]["nTx"] # data["result"].pop("nTx") return data @classmethod def hash(cls, bhash: str): data = utils.make_request("getblock", [bhash]) # print("getblock",data) # if data["error"] is None: # # data["result"]["txcount"] = data["result"]["nTx"] # data["result"].pop("nTx") return data @classmethod @cache.memoize(timeout=config.cache) def get(cls, height: int): return utils.make_request("getblockhash", [height]) @classmethod def range(cls, height: int, offset: int): result = [] for block in range(height - (offset - 1), height + 1): data = utils.make_request("getblockhash", [block]) nethash = utils.make_request("getnetworkhashps", [120, block]) if data["error"] is None and nethash["error"] is None: bhash = data["result"] data.pop("result") data["result"] = utils.make_request("getblock", [bhash])["result"] data["result"]["nethash"] = int(nethash["result"]) # data["result"]["txcount"] = data["result"]["nTx"] # data["result"].pop("nTx") result.append(data["result"]) return result[::-1] @classmethod @cache.memoize(timeout=config.cache) def inputs(cls, bhash: str): data = cls.hash(bhash) return Transaction().addresses(data["result"]["tx"])

[ "support@quantex.live" ]

support@quantex.live

8280239b266e98ba4095c45bbb7de89748f65b1e

8a5645aa0746deb5eb500656f474d53e4ae07f92

/scripts/Qlearning/train2017.py

56a5d96663f2b55d3485366ab55e9c7c93e49cad

[]

no_license

mwg900/IRL_learning_ros

436280cbee6668436ead4ec60121ff87c7986156

e65c86411d80206a658cd0fb019bf84cf5a4f346

refs/heads/master

2021-08-04T12:19:52.804862

2017-11-24T01:56:52

96,281,482

1

0

null

UTF-8

Python

false

16,461

py

#!/usr/bin/env python #-*- coding: utf-8 -*- """ Ros node for Reinforcement learning Edited by Jeong-Hwan Moon, IRL, Pusan National UNIV. mwg900@naver.com Original algorithm : Double DQN (Nature 2015) http://web.stanford.edu/class/psych209/Readings/MnihEtAlHassibis15NatureControlDeepRL.pdf """ import numpy as np import tensorflow as tf import random import rospy import dqn import policy import register import sys import csv from collections import deque from IRL_learning_ros.srv import SpawnPos from IRL_learning_ros.msg import State from std_msgs.msg import Int8 from argparse import Action from tensorflow.contrib.keras.python.keras.datasets.cifar import load_batch STOP = 99 #Hyper parameter ENVIRONMENT = rospy.get_param('/driving_train/environment', 'v0') MODEL_PATH = rospy.get_param('/driving_train/model_path', default = 'model') INIT_EPISODE = rospy.get_param('/driving_train/init_episode', default = 0) LEARNING_RATE = rospy.get_param('/driving_train/learning_rate', default = 0.001) DISCOUNT_RATE = rospy.get_param('/driving_train/discount_rate', default = 0.9) REPLAY_MEMORY = rospy.get_param('/driving_train/replay_memory', default = 10000) BATCH_SIZE = rospy.get_param('/driving_train/batch_size', default = 64) TARGET_UPDATE_FREQUENCY = rospy.get_param('/driving_train/target_update_freq', default = 10) ACTION_BUFFER_SIZE = 3 if ENVIRONMENT == 'v0': INPUT_SIZE = register.environment.v0['input_size'] OUTPUT_SIZE = register.environment.v0['output_size'] POLICY = register.environment.v0['policy'] print('Autonomous_driving training v0 is ready') print(register.environment.v0) elif ENVIRONMENT == 'v1': INPUT_SIZE = register.environment.v1['input_size'] OUTPUT_SIZE = register.environment.v1['output_size'] POLICY = register.environment.v1['policy'] print('Autonomous_driving training v1 is ready') print(register.environment.v1) elif ENVIRONMENT == 'v2': INPUT_SIZE = register.environment.v1['input_size'] + ACTION_BUFFER_SIZE # v1 input!!!!! OUTPUT_SIZE = register.environment.v2['output_size'] POLICY = register.environment.v2['policy'] print('Autonomous_driving training v2 is ready') print(register.environment.v1) else: print("E: you select wrong environment. you must select ex) env:=v1 or env:=v0") sys.exit() class training: def __init__(self): node_name = "training2015" rospy.init_node(node_name) #ros topic 구독자 설정 및 콜백함수 정의 self.respawn = rospy.ServiceProxy('/model_respawn', SpawnPos) # 모델 위치 리셋용 Model state set 서비스 요청 함수 선언 state_sub = rospy.Subscriber("/state", State, self.state_callback, queue_size=100) self.pub = rospy.Publisher('/action', Int8, queue_size=10) self.rate = rospy.Rate(5) # 10hz -> 5Hz self.F = False self.call_once = 1 #done 플래그는 1번만 셋되게 해줌 self.episode = INIT_EPISODE #self.model_path = "/home/moon/model/driving.ckpt" self.model_path = MODEL_PATH +"/"+ENVIRONMENT+"/driving15"+ENVIRONMENT+".ckpt" def save_score(self, episode, score, cost): if episode == 1: with open(MODEL_PATH+"/result"+"/"+ENVIRONMENT+'/score.csv', 'w') as csvfile: #새로 쓰기 writer = csv.writer(csvfile, delimiter=',') writer.writerow([episode]+[score]+[cost]) else: with open(MODEL_PATH+"/result"+"/"+ENVIRONMENT+'/score.csv', 'a') as csvfile: #추가 writer = csv.writer(csvfile, delimiter=',') writer.writerow([episode]+[score]+[cost]) def write_batch(self, batch_buffer): with open(MODEL_PATH+'/'+ENVIRONMENT+'/'+ENVIRONMENT+'batch.csv', 'w') as csvfile: writer = csv.writer(csvfile, delimiter='\t') state = tuple(batch_buffer[0][0]) action = batch_buffer[0][1] reward = batch_buffer[0][2] next_state = tuple(batch_buffer[0][3]) done = batch_buffer[0][4] writer.writerow([state]+[action]+[reward]+[next_state]+[done]) with open(MODEL_PATH+'/'+ENVIRONMENT+'/'+ENVIRONMENT+'batch.csv', 'a') as csvfile: writer = csv.writer(csvfile, delimiter='\t') for row in batch_buffer: state = tuple(row[0]) action = row[1] reward = row[2] next_state = tuple(row[3]) done = row[4] writer.writerow([state]+[action]+[reward]+[next_state]+[done]) def load_batch(self): with open(MODEL_PATH+'/'+ENVIRONMENT+'/'+ENVIRONMENT+'batch.csv', 'rb') as csvfile: reader = csv.reader(csvfile, delimiter='\t') row_count = sum(1 for row in reader) print ("batch size is {}".format(row_count)) if row_count > 1: with open(MODEL_PATH+'/'+ENVIRONMENT+'/'+ENVIRONMENT+'batch.csv', 'rb') as csvfile: print("loading minibatch....") buf = deque(maxlen=REPLAY_MEMORY) reader = csv.reader(csvfile, delimiter='\t') for row in reader: state = row[0] #Parsing state = state.replace("(","") state = state.replace(")","") state = state.replace("[","") state = state.replace("]","") state = [float(x) for x in state.split(', ')] #tuple(state) action = int(row[1]) reward = float(row[2]) next_state = row[3] next_state = next_state.replace("(","") next_state = next_state.replace(")","") next_state = next_state.replace("[","") next_state = next_state.replace("]","") next_state = [float(x) for x in next_state.split(', ')] #tuple(next_state) done = row[4] if done == 'True': done = True else: done = False buf.append((state, action, reward, next_state, done)) print('Buffer loaded') else: buf = deque(maxlen=REPLAY_MEMORY) return buf #Laser 토픽 콜백 def state_callback(self, msg): self.state = msg.ranges self.done = msg.done self.F = True def get_copy_var_ops(self, dest_scope_name, src_scope_name): # main과 target의 W값을 카피해줌 """Creates TF operations that copy weights from `src_scope` to `dest_scope` Args: dest_scope_name (str): Destination weights (copy to) src_scope_name (str): Source weight (copy from) Returns: List[tf.Operation]: Update operations are created and returned """ # Copy variables src_scope to dest_scope op_holder = [] src_vars = tf.get_collection(tf.GraphKeys.TRAINABLE_VARIABLES, scope=src_scope_name) dest_vars = tf.get_collection(tf.GraphKeys.TRAINABLE_VARIABLES, scope=dest_scope_name) for src_var, dest_var in zip(src_vars, dest_vars): # zip - 하나로 묶어주는 함수 op_holder.append(dest_var.assign(src_var.value())) # dest_var = src_var와 동일한 의미 return op_holder def train_minibatch(self, mainDQN, targetDQN, train_batch): #if ENVIRONMENT == 'v2': #state_array = np.vstack([np.append(np.array([x[0] for x in train_batch]),np.array([x[5] for x in train_batch]))]) #next_state_array = np.vstack([np.append(np.array([x[3] for x in train_batch]),np.array([x[5] for x in train_batch]))]) #nstate 배열 [[BATCH_SIZE][INPUT_SIZE]] state_array = np.vstack([x[0] for x in train_batch]) #state 배열 [[BATCH_SIZE][INPUT_SIZE]] action_array = np.array([x[1] for x in train_batch]) #action 배열 [[BATCH_SIZE][OUTPUT_SIZE]] reward_array = np.array([x[2] for x in train_batch]) #reward 배열 [[BATCH_SIZE][1]] next_state_array = np.vstack([x[3] for x in train_batch]) #nstate 배열 [[BATCH_SIZE][INPUT_SIZE]] done_array = np.array([x[4] for x in train_batch]) #done 배열 [[BATCH_SIZE][1]] X_batch = state_array #state 배열 [[BATCH_SIZE][9]] y_batch = mainDQN.predict(state_array, 0.5) # [[BATCH_SIZE][OUTPUT_SIZE]] Q_target = reward_array + DISCOUNT_RATE * np.max(targetDQN.predict(next_state_array, 0.5), axis=1) * ~done_array # not done 플래그를 곱해주어 done일 시 reward를 제외한 Q의 값은 0으로 만들어준다. y_batch[np.arange(len(X_batch)), action_array] = Q_target # Train our network using target and predicted Q values on each episode loss, _ = mainDQN.update(X_batch, y_batch, 0.5) return loss def talker(self): # store the previous observations in replay memory #replay_buffer = deque(maxlen=REPLAY_MEMORY) replay_buffer = self.load_batch() #파일로부터 배치 로드 action_buffer = deque([3,3,3,3,3], maxlen = ACTION_BUFFER_SIZE) last_20_episode_reward = deque(maxlen=20) highest = -9999. loss = 10. with tf.Session() as sess: mainDQN = dqn.DQN(sess, INPUT_SIZE, OUTPUT_SIZE, learning_rate = LEARNING_RATE, name = "main") #DQN class 선언 targetDQN = dqn.DQN(sess, INPUT_SIZE, OUTPUT_SIZE, learning_rate = LEARNING_RATE, name ="target") init = tf.global_variables_initializer() saver = tf.train.Saver(max_to_keep= 5) sess.run(init) #------------------------------------------------------------------------------ # Model load #------------------------------------------------------------------------------ if INIT_EPISODE is not 0: load_epi = str(INIT_EPISODE) model_name = self.model_path+"-"+load_epi saver.restore(sess, model_name) #저장된 데이터 불러오기 print("Model restored from {}".format(model_name)) #------------------------------------------------------------------------------ copy_ops = self.get_copy_var_ops(dest_scope_name ="target", src_scope_name ="main") sess.run(copy_ops) print('Q-learning 2015 Traning ready') print('l_rate : {}, update_freq : {}, batch_size : {}'.format(LEARNING_RATE, TARGET_UPDATE_FREQUENCY, BATCH_SIZE)) while not rospy.is_shutdown(): while self.F: self.episode += 1 e = 1. / ((self.episode / 10) + 1) done = False reward_sum = 0 frame_count = 0 # The DQN traning while not done: frame_count += 1 state = self.state state = np.append(state, action_buffer) done = self.done if np.random.rand() < e: action = random.randrange(0,OUTPUT_SIZE) else: try: action = np.argmax(mainDQN.predict(state, 0.5)) except: print('error, state is {}'.format(state)) if done == False: self.pub.publish(action) #액션 값 퍼블리시 rospy.sleep(0.12) #0.1초 딜레이 next_state = self.state action_buffer.append(action) next_state = np.append(next_state, action_buffer) done = self.done # Reward Policy try: if POLICY == 'autonomous_driving': reward = policy.autonomous_driving(action, done) #reward 리턴 elif POLICY == 'autonomous_driving1': reward = policy.autonomous_driving1(action, done) #reward 리턴 except: print('there is no policy') replay_buffer.append((state, action, reward, next_state, done)) #print(replay_buffer) if len(replay_buffer) > BATCH_SIZE: minibatch = random.sample(replay_buffer, BATCH_SIZE) loss = self.train_minibatch(mainDQN, targetDQN, minibatch) #학습 if frame_count % TARGET_UPDATE_FREQUENCY == 0: #네트워크 복사 sess.run(copy_ops) reward_sum += reward print("action : {:>5}, current score : {:>5}".format(action, reward_sum)) print("[episode {:>5}] score was {:>5} in {:>5} frame, batch_size:{:>5}".format(self.episode, reward_sum, frame_count, len(replay_buffer))) if reward_sum > highest: highest = reward_sum #------------------------------------------------------------------------------ #save model self.save_score(self.episode, reward_sum, loss) # score, cost 저장 if self.episode % 30 == 0: self.write_batch(replay_buffer) # 배치 저장 save_path = saver.save(sess, self.model_path, global_step=self.episode) #모델 저장 print("Data save in {}".format(save_path)) #------------------------------------------------------------------------------ #Traning complete condition if reward_sum >= 1000: result = 1 else: result = 0 self.pub.publish(STOP) #액션 값 퍼블리시 rospy.sleep(0.2) self.respawn() #리스폰 요청은 한번만 rospy.wait_for_service('gazebo/reset_world') #reset 될 때까지 대기 rospy.sleep(0.1) self.F = False #플래그 언셋 후 다음 학습까지 대기 last_20_episode_reward.append(result) if (len(last_20_episode_reward) == last_20_episode_reward.maxlen): #20번 이상 시도 success_rate = np.mean(last_20_episode_reward) * 100 if success_rate > 70.0: #20번 연속 학습의 평균 성공률이 50% 이상이면 학습 종료 후 저장 print("Traning Cleared within {} episodes with avg rate {}".format(episode, success_rate)) #save data save_path = saver.save(sess, self.model_path, global_step=9999999999) print("Data save in {}".format(save_path)) break print("Success_rate : {:>5}%, Highest score : {:>5}".format(success_rate, highest)) if __name__ == '__main__': try: main = training() main.talker() except rospy.ROSInterruptException: pass

[ "mwg900@naver.com" ]

mwg900@naver.com

960bf078906eed81ae4b67403ac5548f517d0098

f7e7b312bd80bd27ef9f59ca09cbb835b158b462

/allmusic/allmusic/middlewares.py

9fe652995488e32012b78113db82440fa0eea025

[]

no_license

omarriaga/web-semantic-crawler

98fe8f35d4ede6bfa3b2c016444cfdd39bae60e2

767d57ea4f8b71a6c0886002d9b94a4bc6233b5c

refs/heads/master

2021-01-17T06:10:25.741899

2017-03-30T22:18:40

83,147,363

0

null

UTF-8

Python

false

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py

# -*- coding: utf-8 -*- # Define here the models for your spider middleware # # See documentation in: # http://doc.scrapy.org/en/latest/topics/spider-middleware.html from scrapy import signals class AllmusicSpiderMiddleware(object): # Not all methods need to be defined. If a method is not defined, # scrapy acts as if the spider middleware does not modify the # passed objects. @classmethod def from_crawler(cls, crawler): # This method is used by Scrapy to create your spiders. s = cls() crawler.signals.connect(s.spider_opened, signal=signals.spider_opened) return s def process_spider_input(response, spider): # Called for each response that goes through the spider # middleware and into the spider. # Should return None or raise an exception. return None def process_spider_output(response, result, spider): # Called with the results returned from the Spider, after # it has processed the response. # Must return an iterable of Request, dict or Item objects. for i in result: yield i def process_spider_exception(response, exception, spider): # Called when a spider or process_spider_input() method # (from other spider middleware) raises an exception. # Should return either None or an iterable of Response, dict # or Item objects. pass def process_start_requests(start_requests, spider): # Called with the start requests of the spider, and works # similarly to the process_spider_output() method, except # that it doesn’t have a response associated. # Must return only requests (not items). for r in start_requests: yield r def spider_opened(self, spider): spider.logger.info('Spider opened: %s' % spider.name)

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ojmarriagac@zurich.co

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/posts/migrations/0001_initial.py

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[]

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paraiccooney/Django-blog

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refs/heads/master

2021-06-14T03:43:55.262325

2019-08-18T19:05:57

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# -*- coding: utf-8 -*- # Generated by Django 1.11 on 2019-08-18 08:59 from __future__ import unicode_literals from django.db import migrations, models import django.utils.timezone class Migration(migrations.Migration): initial = True dependencies = [ ] operations = [ migrations.CreateModel( name='Post', fields=[ ('id', models.AutoField(auto_created=True, primary_key=True, serialize=False, verbose_name='ID')), ('title', models.CharField(max_length=200)), ('content', models.TextField()), ('created_date', models.DateTimeField(auto_now_add=True)), ('published_date', models.DateTimeField(blank=True, default=django.utils.timezone.now, null=True)), ('views', models.IntegerField(default=0)), ('tag', models.CharField(blank=True, max_length=30, null=True)), ('image', models.ImageField(blank=True, null=True, upload_to='img')), ], ), ]

[ "ubuntu@ip-172-31-81-46.ec2.internal" ]

ubuntu@ip-172-31-81-46.ec2.internal

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/dummy_mp.py

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[]

no_license

P2PSP/SDN-P2P

7361f31f27dc00d614513f001b7269027fe133cc

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refs/heads/master

2020-04-02T17:24:02.555855

2018-10-25T11:11:44

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import socket import argparse from random import randint from dummy_hp import DummyHP class DummyMP(DummyHP): def __init__(self, port, splitter, peer_list, targets, split): super().__init__(port, splitter, peer_list) self.targets = targets self.port = port self.split = split print("I'm a DummyMP") def run(self): while True: data, address = self.receive() print("{} received from {}".format(data, address)) if data == "-9": exit() if address[0] == self.splitter: if len(self.targets) == 0: p = randint(1, len(peer_list)) if args.split: if p <= hosts//2: target = ("10.0.0."+str(p), self.port) else: target = ("11.0.0."+str(p), self.port) else: target = ("10.0.0."+str(p), self.port) targets = [target] print("New Target: {}".format(targets[0])) else: targets = self.targets[:] for p in self.peer_list: if p in targets: self.send(0, p) print("\t{} sent to {} Attack!". format(str(0), p)) else: self.send(data, p) print("\t{} sent to {}".format(data, p)) if __name__ == "__main__": parser = argparse.ArgumentParser() parser.add_argument("-p", "--port", type=int, help="UDP port used by peers") parser.add_argument("-s", "--splitter", type=str, help="Splitter address") parser.add_argument("-z", "--size", type=int, help="Team size (without splitter)") parser.add_argument("-t", "--targets", type=int, nargs='+', help="List of peer to attack (ex. 1 2 4)") parser.add_argument("-e", "--extra_peers", default=0, type=int, help="Peers out of the SDN") parser.add_argument("--split", default=False, action='store_true', help="Distribute the team in 2 switches") args = parser.parse_args() peer_list = [] hosts = args.size+1 if args.split: for p in range(0, hosts//2): peer_list.append(("10.0.0."+str(p+1), args.port)) for p in range(hosts//2, hosts-1): peer_list.append(("11.0.0."+str(p+1), args.port)) for p in range(hosts, hosts + args.extra_peers): peer_list.append(("172.31.31."+str(p+1), args.port)) else: for p in range(0, hosts-1): peer_list.append(("10.0.0."+str(p+1), args.port)) s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM) s.connect((args.splitter, 1)) local_ip_address = s.getsockname()[0] print("Local IP {}".format(local_ip_address)) peer_list.remove((local_ip_address, args.port)) print("Peers List:{}".format(peer_list)) targets = [] for p in args.targets: if p != 0: if args.split: if p <= hosts//2: targets.append(("10.0.0."+str(p), args.port)) elif p > hosts//2 and p < hosts: targets.append(("11.0.0."+str(p), args.port)) else: targets.append(("172.31.31."+str(p), args.port)) else: targets.append(("10.0.0."+str(p), args.port)) print("Targets List:{}".format(targets)) peer = DummyMP(args.port, args.splitter, peer_list, targets, args.split) peer.run()

[ "cristobalmedinalopez@gmail.com" ]

cristobalmedinalopez@gmail.com

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/QgAwpaFWD2jtxZ2wG_8.py

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[]

no_license

daniel-reich/turbo-robot

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refs/heads/main

2023-03-26T01:55:14.210264

2021-03-23T16:08:01

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""" Given an integer `n`. Your task is to find how many digits this integer contains without using `str` or `len` methods! ### Examples sum_digits(100) ➞ 3 sum_digits(1000) ➞ 4 sum_digits(1) ➞ 1 ### Notes N/A """ def sum_digits(n): count=0 if n==0: return 1 while n!=0: n//=10 count+=1 return count

[ "daniel.reich@danielreichs-MacBook-Pro.local" ]

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/src/crawl_essay/essayistclub/crawl.py

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inyeoplee77/wallE

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refs/heads/master

2021-01-10T10:17:55.836983

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from bs4 import BeautifulSoup import urllib base = "http://www.essayistclub.or.kr/" for i in range(1,100): for j in range(1,10): if(i<10): r = urllib.urlopen(base + '0' + str(i) + 'm' + '0' + str(j) + '.htm').read() else: r = urllib.urlopen(base + str(i) + 'm' + '0' + str(j) + '.htm').read() b = BeautifulSoup(r) if '404' in b.find('title').text: break else: text = BeautifulSoup(r).find('table').text print text

[ "blackin77@gmail.com" ]

blackin77@gmail.com

2c0fb6e959d438a0f6cb398bfcf5ef68f24b6561

dfc3fae15b8d392b1e742ef1cd40353225659e1f

/load_model_gradcam.py

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[]

no_license

sahar2012/GradCAM-for-cloud-ml

c1154ac503608ae62096628ed691a6d5cb2738b8

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refs/heads/master

2020-10-02T02:39:54.556102

2019-12-12T20:03:36

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# # Cloud for ML Final Project # Sahar Siddiqui # load_model_gradcam.py # import base64 import os import uuid from model.alexnet import load from model.alexnet import predict as predict_alexnet from model.crop_gradcam import crop_relevant # ----------------------------------------------------- # -- Inference # ----------------------------------------------------- def predict(img): """ Returns in JSON format the class, probability of class, the GradCAM output image, the cropped image @param img: @return: """ # Write down to tmp file filename = str(uuid.uuid4()) + ".jpg" filepath = os.path.join("tmp", filename) img.save(filepath) # Infer class (cls, conf, idx) = sorted(predict_alexnet(img, load()), reverse=True)[0] # Write to output file output = os.path.join("output", filename) cropped_output = os.path.join("output", 'cropped_' + filename) output_unguided = os.path.join("output", 'unguided_gradcam_' + filename) crop_relevant(filepath, imagenet_class_number=idx, gradcam_output_file=output,cropped_output_file=cropped_output, unguided_gradcam_output_file=output_unguided) # Output file to base64 with open(output, "rb") as fp: encoded_img = base64.b64encode(fp.read()) # Cropped Output file to base64 with open(cropped_output, "rb") as fp: encoded_cropped_img = base64.b64encode(fp.read()) # Cropped Output file to base64 with open(output_unguided, "rb") as fp: encoded_unguided_img = base64.b64encode(fp.read()) # Remove tmp and output files os.remove(filepath) os.remove(output) os.remove(cropped_output) response = {'class': str(cls), 'probability': float(conf), 'gradCAM': encoded_img.decode('utf-8'), 'cropped': encoded_cropped_img.decode('utf-8'), 'gradCAM_unguided': encoded_unguided_img.decode('utf-8') } return response

[ "noreply@github.com" ]

noreply@github.com

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/tastypiepackage/urls.py

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[ "MIT" ]

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shihyu/django-tastypie-package

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84fe187bcda46de74902f0c9e0e65b2a2545ba04

refs/heads/master

2022-10-05T01:05:19.970569

2020-04-19T13:09:22

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"""tastypiepackage URL Configuration The `urlpatterns` list routes URLs to views. For more information please see: https://docs.djangoproject.com/en/3.0/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 from musics.resources import music_resource from tastypie.api import Api v1_api = Api(api_name='v1') v1_api.register(music_resource) urlpatterns = [ path('admin/', admin.site.urls), path('api/', include(v1_api.urls)) ]

[ "mikekuforgit@gmail.com" ]

mikekuforgit@gmail.com

59f993cae497a321515dbb28d5ce0ff639b302d3

96c653b932e4808b3d2c6f43972ce55a7febbd71

/Strategies/Sklearn_LOO.py

845f6f2e37f502e679d534f57530f5cbbbb2d5f3

[]

no_license

TheMVS/tfm_deep_learning_alzheimer

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1ce42ddb6367be601eedd3c46dce8b5c85b7f4a9

refs/heads/master

2020-04-15T22:54:11.764335

2019-01-19T16:21:22

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from Strategies.Abstract.Strategy import Strategy class Sklearn_LOO(Strategy): def __init__(self, params): 'Constructor' super(Sklearn_LOO, self).__init__('Sklearn_LOO', params) def fit(self, model, data): import time import keras import numpy from sklearn.model_selection import LeaveOneOut architecture = model.get_model() sklearn_model = model.get_sklearn_model() params = self.get_params() data_X = data['X'] Y = data['Y'] if model.get_name().lower() == 'vgg16': data_X = self.prepare_data(data_X, True) elif model.get_name().lower() == 'mobile_net' or model.get_name().lower() == 'resnet' or model.get_name().lower() == 'unet': data_X = self.prepare_data(data_X, False) X = [] for element in data_X: shape = element.shape input = numpy.array(element) input = input.reshape(1, shape[0], shape[1], shape[2]) X.append(architecture.predict(input, batch_size=1)[0]) X = numpy.array(X) title = model.get_name() + '_' + time.strftime("%Y_%m_%d_%H_%M_%S") loo = LeaveOneOut() loo.get_n_splits(X) count = 1 test_results = [] test_orig = [] for train, test in loo.split(X, Y): X_train, X_test = X[train], X[test] Y_train, Y_test = Y[train], Y[test] if self.get_params()['verbose']: print('Fold: ' + str(count)) # Class weight if there are unbalanced classes from sklearn.utils import class_weight # class_weight = class_weight.compute_class_weight('balanced',numpy.unique(Y), Y) sample_weight = class_weight.compute_sample_weight(class_weight='balanced', y=Y_train) # Fit the architecture sklearn_model.fit(X_train, Y_train, sample_weight=sample_weight) # Evaluate the architecture print('Evaluation metrics\n') if (self.get_params()['sklearn_model'].lower() != 'linear_regression'): Y_predicted = sklearn_model.predict(X_test) test_results += Y_predicted.tolist() test_orig += Y_test.tolist() else: Y_predicted = [0 if x < 0.5 else 1 for x in sklearn_model.predict(X_test).tolist()] test_results += Y_predicted test_orig += [int(numpy.round(x)) for x in Y_test.tolist()] count += 1 import csv with open(title + '_test_output.csv', 'w+') as file: wr = csv.writer(file) wr.writerow(test_results) file.close() if params['problem_type'].lower() == 'classification': scores = self.classification_metrics(numpy.array(test_results), test_orig, numpy.unique(Y)) else: scores = self.regression_metrics(numpy.array(test_results), test_orig) global_score_mean = scores global_score_std = scores if params['problem_type'].lower() == 'classification': metrics_names = ["sklearn_acc", "tn", "fp", "fn", "tp", "precision", "recall", "specificity", "f1", "auc_roc", "k"] else: metrics_names = ["mae", "r2"] file = open(title + '_results.txt', 'w') for count in range(len(metrics_names)): file.write(str(metrics_names[count]) + ": " + str( numpy.around(global_score_mean[count], decimals=4)) + chr(177) +str(numpy.around(global_score_std[count],decimals=4))+ '\n') file.close()

[ "apte3@hotmail.com" ]

apte3@hotmail.com

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/prngmgr/migrations/0007_auto_20161008_1643.py

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refs/heads/master

2021-01-19T00:51:26.798203

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# -*- coding: utf-8 -*- from __future__ import unicode_literals from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('prngmgr', '0006_auto_20161008_1336'), ] operations = [ migrations.AlterField( model_name='peeringsession', name='previous_state', field=models.CharField(default=b'None', max_length=12), ), ]

[ "benm@workonline.co.za" ]

benm@workonline.co.za

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/servidor.py

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[]

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caio-cacador/ccek-19283

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refs/heads/master

2020-07-18T10:47:11.300300

2019-09-04T16:51:35

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# /usr/bin/python3 class Servidor(): def __init__(self, umax): self.usuarios = [] self.custo = 0 self.umax = umax def is_empty(self): return len(self.usuarios) == 0 def is_full(self): return len(self.usuarios) == self.umax def update(self): self.custo += 1 for __usuario in self.usuarios: __usuario.decrement() def getTotalTtask(self): total = 0 for user in self.usuarios: total += user.ttask return total

[ "caiocacador.s@gmail.com" ]

caiocacador.s@gmail.com

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/backend/backend/settings.py

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[]

no_license

nayan9229/ProjectManger

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refs/heads/master

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""" Django settings for backend project. Generated by 'django-admin startproject' using Django 2.2.6. For more information on this file, see https://docs.djangoproject.com/en/2.2/topics/settings/ For the full list of settings and their values, see https://docs.djangoproject.com/en/2.2/ref/settings/ """ import os # Build paths inside the project like this: os.path.join(BASE_DIR, ...) BASE_DIR = os.path.dirname(os.path.dirname(os.path.abspath(__file__))) # Quick-start development settings - unsuitable for production # See https://docs.djangoproject.com/en/2.2/howto/deployment/checklist/ # SECURITY WARNING: keep the secret key used in production secret! SECRET_KEY = '3acgnxroctd02)oysqv(exnzviuq(jmo0^-)s2%6f*omhgg!$+' # SECURITY WARNING: don't run with debug turned on in production! DEBUG = True ALLOWED_HOSTS = [] # Application definition INSTALLED_APPS = [ 'django.contrib.admin', 'django.contrib.auth', 'django.contrib.contenttypes', 'django.contrib.sessions', 'django.contrib.messages', 'django.contrib.staticfiles', 'corsheaders', 'rest_framework', 'todo', 'projects', ] MIDDLEWARE = [ 'corsheaders.middleware.CorsMiddleware', 'django.middleware.common.CommonMiddleware', 'django.middleware.security.SecurityMiddleware', 'django.contrib.sessions.middleware.SessionMiddleware', 'django.middleware.common.CommonMiddleware', 'django.middleware.csrf.CsrfViewMiddleware', 'django.contrib.auth.middleware.AuthenticationMiddleware', 'django.contrib.messages.middleware.MessageMiddleware', 'django.middleware.clickjacking.XFrameOptionsMiddleware', ] ROOT_URLCONF = 'backend.urls' TEMPLATES = [ { 'BACKEND': 'django.template.backends.django.DjangoTemplates', 'DIRS': [], 'APP_DIRS': True, 'OPTIONS': { 'context_processors': [ 'django.template.context_processors.debug', 'django.template.context_processors.request', 'django.contrib.auth.context_processors.auth', 'django.contrib.messages.context_processors.messages', ], }, }, ] WSGI_APPLICATION = 'backend.wsgi.application' # Database # https://docs.djangoproject.com/en/2.2/ref/settings/#databases DATABASES = { 'default': { 'ENGINE': 'django.db.backends.sqlite3', 'NAME': os.path.join(BASE_DIR, 'db.sqlite3'), } } # Password validation # https://docs.djangoproject.com/en/2.2/ref/settings/#auth-password-validators AUTH_PASSWORD_VALIDATORS = [ { 'NAME': 'django.contrib.auth.password_validation.UserAttributeSimilarityValidator', }, { 'NAME': 'django.contrib.auth.password_validation.MinimumLengthValidator', }, { 'NAME': 'django.contrib.auth.password_validation.CommonPasswordValidator', }, { 'NAME': 'django.contrib.auth.password_validation.NumericPasswordValidator', }, ] # Internationalization # https://docs.djangoproject.com/en/2.2/topics/i18n/ LANGUAGE_CODE = 'en-us' TIME_ZONE = 'UTC' USE_I18N = True USE_L10N = True USE_TZ = True # Static files (CSS, JavaScript, Images) # https://docs.djangoproject.com/en/2.2/howto/static-files/ STATIC_URL = '/static/' CORS_ORIGIN_ALLOW_ALL = True

[ "nayanmevada@ymail.com" ]

nayanmevada@ymail.com

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kbatten/stooldb

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refs/heads/master

2016-09-10T13:28:42.621666

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class Document(object): def __init__(self, data, id, rev): self.data = data self.id = id self.rev = rev def __repr__(self): return str({"id":self.id, "rev":self.rev, "value":self.data}) def __getitem__(self, key): return data[key]

[ "kbatten@gmail.com" ]

kbatten@gmail.com

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/calc_angle_between_two_locs.py

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refs/heads/master

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def calc_angle_between_two_locs(lon1_deg, lat1_deg, lon2_deg, lat2_deg): """ This function reads in two coordinates (in degrees) on the surface of a sphere and calculates the angle (in degrees) between them. """ # Import modules ... import math # Convert to radians ... lon1_rad = math.radians(lon1_deg) # [rad] lat1_rad = math.radians(lat1_deg) # [rad] lon2_rad = math.radians(lon2_deg) # [rad] lat2_rad = math.radians(lat2_deg) # [rad] # Calculate angle in radians ... distance_rad = 2.0 * math.asin( math.hypot( math.sin((lat1_rad - lat2_rad) / 2.0), math.cos(lat1_rad) * math.cos(lat2_rad) * math.sin((lon1_rad - lon2_rad) / 2.0) ) ) # [rad] # Return angle ... return math.degrees(distance_rad)

[ "t.m.guymer@thomasguymer.co.uk" ]

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from drift import * from hard_edge_transport import * from hard_edge_sol import * from accel import * import sys class Stage(HardEdgeTransport): """ A final cooling stage comprises: HardEdgeTransport with transport field comprising: (1) Drift (d1) (2) HardEdgeSol (3) Drift (d2) (4) Accel (Model 1 for now) (5) Drift (d3) """ num_params = 3 command_params_ext = { 'd1_len': {'desc': 'Length of drift 1', 'doc': 'Initial drift region of stage length from entrance of stage to HardEdgeSol', 'type': 'FLoat', 'req': True, 'pos': None}, 'd2_len': {'desc': 'Length of drift 2', 'doc': 'Drift region between HardEdgeSol and Accel', 'type': 'FLoat', 'req': True, 'pos': None}, 'd3_len': {'desc': 'Length of drift 3', 'doc': 'Drift region between Accel and exit of stage', 'type': 'FLoat', 'req': True, 'pos': None}, 'transport_field': {'desc': 'Transport field strength (Tesla)', 'doc': '', 'type': 'Float', 'req': True, 'pos': None}, 'absorber_field': {'desc': 'Field strength (Tesla)', 'doc': '', 'type': 'Float', 'req': True, 'pos': None}, 'absorber_length': {'desc': 'Length of absorber region', 'doc': '', 'type': 'Float', 'req': True, 'pos': None}, 'rf_length': {'desc': 'Length of rf region', 'doc': '', 'type': 'Float', 'req': True, 'pos': None}, 'zstep': {'desc': 'Z step', 'doc': '', 'type': 'Float', 'req': True, 'pos': None}, 'outstep': {'desc': 'Output stepping (Meter)', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Float', 'req': True, 'pos': None}, 'rhigh': {'desc': 'R high', 'doc': '', 'type': 'Float', 'req': True, 'pos': None}, 'hard_edge_sol': {'desc': 'Output stepping (Meter)', 'doc': 'Increment for output steps for constant B Field region', 'type': 'HardEdgeSol', 'req': False, 'pos': None}, 'drift1': {'desc': 'Output stepping (Meter)', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Drift', 'req': False, 'pos': None}, 'drift2': {'desc': 'Output stepping (Meter)', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Drift', 'req': False, 'pos': None}, 'drift3': {'desc': 'Output stepping (Meter)', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Drift', 'req': False, 'pos': None}, 'freq': {'desc': 'Frequency in MHz', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Float', 'req': True, 'pos': None}, 'grad': {'desc': 'Gradient on-axis at center of gap [MV/m]', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Float', 'req': True, 'pos': None}, 'phase': {'desc': 'Phase shift [deg] {0-360}.', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Float', 'req': True, 'pos': None}, 'rect_cyn': {'desc': 'Phase shift [deg] {0-360}.', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Float', 'req': True, 'pos': None}, 'mode': {'desc': 'Phase shift [deg] {0-360}.', 'doc': 'Increment for output steps for constant B Field region', 'type': 'Float', 'req': True, 'pos': None}} def __init__(self, **kwargs): if ICoolObject.check_command_params_init(self, Stage.command_params_ext, **kwargs) is False: sys.exit(0) HardEdgeTransport.__init__(self, flip=False, bs=self.transport_field) drift1=Drift(slen=self.d1_len, zstep=self.zstep, rhigh=self.rhigh, outstep=self.outstep) drift2=Drift(slen=self.d2_len, zstep=self.zstep, rhigh=self.rhigh, outstep=self.outstep) drift3=Drift(slen=self.d3_len, zstep=self.zstep, rhigh=self.rhigh, outstep=self.outstep) rf=Accel(model='ez', freq=self.freq, phase=self.phase, grad=self.grad, rect_cyn=self.rect_cyn, mode=self.mode) hard_edge_sol=HardEdgeSol(slen=self.absorber_length, outstep=self.outstep, mtag='LH', geom='CBLOCK', zstep=self.zstep, bs=self.absorber_field, rhigh=self.rhigh) self.add_enclosed_command(drift1) self.add_enclosed_command(hard_edge_sol) self.add_enclosed_command(drift2) rf_region = SRegion(slen=self.rf_length, nrreg=1, zstep=self.zstep) material = Material(mtag='VAC', geom='CBLOCK') rf_subregion = SubRegion(irreg=1, rlow=0, rhigh=self.rhigh, field=rf, material=material) rf_region.add_enclosed_command(rf_subregion) self.add_enclosed_command(rf_region) self.add_enclosed_command(drift3) def __call__(self, **kwargs): pass def __setattr__(self, name, value): self.__icool_setattr__(name, value) def __str__(self): return 'Stage' def gen_for001(self, file): HardEdgeTransport.gen_for001(self, file)

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jon@thesoniccloud.com

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2020-11-29T00:28:01.400698

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import tensorflow as tf import scipy.io.wavfile as wav from python_speech_features import mfcc,delta import os import numpy as np import sklearn.preprocessing path_film = os.path.abspath('.') path = path_film + "/data/xunlian/" test_path = path_film + "/data/test_data/" isnot_test_path = path_film + "/data/isnot_test_path/" # 使用one-hot编码，将离散特征的取值扩展到了欧式空间 # 全局one-hot编码空间 label_binarizer = "" def def_one_hot(x): if label_binarizer == "": binarizer = sklearn.preprocessing.LabelBinarizer() else: binarizer = label_binarizer binarizer.fit(range(max(x)+1)) y= binarizer.transform(x) # 标签二值化：以ont-hot向量表示多类标签 return y def read_wav_path(path): # 前面是路径，后面是文件名 map_path, map_relative = [str(path) + str(x) for x in os.listdir(path) if os.path.isfile(str(path) + str(x))], [y for y in os.listdir(path)] return map_path, map_relative def def_wav_read_mfcc(file_name): # 对wav文件进行mfcc操作 fs, audio = wav.read(file_name) processed_audio = mfcc(audio, samplerate=fs, nfft=2000) return processed_audio def matrix_make_up(audio): # 构建mfcc矩阵 new_audio = [] for aa in audio: zeros_matrix = np.zeros([700, 13],np.int8) a, b = np.array(aa).shape for i in range(a): for j in range(b): zeros_matrix[i, j] = zeros_matrix[i, j] + aa[i, j] new_audio.append(zeros_matrix) return new_audio, 700, 13 def read_wav_matrix(path): # 对wav文件进行mfcc操作并获取其labels和shape map_path, map_relative = read_wav_path(path) audio=[] labels=[] for idx, folder in enumerate(map_path): processed_audio_delta = def_wav_read_mfcc(folder) audio.append(processed_audio_delta) labels.append(int(map_relative[idx].split(".")[0].split("_")[0])) x_data, h, l = matrix_make_up(audio) x_data = np.array(x_data) x_label = np.array(def_one_hot(labels)) return x_data, x_label, h, l # 初始化权值 def weight_variable(shape,name): initial = tf.truncated_normal(shape,stddev=0.01) # 生成一个截断的正态分布 return tf.Variable(initial,name=name) # 初始化偏置 def bias_variable(shape,name): initial = tf.constant(0.01,shape=shape) return tf.Variable(initial,name=name) # 卷积层 def conv2d(x,W): # x input tensor of shape `[batch, in_height, in_width, in_channels]` # W filter / kernel tensor of shape [filter_height, filter_width, in_channels, out_channels] # `strides[0] = strides[3] = 1`. strides[1]代表x方向的步长，strides[2]代表y方向的步长 # padding: A `string` from: `"SAME", "VALID"` return tf.nn.conv2d(x,W,strides=[1,1,1,1],padding='SAME') # 池化层 def max_pool_2x2(x): # ksize [1,x,y,1] return tf.nn.max_pool(x,ksize=[1,2,2,1],strides=[1,2,2,1],padding='SAME') def train_main(path,test_path): x_train, y_train, h, l = read_wav_matrix(path) x_test, y_test, h, l = read_wav_matrix(test_path) print(x_train.shape) m,n = y_train.shape # 命名空间 # 定义两个placeholder x = tf.placeholder(tf.float32, [None, h, l], name='x-input') y = tf.placeholder(tf.float32, [None, n], name='y-input') # 改变x的格式转为4D的向量[batch, in_height, in_width, in_channels]` x_image = tf.reshape(x, [-1, h, l, 1], name='x_image') # 初始化第一个卷积层的权值和偏置 W_conv1 = weight_variable([5, 5, 1, 32], name='W_conv1') # 5*5的采样窗口，32个卷积核从3个平面抽取特征 b_conv1 = bias_variable([32], name='b_conv1') # 每一个卷积核一个偏置值 # 把x_image和权值向量进行卷积，再加上偏置值，然后应用于relu激活函数 conv2d_1 = conv2d(x_image, W_conv1) + b_conv1 h_conv1 = tf.nn.leaky_relu(conv2d_1) h_pool1 = max_pool_2x2(h_conv1) # 进行max-pooling # 初始化第二个卷积层的权值和偏置 W_conv2 = weight_variable([5, 5, 32, 64], name='W_conv2') # 5*5的采样窗口，64个卷积核从32个平面抽取特征 b_conv2 = bias_variable([64], name='b_conv2') # 每一个卷积核一个偏置值 # 把h_pool1和权值向量进行卷积，再加上偏置值，然后应用于relu激活函数 conv2d_2 = conv2d(h_pool1, W_conv2) + b_conv2 h_conv2 = tf.nn.leaky_relu(conv2d_2) h_pool2 = max_pool_2x2(h_conv2) # 进行max-pooling # 300*300的图片第一次卷积后还是300*300，第一次池化后变为150*150 # 第二次卷积后为150*150，第二次池化后变为了75*75 # 进过上面操作后得到64张75*75的平面 # 初始化第一个全连接层的权值 W_fc1 = weight_variable([175 * 4 * 64, 1024], name='W_fc1') # 上一场有75*75*64个神经元，全连接层有1024个神经元 b_fc1 = bias_variable([1024], name='b_fc1') # 1024个节点 # 把池化层2的输出扁平化为1维 h_pool2_flat = tf.reshape(h_pool2, [-1, 175 * 4 * 64], name='h_pool2_flat') # 求第一个全连接层的输出 wx_plus_b1 = tf.matmul(h_pool2_flat, W_fc1) + b_fc1 h_fc1 = tf.nn.leaky_relu(wx_plus_b1) # keep_prob用来表示神经元的输出概率 keep_prob = tf.placeholder(tf.float32, name='keep_prob') h_fc1_drop = tf.nn.dropout(h_fc1, keep_prob, name='h_fc1_drop') # 初始化第二个全连接层 W_fc2 = weight_variable([1024, n], name='W_fc2') b_fc2 = bias_variable([n], name='b_fc2') wx_plus_b2 = tf.matmul(h_fc1_drop, W_fc2) + b_fc2 # 计算输出 prediction = tf.nn.leaky_relu(wx_plus_b2) tf.add_to_collection('predictions', prediction) p = tf.nn.softmax(wx_plus_b2) tf.add_to_collection('p', p) # 交叉熵代价函数 cross_entropy = tf.reduce_mean(tf.nn.softmax_cross_entropy_with_logits(labels=y, logits=prediction), name='cross_entropy') # 使用AdamOptimizer进行优化 train_step = tf.train.AdamOptimizer(1e-5).minimize(cross_entropy) # train_step = tf.train.GradientDescentOptimizer(5).minimize(cross_entropy) # 求准确率 # 结果存放在一个布尔列表中 correct_prediction = tf.equal(tf.argmax(prediction, 1), tf.argmax(y, 1)) # argmax返回一维张量中最大的值所在的位置 # 求准确率 accuracy = tf.reduce_mean(tf.cast(correct_prediction, tf.float32)) # 保存模型使用环境 saver = tf.train.Saver() with tf.Session() as sess: sess.run(tf.global_variables_initializer()) # 创建一个协调器，管理线程 coord = tf.train.Coordinator() # 启动QueueRunner, 此时文件名队列已经进队 threads = tf.train.start_queue_runners(sess=sess, coord=coord) for i in range(100001): # 训练模型 sess.run(train_step, feed_dict={x: x_train, y: y_train, keep_prob: 1.0}) # 存储graph至tensorboard summary_writer = tf.summary.FileWriter('./log/', sess.graph) test_acc = sess.run(accuracy, feed_dict={x: x_test, y: y_test, keep_prob: 1.0}) train_acc = sess.run(accuracy, feed_dict={x: x_train, y: y_train, keep_prob: 1.0}) print("训练第 " + str(i) + " 次, 训练集准确率= " + str(train_acc) + " , 测试集准确率= " + str(test_acc)) if test_acc == 1 and train_acc >= 0.95: print("训练集和测试集准确率均达到100%") # 保存模型 saver.save(sess, 'nn/my_net.ckpt') break # 通知其他线程关闭 coord.request_stop() # 其他所有线程关闭之后，这一函数才能返回 coord.join(threads) def test_main(isnot_test_path): # 本地情况下生成数据 x_test, y_test, h, l = read_wav_matrix(isnot_test_path) m,n = y_test.shape # 迭代网络 with tf.Session() as sess: # 保存模型使用环境 saver = tf.train.import_meta_graph("nn/my_net.ckpt.meta") saver.restore(sess, 'nn/my_net.ckpt') predictions = tf.get_collection('predictions')[0] p = tf.get_collection('p')[0] graph = tf.get_default_graph() input_x = graph.get_operation_by_name('x-input').outputs[0] keep_prob = graph.get_operation_by_name('keep_prob').outputs[0] for i in range(m): result = sess.run(predictions, feed_dict={input_x: np.array([x_test[i]]),keep_prob:1.0}) pre_prob = sess.run(p, feed_dict={input_x: np.array([x_test[i]]), keep_prob: 1.0}) print("取值置信度"+str(pre_prob)) print("实际 :"+str(np.argmax(y_test[i]))+" ,预测: "+str(np.argmax(result))+" ,预测可靠度: "+str(np.max(pre_prob))) if __name__ == '__main__': train_main(path,test_path) # test_main(isnot_test_path)

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from xai.brain.wordbase.adjectives._inferior import _INFERIOR #calss header class _INFERIORS(_INFERIOR, ): def __init__(self,): _INFERIOR.__init__(self) self.name = "INFERIORS" self.specie = 'adjectives' self.basic = "inferior" self.jsondata = {}

[ "xingwang1991@gmail.com" ]

xingwang1991@gmail.com

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import requests import unittest class Test(unittest.TestCase): def setUp(self) -> None: self.__host = 'https://rulab.icyftl.ru/' self.__purchases_host = self.__host + 'purchases' self.__shop_host = self.__host + 'shop' self.__factory_host = self.__host + 'factory' self.__shop_password = 'lol' def test_upstate(self): try: shop_state = requests.get(self.__shop_host).status_code purchases_state = requests.get(self.__purchases_host).status_code factory_state = requests.get(self.__factory_host).status_code self.assertEqual(shop_state, 200) self.assertEqual(purchases_state, 200) self.assertEqual(factory_state, 200) except Exception as e: raise AssertionError('Some services are down or something went wrong\n' + str(e)) def test_create_shop(self): try: shop = requests.post(self.__shop_host + '/create', json={ "name": "UTest", "address": "UTest", "number": "79167031312" }, headers={'XXX-CODE': self.__shop_password}) self.assertEqual(shop.status_code, 201) except: raise AssertionError('Shop service is down or something went wrong') def test_add_items(self): try: shop = requests.put(self.__shop_host + '/1/add_items', json={ "items": [ { "name": "TestCake", "category": "TestCakes", "count": 100 } ] }, headers={'XXX-CODE': self.__shop_password}) self.assertEqual(shop.status_code, 201) except Exception as e: raise AssertionError('Shop service is down or something went wrong\n' + str(e)) def test_new_purchase(self): try: slots = requests.get(self.__shop_host + '/1/get_slots').json() self.assertTrue(any([x['name'] == 'testcake' for x in slots['response']['result']])) slots = slots['response']['result'] slot = None for x in slots: if x['name'] == 'testcake': slot = x break r = requests.post(self.__shop_host + '/1/new_purchase', json={ "slot_id": slot['id'], "count": 1, "user_id": 1, "method": "card" }) self.assertEqual(r.status_code, 200) r = requests.post(self.__shop_host + '/1/new_purchase', json={ "slot_id": slot['id'], "count": 100, "user_id": 1, "method": "card" }) self.assertEqual(r.status_code, 424) except Exception as e: raise AssertionError('Shop service is down or something went wrong\n' + str(e)) if __name__ == '__main__': unittest.main()

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savap0@yandex.ru

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""" WSGI config for GGames project. It exposes the WSGI callable as a module-level variable named ``application``. For more information on this file, see https://docs.djangoproject.com/en/3.1/howto/deployment/wsgi/ """ import os from django.core.wsgi import get_wsgi_application os.environ.setdefault('DJANGO_SETTINGS_MODULE', 'GGames.settings') application = get_wsgi_application()

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__copyright__ = "Copyright (c) 2021 Jina AI Limited. All rights reserved." __license__ = "Apache-2.0" import numpy as np import torch from jina.executors.decorators import batching, as_ndarray from jina.executors.encoders.frameworks import BaseTorchEncoder from jina.executors.devices import TorchDevice class FaceNetEncoder(BaseTorchEncoder, TorchDevice): """FaceNetEncoder encodes face images into an embedding with 512 dimensions. Works best with outputs from FaceNetSegmenter (e.g. images with faces, 160x160, normalized). - Input shape: `BatchSize x (Channels x Height x Width)` - Output shape: `BatchSize x 512` `Channels` dimension can be changed (e.g. set `channel_axis` to 1 for channels-first mode instead of channels-last). :param pretrained_weights: Weights to use for face embedder. Options: "vggface2", "casia-webface" :param channel_axis: Axis of channels in the image. Default is 3 (channels-last), use 1 for channels-first. """ def __init__(self, pretrained_weights: str = 'vggface2', channel_axis: int = 1, *args, **kwargs): super().__init__(*args, **kwargs) self.pretrained_weights = pretrained_weights self.channel_axis = channel_axis self._default_channel_axis = 1 def post_init(self): from facenet_pytorch import InceptionResnetV1 self.model = InceptionResnetV1(pretrained=self.pretrained_weights, classify=False, device=self.device).eval() self.model.to(self.device) @batching @as_ndarray def encode(self, content: 'np.ndarray', *args, **kwargs) -> 'np.ndarray': """Transform a numpy `ndarray` of shape `BatchSize x (Height x Width x Channel)` into a numpy `ndarray` of shape `Batchsize x EmbeddingDimension`. :param content: A numpy `ndarray` of strings. :param args: Additional positional arguments. :param kwargs: Additional positional arguments. :return: A `BatchSize x EmbeddingDimension` numpy array. """ if self.channel_axis != self._default_channel_axis: content = np.moveaxis(content, self.channel_axis, self._default_channel_axis) with torch.no_grad(): images = torch.from_numpy(content.astype('float32')).to(self.device) embedded_faces = self.model(images) return embedded_faces.detach().cpu()

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noreply@github.com

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#!/usr/bin/env python # -*- coding: utf-8 -*- """Script para configurar contexto en Spark.""" __author__ = 'leferrad' from pyspark import SparkContext, SparkConf import os if 'sc' not in globals(): appName = 'learninspy-app' if 'SPARK_MASTER_IP' not in os.environ.keys() and 'SPARK_MASTER_PORT' not in os.environ.keys(): master = 'local[*]' # default: local mode else: master = 'spark://'+os.environ['SPARK_MASTER_IP']+':'+os.environ['SPARK_MASTER_PORT'] # master defined extraJavaOptions = '-XX:+UseG1GC' conf = (SparkConf().setAppName(appName) .setMaster(master) .set('spark.ui.showConsoleProgress', False) # Para que no muestre el progreso de los Stages (comentar sino) .set('spark.driver.extraJavaOptions', '-XX:+UseG1GC') .set('spark.executor.extraJavaOptions', '-XX:+UseG1GC') .set('spark.executor.extraJavaOptions', '-XX:+UseCompressedOops') # Cuando se tiene menos de 32GB de RAM, punteros de 4 bytes en vez de 8 bytes .set("spark.serializer", "org.apache.spark.serializer.KryoSerializer") ) sc = SparkContext.getOrCreate(conf=conf) from learninspy.utils.fileio import get_logger logger = get_logger(name=__name__) logger.info("Contexto de Spark inicializado.")

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Larryvrh/LC3-Toy

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from re import compile as reCompile, sub from Annotations import * from LC3Emu_Util import decToBin, binToDec # Regular opcodes OPCODEs = ['ADD', 'AND', 'JMP', 'JSR', 'JSRR', 'LDI', 'LDR', 'LD', 'LEA', 'NOT', 'RET', 'RTI', 'STI', 'STR', 'ST', 'TRAP'] # Branch opcodes OPCODEs += ['BRnzp', 'BRnz', 'BRnp', 'BRzp', 'BRn', 'BRz', 'BRp', 'BR'] # Trap Alias OPCODEs += ['HALT', 'IN', 'OUT', 'GETC', 'PUTS'] # Real opcodes realOPCODEs = OPCODEs.copy() # Assembler directives OPCODEs += ['.ORIG', '.END', '.FILL', '.BLKW', '.STRINGZ'] # Regex pattern for matching OPCODE opCodePattern = '|'.join(OPCODEs).replace('.', '\\.') opCodePatternEx = ' |'.join(OPCODEs).replace('.', '\\.') # Regex pattern for parse assembly line. pattern = reCompile(f'(^(?!{opCodePatternEx})(?P<LABEL>\S+))?\s*(?P<OPCODE>{opCodePattern})?' + '(\s+(?P<OPERANDS>.*))?') def parseNumber(num: Str) -> Int: assert num[0] in ['x', '#', '-'] or num[0].isdigit() if num.startswith('x'): return int(num[1:], 16) elif num.startswith('0x'): return int(num[2:], 16) elif num.startswith('#'): return int(num[1:]) elif num[0].isdigit() or num[0] == '-': return int(num) def parseOperands(operand: Str, symbolTable, lineNo) -> List[Int]: if operand is None: return [] # Clear out spaces from operand and split it operandSubs = operand.replace(' ', '').split(',') realOperands = [] for op in operandSubs: if op[0] == 'R' and op[1].isdigit(): realOperands.append(int(op[1])) elif op[0] in ['x', '#']: realOperands.append(parseNumber(op)) else: realOperands.append(symbolTable[op] - lineNo - 1) return realOperands def parseOperandsFormat(operand: Str) -> Str: if operand is None: return '' operandSubs = operand.replace(' ', '').split(',') return ''.join(['R' if op[0] == 'R' else 'I' for op in operandSubs]) def handleDirective(lineDetail: Dict, symbolTable: Dict) -> Union[Int, List[Int]]: if lineDetail['OPCODE'] == '.FILL': if lineDetail['OPERANDS'] in symbolTable: return symbolTable[lineDetail['OPERANDS']] return parseNumber(lineDetail['OPERANDS']) elif lineDetail['OPCODE'] == '.BLKW': return [0 for _ in range(parseNumber(lineDetail['OPERANDS']))] elif lineDetail['OPCODE'] == '.STRINGZ': return [ord(i) for i in lineDetail['OPERANDS'][1:-1]] + [0] def makeInstruction(template: Str, *args: List[Int]) -> Int: def replaceVariable(matchObj): index, length = matchObj.group(0)[1:-1].split(',') if length[-1] == '~': return decToBin(args[int(index)], int(length[:-1]), True) else: return decToBin(args[int(index)], int(length), False) # return bitModified(65535, 15, sub('\[\d+,\d+~?\]', replaceVariable, template)) return binToDec(sub('\[\d+,\d+~?\]', replaceVariable, template), True) def handleInstruction(lineDetail: Dict, symbolTable: Dict, lineno: Int) -> Int: operandFormat = parseOperandsFormat(lineDetail['OPERANDS']) realOperands = parseOperands(lineDetail['OPERANDS'], symbolTable, lineno) # print(lineDetail, operandFormat, realOperands, lineno) if lineDetail['OPCODE'] == 'ADD': if operandFormat == 'RRR': return makeInstruction('0001[0,3~][1,3~]000[2,3~]', *realOperands) else: return makeInstruction('0001[0,3~][1,3~]1[2,5]', *realOperands) elif lineDetail['OPCODE'] == 'AND': if operandFormat == 'RRR': return makeInstruction('0101[0,3~][1,3~]000[2,3~]', *realOperands) else: return makeInstruction('0101[0,3~][1,3~]1[2,5]', *realOperands) elif lineDetail['OPCODE'].startswith('BR'): nzpFlags = binToDec(''.join(['1' if i in lineDetail['OPCODE'] else '0' for i in 'nzp']), True) if lineDetail['OPCODE'] == 'BR': nzpFlags = binToDec('111', True) return makeInstruction('0000[0,3~][1,9]', nzpFlags, realOperands[0]) elif lineDetail['OPCODE'] == 'JMP': return makeInstruction('1100000[0,3~]000000', *realOperands) elif lineDetail['OPCODE'] == 'RET': return makeInstruction('1100000[0,3~]000000', 7) elif lineDetail['OPCODE'] == 'JSR': return makeInstruction('01001[0,11]', realOperands[0]) elif lineDetail['OPCODE'] == 'JSRR': return makeInstruction('0100000[0,3~]000000', *realOperands) elif lineDetail['OPCODE'] == 'LD': return makeInstruction('0010[0,3~][1,9]', realOperands[0], realOperands[1]) elif lineDetail['OPCODE'] == 'LDI': return makeInstruction('1010[0,3~][1,9]', realOperands[0], realOperands[1]) elif lineDetail['OPCODE'] == 'LDR': return makeInstruction('0110[0,3~][1,3~][2,6]', realOperands[0], realOperands[1], realOperands[2]) elif lineDetail['OPCODE'] == 'LEA': return makeInstruction('1110[0,3~][1,9]', realOperands[0], realOperands[1]) elif lineDetail['OPCODE'] == 'NOT': return makeInstruction('1001[0,3~][1,3~]111111', realOperands[0], realOperands[1]) elif lineDetail['OPCODE'] == 'RTI': return makeInstruction('1000000000000000') elif lineDetail['OPCODE'] == 'ST': return makeInstruction('0011[0,3~][1,9]', realOperands[0], realOperands[1]) elif lineDetail['OPCODE'] == 'STI': return makeInstruction('1011[0,3~][1,9]', realOperands[0], realOperands[1]) elif lineDetail['OPCODE'] == 'STR': return makeInstruction('0111[0,3~][1,3~][2,6]', realOperands[0], realOperands[1], realOperands[2]) elif lineDetail['OPCODE'] == 'TRAP': return makeInstruction('11110000[0,8~]', realOperands[0]) elif lineDetail['OPCODE'] == 'HALT': return makeInstruction('11110000[0,8~]', 0x25) elif lineDetail['OPCODE'] == 'IN': return makeInstruction('11110000[0,8~]', 0x23) elif lineDetail['OPCODE'] == 'OUT': return makeInstruction('11110000[0,8~]', 0x21) elif lineDetail['OPCODE'] == 'GETC': return makeInstruction('11110000[0,8~]', 0x20) elif lineDetail['OPCODE'] == 'PUTS': return makeInstruction('11110000[0,8~]', 0x22) return 0 def buildAddressTable(lineInfos: Dict): baseAddr, occupiedBytes = (0, 0x3000), 0 symbolTable = {} for i, lineDetail in enumerate(lineInfos): lineDetail.update({'ADDR': occupiedBytes}) opCode = lineDetail['OPCODE'] if opCode == '.ORIG': baseAddr = (i, parseNumber(lineDetail['OPERANDS'])) continue elif opCode in realOPCODEs: occupiedBytes += 1 elif opCode == '.FILL': occupiedBytes += 1 elif opCode == '.BLKW': occupiedBytes += parseNumber(lineDetail['OPERANDS']) elif opCode == '.STRINGZ': occupiedBytes += len(lineDetail['OPERANDS']) - 1 for lineDetail in lineInfos: lineDetail['ADDR'] += (baseAddr[1] - baseAddr[0]) if lineDetail['LABEL'] is not None: symbolTable[lineDetail['LABEL']] = lineDetail['ADDR'] symbolTable['_PROGRAM_ENTRY_ADDR_'] = baseAddr[1] return symbolTable def parseAssembly(asmLines: Str) -> Tuple[List, Dict[Str, Int]]: # Clean out the comment information asmLines = sub('\s*;.*', '', asmLines) # Split code into lines lines, lineInfos = asmLines.split('\n'), [] # Matched tokens for lines for line in lines: matched = pattern.match(line) if matched is None: continue lineDetail = matched.groupdict() # print(lineDetail) if set(lineDetail.values()) == {None}: continue # print(line, '\n', lineDetail) if lineDetail['LABEL'] is not None and lineDetail['LABEL'][-1] == ':': lineDetail['LABEL'] = lineDetail['LABEL'][:-1] if lineDetail['LABEL'] in OPCODEs: lineDetail['OPCODE'] = lineDetail['LABEL'] lineDetail['LABEL'] = None if lineDetail['OPCODE'] == '.STRINGZ': lineDetail['OPERANDS'] = lineDetail['OPERANDS'].replace('\\n', '\n') # Finish parsing lineInfos.append(lineDetail) # print('>',lineInfos) # Build symbols table symbolTable = buildAddressTable(lineInfos) machineCodes = [] # Translate operation into machine codes for index, lineDetail in enumerate(lineInfos): if lineDetail['OPCODE'] is None: continue elif lineDetail['OPCODE'] == '.ORIG': continue elif lineDetail['OPCODE'] == '.END': break elif lineDetail['OPCODE'].startswith('.'): result = handleDirective(lineDetail, symbolTable) if isinstance(result, int): machineCodes.append(result) else: machineCodes += result else: machineCodes.append(handleInstruction(lineDetail, symbolTable, lineDetail['ADDR'])) return machineCodes, symbolTable //TODO: Need to fix to_bytes for negative values. def compileAsmFile(filePath: str): with open(filePath, 'r', encoding='utf-8') as sourceFile: machineCodes, symbolTable = parseAssembly(sourceFile.read()) print([hex(i) for i in machineCodes]) resultBytes = [] resultBytes.append(symbolTable['_PROGRAM_ENTRY_ADDR_'].to_bytes(2, 'big', signed=False)) resultBytes += [i.to_bytes(2, 'big', signed=False) for i in machineCodes] with open('Bin\\' + filePath.split('.')[0] + '.obj', 'wb') as binFile: binFile.write(b''.join(resultBytes)) compileAsmFile('RecursiveFib.asm') with open('Bin\\RecursiveFib.obj', 'rb') as binFile: print(binFile.read())

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noreply@github.com

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import parsereq import requests def main(): r = '''GET /robots.txt HTTP/1.1 User-Agent: Mozilla/4.0 (compatible; MSIE5.01; Windows NT) Host: github.com Content-Type: text/html Accept-Language: en-us Accept-Encoding: gzip, deflate Connection: Keep-Alive ''' r = parsereq.parse(r, force_ssl=True).prepare() s = requests.Session() print(s.send(r).content) if __name__ == '__main__': main()

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from selenium import webdriver from selenium.webdriver import Chrome from selenium.webdriver.support.ui import WebDriverWait from selenium.common.exceptions import NoSuchElementException from selenium.webdriver.chrome.options import Options import time import datetime import os chrome_options = Options() chrome_options.add_argument("--use-fake-ui-for-media-stream") wd = webdriver.Chrome(options=chrome_options) stat = "..." now = datetime.datetime.now() def open(): wd.get("https://login.microsoftonline.com/common/oauth2/authorize?response_type=id_token&client_id=5e3ce6c0-2b1f-4285-8d4b-75ee78787346&redirect_uri=https%3A%2F%2Fteams.microsoft.com%2Fgo&state=060f4ab0-9d36-42d3-948e-4cc1f3da5e4d&&client-request-id=ffa75cbc-3cdd-4da9-923b-3a1c9cfeee91&x-client-SKU=Js&x-client-Ver=1.0.9&nonce=433d4ab0-91d9-4b6a-9f8d-38e9e425cfa7&domain_hint=") #Enter Login ID wd.find_element_by_name("loginfmt").send_keys("LoginIdGoesHere@outlook.com") Next = wd.find_element_by_id("idSIButton9") Next.click() WebDriverWait(wd,15).until(lambda wd: wd.find_element_by_id("lightbox")) wd.implicitly_wait(5) #Enter Password wd.find_element_by_name("passwd").send_keys("PasswordGoesHere") wd.implicitly_wait(5) Next = wd.find_element_by_id("idSIButton9").click() """for filename in os.listdir('./LogIn'): if not filename.endswith(".py"): handle = open(os.path.join('LogIn',filename)) file = handle.read() for i in file.splitlines(): chkd = i.split("->") chkt = chkd[1].split("=") if (now.strftime("%A").casefold() == chkd[0].casefold()) and run() else: stat = "No Class at this time"""" def run(): try: open() WebDriverWait(wd,100,poll_frequency=10, ignored_exceptions=[NoSuchElementException]).until(lambda wd: wd.find_element_by_class_name("active-rail")) except: wd.close() wd = webdriver.Chrome(options=chrome_options) open() Next = wd.find_element_by_xpath("//*[@title='5CSE4 - Python']").click() def goto_class(): Next = wd.find_element_by_xpath("//*[@title='Join call with video']").click() Next = wd.find_element_by_xpath("//*[@title='Turn camera off']").click() Next = wd.find_element_by_xpath("//*[@title='Mute microphone']").click() Next = wd.find_element_by_class_name("button-col").click() hour,min=19,15 try: WebDriverWait(wd,100,poll_frequency=20, ignored_exceptions=[NoSuchElementException]).until(lambda wd: wd.find_element_by_xpath("//*[@button-disabled='ctrl.disableJoinButton']")) goto_class() while(True): t=time.localtime() if (t.tm_hour>hour) or (t.tm_hour==hour and t.tm_min>=min): break except: try: wd.close() open() WebDriverWait(wd,100,poll_frequency=10, ignored_exceptions=[NoSuchElementException]).until(lambda wd: wd.find_element_by_class_name("active-rail")) Next = wd.find_element_by_xpath("//*[@title='5CSE4 - Python']").click() WebDriverWait(wd,100,poll_frequency=20, ignored_exceptions=[NoSuchElementException]).until(lambda wd: wd.find_element_by_xpath("//*[@button-disabled='ctrl.disableJoinButton']")) goto_class() while(True): t=time.localtime() if (t.tm_hour>hour) or (t.tm_hour==hour and t.tm_min>=min): stat = "Class Ended" break stat = "In Class" except: stat = "Class cancelled" wd.quit() def status(): return stat

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noreply@github.com

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Apex8/Web-Scraping-Mars-Mission

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from flask import Flask, render_template, redirect from flask_pymongo import PyMongo import scrape_mars app = Flask(__name__) app.config["MONGO_URI"] = "mongodb://localhost:27017/mars_app" mongo = PyMongo(app) @app.route("/") def index(): mars_dict = mongo.db.mars_dict.find_one() return render_template("index.html", mars=mars_dict) @app.route("/scrape") def scrape(): mars_dict = mongo.db.mars_dict mars_data = scrape_mars.scrape() mars_dict.update({}, mars_data, upsert=True) return redirect("/", code=302) if __name__ == "__main__": app.run(debug=True)

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""" plots.py TODO: * Create boxplots for each column @author: Scott Campit """ import dash import dash_core_components as dcc import dash_html_components as html from dash.dependencies import Input, Output import dash_bootstrap_components as dbc import plotly import pandas as pd import plotly.graph_objects as go from sklearn import preprocessing import numpy as np def gcp_heatmap(df, categoricals, labels): """ gcp_heatmap create the heatmap for the global chromatin profiles. :param df: Pandas dataframe containing CCLE GCP profiles :param categoricals: Pandas dataframe containing strings of categoricals :param labels: Pandas dataframe containing label encodings for categorical dataframe :return gcp: Plotly graph object containing data for GCP. """ # Create each plot individually main = go.Heatmap(z=df.values, x=df.columns, y=df.index, colorscale='RdBu', reversescale=True) side = go.Heatmap(z=labels.values, x=list(labels.columns), y=df.index.tolist(), colorscale='Portland', showscale=False, text=categoricals.values) gcp = plotly.subplots.make_subplots(rows=1, cols=2, shared_xaxes=True, shared_yaxes=True, column_widths=[0.10, 0.90], horizontal_spacing=0.01) gcp.append_trace(side, row=1, col=1) gcp.append_trace(main, row=1, col=2) #fig = go.Figure(side) gcp.update_xaxes(tickangle=90) return gcp def gcp_boxplot(df): """ gcp_boxplot creates boxplots for the CCLE GCP data """ df = pd.melt(df) gcp_bxplt = go.Figure( go.Box(x=df['variable'], y=df['value'], boxpoints='all', jitter=0.3) ) return gcp_bxplt def gcp_clustergram(df): """ """ return gcp_cluster

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johnckane/hackerrank

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#Solves this application problem: https://www.hackerrank.com/challenges/detecting-valid-latitude-and-longitude/problem import sys, re input_data = sys.stdin.readlines() for i in range(1,len(input_data)): regex = re.search( pattern = "^(\d+)(\s|-)(\d+)(\s|-)(\d+)", string = input_data[i] ) if regex != None: output="CountryCode={0},LocalAreaCode={1},Number={2}"\ .format(regex.group(1), regex.group(3), regex.group(5)) print(output) del regex

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sanpianye/the-little-python

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#!/usr/bin/env python3 # -*- coding: utf-8 -*- '''''' __author__ = 'Engine' from urllib.request import urlopen from bs4 import BeautifulSoup import re import string from collections import OrderedDict def cleanInput(input): input = re.sub("\n+", " ", input) # 将多个换行符转为一个空格 input = re.sub("\[[0-9]*\]", "", input) # 剔除维基百科的引用标记,如[1] input = re.sub(" +", " ", input) # 将多个空格合并为1个空格, 确保单词间只有一个空格 # 以utf8编码,再以ascii解码, 剔除unicode字符 input = bytes(input, "UTF-8") input = input.decode("ascii", "ignore") cleanInput = [] input = input.split(' ') # 以空格分割单词, 获得单词的list for item in input: # 剔除单词两边的标点符号,有点矫枉过正 item = item.strip(string.punctuation) # 剔除单字符, 除非是i或a if len(item) > 1 or (item.lower() == 'a' or item.lower() == 'i'): cleanInput.append(item) return cleanInput def getNgrams(input, n): input = cleanInput(input) # 数据清洗 output = dict() # 创建字典, 用于保存n元组 for i in range(len(input) - n + 1): newNGram = ' '.join(input[i:i+n]) # 相邻的单词构成一个n元组 if newNGram in output: # 统计n元组的词频 output[newNGram] += 1 else: output[newNGram] = 1 return output request = "http://en.wikipedia.org/wiki/Python_(programming_language)" response = urlopen(request) bsObj = BeautifulSoup(response) # 获取词条的主体部分内容 input = bsObj.find("div", {"id": "mw-content-text"}).get_text() # str ngrams = getNgrams(input, 2) # 获取2元组 # 对n元组按词频排序 ngrams = OrderedDict(sorted(ngrams.items(), key=lambda t: t[1], reverse=True)) print(ngrams)

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# -*- coding: utf-8 -*- # Generated by Django 1.11.4 on 2018-05-08 15:14 from __future__ import unicode_literals from django.db import migrations class Migration(migrations.Migration): dependencies = [ ('home', '0002_auto_20180508_1421'), ] operations = [ migrations.RenameModel( old_name='GANTT_PJT', new_name='PROJECT', ), migrations.RenameModel( old_name='GANTT_TASK', new_name='TASK', ), ]

[ "vbrn@i.ua" ]

vbrn@i.ua

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c801581377b671f6d58a2668819d42b96f0cf67e

/p3dss/__init__.py

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[ "MIT" ]

permissive

moonburnt/p3dss

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442bea7ce8e506f27c0468ed8991f8dced1e077c

refs/heads/master

2023-07-16T08:09:32.842872

2021-08-08T16:16:14

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from .exceptions import * from .types import * from .processor import * from .nodes import * import logging logging.getLogger(__name__).addHandler(logging.NullHandler())

[ "moonburnt@disroot.org" ]

moonburnt@disroot.org

9c0565a7a799b4d983060bea22a4462692fd3731

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/helpers/mixins/store_data_with_default_value_by_key.py

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no_license

alexandrenorman/mixeur

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refs/heads/main

2023-03-13T23:50:11.800627

2021-03-07T15:49:15

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# -*- coding: utf-8 -*- from django.utils.translation import ugettext_lazy as _ from django.db import models from django.core.exceptions import ValidationError from core.models import MixeurBaseModel class StoreDataWithDefaultValueByKey(MixeurBaseModel): """ Mixin for storing value with a unique default value for all and a unique default value for each item associated by key """ class Meta: abstract = True ordering = ("created_at",) is_default_value = models.BooleanField( _("est une valeur par défaut"), default=False ) @classmethod def default_value(cls, key=None): """ Return default value which is: - default value for the key if exists - else generic default value if exists - else None """ if key: if cls.objects.filter(key=key).exists(): return cls.objects.filter(key=key).first() if cls.objects.filter(key=None).exists(): return cls.objects.filter(key=None).first() return None def clean(self): """ verify that: - an unique value exists without a key - an unique value exists with a key """ if self.is_default_value: if ( self.key is None and self.__class__.objects.exclude(pk=self.pk) .filter(key=None, is_default_value=True) .exists() ): raise ValidationError( "Une seule valeur par défaut générique est possible" ) if ( self.key is not None and self.__class__.objects.exclude(pk=self.pk) .filter(key=self.key, is_default_value=True) .exists() ): raise ValidationError( "Une seule valeur par défaut par clef est possible" ) else: if self.key is None: raise ValidationError( "Une valeur non générique doit être associée à une clef" ) return super().clean()

[ "norman@xael.org" ]

norman@xael.org

b782bd6370e0997278ddcec9b5ae2bdb4248b34f

d58881b9747f461740ca963e3db21276b1d3026f

/Search for Text in Files/Find Words in NonASCII File.py

871ceac2659b066237528082f0609aa05bbc8d66

[]

no_license

Huggychan/CTF-Toolkit

c99c4b9d502e32dd1d611f7e5601707d168d8951

1b5050bfcb3c9efb7fa3e87b71fcb27ebd99228f

refs/heads/master

2020-12-28T20:31:58.447902

2016-05-10T06:29:59

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2016-05-10T06:30:00

2016-05-08T17:31:21

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py

#Read in only letters from non-UTF-8 character file nonascii = bytearray(range(0x80, 0x100)) possibleStrings = [] consecutive = 0 with open('randomGenProb1.txt','rb') as infile: for line in infile: # b'\n'-separated lines (Linux, OSX, Windows) line = line.translate(None, nonascii) data = line for i in range(len(data)): c = data[i] # The possible characters in the file you are searching that may compose words if c.lower() in 'abcdefghijklmnopqrstuvwxyz ': consecutive += 1 else: if consecutive > 11: #Chose 11 to be number of consecutive letters that is deemed 'significant' possibleStrings.append(data[i - consecutive:i]) consecutive = 0 #Find which string has actual words words = [] with open('dictionary.txt','r') as f: for line in f: for word in line.split(): words.append(word) for i in range(0, len(possibleStrings)): splitWords = possibleStrings[i].split() count = 0 for j in range(0, len(splitWords)): if splitWords[j] in words: count = count + 1 # If 50% of text is actual words, then we likely have the correct shift if count > len(splitWords) / 2: print(possibleStrings[i])

[ "ssenthilkumar3@gatech.edu" ]

ssenthilkumar3@gatech.edu

6c31804084b40117af3996ec2ca732f7f812d0dc

cb180c254f8fa9f26512e2a0b32d51cbaf040e78

/SMS/production.py

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[]

no_license

sherwin7/Birthday_Messenger

f1a359efe8edb04147b4162889640a3c44da8b40

4b426acb8494b1058f2e78f2a93a51c6c1ee5263

refs/heads/master

2020-06-28T07:25:56.759001

2019-08-02T06:02:38

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py

# imports necessary for functionality import requests import psycopg2 as pg # Creating a Session for the Api Request sess = requests.Session() # IMPORTANT : mention the Authentication credentials for gupshup api # In future it may change userid = "#####" password = "#####" # Connect to the Database connection = pg.connect(user="#####", password="####", host="#.#.#.#", port="####", database="####") # Create the cursor to execute statements cur = connection.cursor() # The Following code is required to fetch the details of the birthday on current day sql1 = "select * from student where date_part('day', current_date) = date_part('day', dob)"\ "and date_part('month', current_date) = date_part('month', dob);" # Execute and store it cur.execute(sql1) details = cur.fetchall() # The Loop is for sending message to everyone on particular day for i in range(len(details)): user_number=details[i][4] message = "Happy Birthday, dear "+ details[i][0]+'.\n\n'+ "May God bless you abundantly and "\ "make you a blessing for many. \n"+"With wishes and prayers,\n\n"+"From Karunya Family." # requesting to gupshup for sending messages req = "https://enterprise.smsgupshup.com/GatewayAPI/rest?method=SendMessage&send_to="\ +str(user_number)+"&msg="+message+"&msg_type=TEXT&userid="+userid+"&auth_scheme="\ "plain&password="+password+"&v=1.1&format=text" a = sess.get(req) sql1 = "insert into log(date,time,regno,name,status,phone_no) values(current_date"\ ",current_time,'%s','%s','%s','%s')"%(str(details[i][1]), str(details[i][0]),\ str(a.content.split()[0]).replace("b","")[1:-1],details[i][4]) cur.execute(sql1) connection.commit() connection.close()

[ "jeffinsam@karunya.edu.in" ]

jeffinsam@karunya.edu.in

61f7a073c2777d6244c506cf8b2140345c666ffb

cbf1054d4541ef80c758ba22e56a95025a8f0dc9

/api_key.py

66bc433a52a9e03dce6c3e93d94fcf345480cb6f

[]

no_license

theianthomas/Project_Repository

f97c3c6839d09a8560ba0f64e19697a5deea8b52

ece50c34a8c75e38cb61a6b880b091b0e25b8d7c

refs/heads/master

2021-03-21T13:15:01.398457

2020-03-23T20:19:10

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2020-03-14T15:51:26

2020-03-14T14:58:50

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py

g_key = "AIzaSyDctHilxVrim7wg4W6L-zanULHexmAOsvA"

[ "ioommen@vhha.com" ]

ioommen@vhha.com

05a4a25fb6d85e52fb787720faccf15b510d3d45

3e9de08abde0dddcaa59aeed26d9af40b113c15d

/LAB2/proxy_client.py

bcc052113a90191f0c489a2d7ce6abcd7c04f109

[]

no_license

nishthapant/cmput404

22511365d00b9a696e318944f5d9364fab6d03ee

48d07f8bd150b63c89ced3e5f154e04e10c37a61

refs/heads/master

2023-08-29T16:07:30.259941

2021-09-17T16:28:22

404,095,645

0

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#!/usr/bin/env python3 import socket #define address, buffer size HOST = "localhost" PORT = 8001 BUFFER_SIZE = 1024 payload = f'GET / HTTP/1.0\r\nHost: www.google.com\r\n\r\n' def connect(addr): #create socket, connect and receive data try: s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect(addr) s.sendall(payload.encode()) s.shutdown(socket.SHUT_WR) full_data = s.recv(BUFFER_SIZE) print(full_data) except Exception as e: print(e) finally: s.close() def main(): connect((HOST, PORT)) if __name__ == "__main__": main()

[ "nishpant2015@gmail.com" ]

nishpant2015@gmail.com

77a854a653ca37f5d86e0d4978579610d1179d0b

39363e21c5272146ed65b00830e4a3e53d69da8a

/07-ObjectOrientedProgramming/07.16.py

fa0c81d6cd85260dbd3e464314e77485e6906c17

[]

no_license

PawelPlutaUek20/pp1

f4eb3dfd538b1dedb0e28afed4631be88d7fd857

18dc55902ba4262c368d66ebc9edac9360dbe28b

refs/heads/master

2020-08-07T08:33:20.032979

2020-01-20T13:39:19

213,373,389

1

0

null

2019-10-07T12:08:43

null

UTF-8

Python

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830

py

class Student: def __init__(self, name, surname, album_nr): self.name = name self.surname = surname self.album_nr = album_nr def __str__(self): return f"{self.name} {self.surname} {self.album_nr}" def __eq__(self, other): return self.album_nr == other.album_nr def __lt__(self, other): return self.album_nr < other.album_nr def __repr__(self): return repr((self.name, self.surname, self.album_nr)) s1 = Student("Anna", "Tomaszewska", 141820) s2 = Student("Wojciech", "Zbych", 201003) s3 = Student("Maja", "Kowalska", 153202) s4 = Student("Marek", "Migiel", 138600) Student.__lt__ = lambda self, other: self.album_nr < other.album_nr student_objects = [s1,s2,s3,s4] print(*sorted(student_objects),sep="\n")

[ "pawelpluta58@gmail.com" ]

pawelpluta58@gmail.com

e0e4b4ae8450aa0d6296cc3dce4ba453f1d3682d

816e46672805226ea679b5f51f8ce435c3975f7e

/app.py

0da521616ff3d92e25b88ae8b9cd532c5b418200

[]

no_license

amar0898/Flask-CRUD-REST-API

124a559d5b84c31f3f1fad0e45d941a34e5a9679

0f0c1c682a2a33a7c2f603fd94fe0a6ee7b6e88a

refs/heads/main

2023-01-20T19:57:17.612188

2020-11-24T07:36:48

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from flask import Flask, request, jsonify from flask_sqlalchemy import SQLAlchemy from flask_marshmallow import Marshmallow import os app = Flask(__name__) basedir = os.path.abspath(os.path.dirname(__file__)) app.config['SQLALCHEMY_DATABASE_URI'] = 'sqlite:///' + os.path.join(basedir,'db.sqlite') app.config['SQLALCHEMY_TRACK_MODIFICATIONS'] = False db = SQLAlchemy(app) ma = Marshmallow(app) class Product(db.Model): id = db.Column(db.Integer,primary_key=True) name = db.Column(db.String(100),unique=True) description = db.Column(db.String(200)) price = db.Column(db.Float) qty = db.Column(db.Integer) def __init__(self,name,description,price,qty): self.name = name self.description = description self.price = price self.qty = qty class ProductSchema(ma.Schema): class Meta: fields = ('id','name','description','price','qty') product_schema = ProductSchema() products_schema = ProductSchema(many=True) @app.route('/') def home(): return "<h1>Welcome ! It is a Flask CRUD Operations REST API for products</h1>" @app.route('/product',methods=['POST']) def add_product(): name = request.json['name'] description = request.json['description'] price = request.json['price'] qty = request.json['qty'] new_product = Product(name,description,price,qty) db.session.add(new_product) db.session.commit() return product_schema.jsonify(new_product) @app.route('/product',methods=['GET']) def get_products(): all_products = Product.query.all() result = products_schema.dump(all_products) return jsonify(result) @app.route('/product/<id>',methods=['GET']) def get_product(id): product = Product.query.get(id) return product_schema.jsonify(product) @app.route('/product/<id>',methods=['PUT']) def update_product(id): product = Product.query.get(id) name = request.json['name'] description = request.json['description'] price = request.json['price'] qty = request.json['qty'] product.name=name product.description=description product.price=price product.qty=qty db.session.commit() return product_schema.jsonify(product) @app.route('/product/<id>',methods=['DELETE']) def delete_product(id): product = Product.query.get(id) db.session.delete(product) db.session.commit() return product_schema.jsonify(product) if __name__ == '__main__': app.run()

[ "amar.pinjore0898@gmail.com" ]

amar.pinjore0898@gmail.com

3645517d6cc48df408381aac828e7f47d7140173

163b8d347a95e51c6b72c9128b31eb158abc6996

/projects/protonet_torch/protonet_torch2.py

abb65c9210d1b935f16fcd5975d0a355eb01e8e7

[]

no_license

DateOne/torch_basic

d1d2d569f9ad1983211047b7f1824107f7a50ba6

8b5a9f3cc1a52dafb1b9f81816ff76691349c90c

refs/heads/master

2020-08-06T18:34:07.492840

2019-12-08T10:42:34

213,108,014

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#==============================================================================# # protonet_torch # # author: yi # # Prototypical Networks for Few-Shot Learning # # dataset: omniglot # # 19, Oct 11 # #==============================================================================# #packages from __future__ import print_function import os import argparse import numpy as np import matplotlib.pyplot as plt import torch import torchvision import torch.nn as nn import torch.nn.functional as F import torch.optim as optim import torchvision.datasets as dsets from torchvision import transforms from tqdm import tqdm #inputs and settings parser = argparse.ArgumentParser(description='torch prototypical network on omniglot arguments') parser.add_argument( '-e', '--epochs', type=int, help='number of epochs', default=100) parser.add_argument( '-i', '--iterations', type=int, help='number of iterations', default=100) parser.add_argument( '-lr', '--learning_rate', type=float, help='learning rate', default=0.001) parser.add_argument( '-ctr', '--num_classes_iter_tr', type=int, help='number of classes per iteration during training', default=60) parser.add_argument( '-str', '--num_support_samples_tr', type=int, help='number of support samples per class per iteration during training', default=5) parser.add_argument( '-qtr', '--num_query_samples_tr', type=int, help='number of query samplers per class per iteration during training', default=5) parser.add_argument( '-cval', '--num_classes_iter_val', type=int, help='number of classes per iteration during validation', default=5) parser.add_argument( '-sval', '--num_support_samples_val', type=int, help='number of support samples per class per iteration during validation', default=5) parser.add_argument( '-qval', '--num_query_samples_val', type=int, help='number of query samples per class per iteration during validation', default=15) parser = parser.parse_args() root = os.path.join('../../datasets', 'omniglot') exp_root = 'exp' lr_scheduler_step = 20 lr_scheduler_gamma = 0.5 manual_seed = 111 torch.manual_seed=manual_seed #dataloader transform=transforms.ToTensor() background_dataset = torchvision.datasets.Omniglot(root='../../datasets/torch_omniglot', background=True, transform=transform, download=True) evaluation_dataset = torchvision.datasets.Omniglot(root='../../datasets/torch_omniglot', background=False, transform=transform, download=True) #background_dset_parameters = {'num_samples': 19280, 'num_classes': 964, 'num_sample_per_class': 20} #evaluation_dset_parameters = {'num_samples': 13180, 'num_classes': 659, 'num_sample_per_class': 20} class FSLBatchSampler(object): ''' customized batch sampler for few-shot learing (in this edition, specially for Omniglot dataset) __init__, __iter__, __len__ methods inheritaed from object caution: for batch sampler in torch, __iter__ yield! ''' def __init__(self, data_source, num_classes, num_samples, iterations): self.data_source = data_source self.num_classes = num_classes self.num_samples = num_samples self.iterations = iterations self.dset_num_sample_per_class = 20 self.dset_num_samples = len(self.data_source) self.dset_num_classes = self.dset_num_samples / self.dset_num_sample_per_class def __iter__(self): batch = [] class_idcs = torch.randperm(self.dset_num_classes)[0 : self.num_classes] for class_idx in class_idcs: sample_idcs = torch.randperm(self.dset_num_sample_per_class)[0 : self.num_samples] for sample_idx in sample_idcs: batch.append(self.dset_num_sample_per_class * class_idx + sample_idx) yield batch def __len__(self): return self.iterations bg_sampler = FSLBatchSampler( background_dataset, num_classes_iter_tr, num_support_samples_tr + num_query_samples_tr, parser.iterations) eval_sampler = FSLBatchSampler( evaluation_dataset, num_classes_iter_val, num_support_samples_val + num_query_samples_val, parser.iterations) bg_dataloader = torch.utils.data.DataLoader(background_dataset, batch_sampler=bg_sampler) eval_dataloader = torch.utils.data.DataLoader(evaluation_dataset, batch_sampler=eval_sampler) device = torch.device('cuda' if torch.cuda.is_available() else 'cpu') #protonet def conv_block(in_channels, out_channels): return nn.Sequential( nn.Conv2d(in_channels, out_channels, kernel_size=3, padding=1), nn.BatchNorm2d(out_channels), nn.ReLU(), nn.MaxPool2d(kernel_size=2)) class ProtoNet(nn.Module): def __init__(self, x_dim=1, hid_dim=64, z_dim=64): super(ProtoNet, self).__init__() self.encoder = nn.Sequential( conv_block(x_dim, hid_dim), conv_block(hid_dim, hid_dim), conv_block(hid_dim, hid_dim), conv_block(hid_dim, z_dim)) def forward(self, x): x = self.encoder(x) return x.view(x.size(0), -1) def euclidean_dist(x, y): n = x.size(0) m = y.size(0) d = x.size(1) x = x.unsqueeze(1).expand(n, m, d) y = y.unsqueeze(0).expand(n, m, d) return torch.pow(x - y, 2).sum(2) def proto_loss(inputs, targets, num_support): input_cpu = inputs.to('cpu') target_cpu = targets.to('cpu') classes = torch.unique(target_cpu) num_classes = len(classes) num_query = target_cpu.eq(classes[0].item()).sum().item() - num_support def get_support_idcs(c): return target_cpu.eq(c).nonzero()[:num_support].squeeze(1) support_idcs = list(map(get_support_idcs, classes)) prototypes = torch.stack([input_cpu[idx].mean(0) for idx in support_idcs]) def get_query_idcs(c): return target_cpu.eq(c).nonzero()[num_support:] query_idcs = torch.stack(list(map(get_query_idcs, classes))).view(-1) query_samples = input_cpu[query_idcs] dists = euclidean_dist(query_samples, prototypes) log_p_y = F.log_softmax(-dists, dim=1).view(num_classes, num_query, -1) target_inds = torch.arange(0, num_classes) target_inds = target_inds.view(num_classes, 1, 1) target_inds = target_inds.expand(num_classes, num_query, 1).long() loss_val = -log_p_y.gather(2, target_inds).squeeze().view(-1).mean() _, y_hat = log_p_y.max(2) acc_val = y_hat.eq(target_inds.squeeze()).float().mean() return loss_val, acc_val class ProtoNetLoss(nn.Module): def __init__(self, num_support): super(ProtoNetLoss, self).__init__() self.num_support = num_support def forward(self, input, target): return proto_loss(input, target, self.num_support) #train def train(opt, tr_dataloader, model, criterion, optimizer, lr_scheduler): train_loss = [] train_acc = [] for epoch in range(opt.epochs): print('===== epoch: {} ====='.format(epoch)) tr_iterator = iter(tr_dataloader) model.train() for batch in tr_iterator: optimizer.zero_grad() x, y = batch x, y = x.to(device), y.to(device) output = model(x) loss, acc = criterion(output, y) loss.backward() optimizer.step() train_loss.append(loss.item()) train_acc.append(acc.item()) avg_loss = np.mean(train_loss[-opt.iterations:]) avg_acc = np.mean(train_acc[-opt.iterations:]) print('avg train loss: {}, avg train acc: {}'.format(avg_loss, avg_acc)) lr_scheduler.step() #test def test(opt, test_dataloader, model, criterion): avg_acc = [] for epoch in range(10): test_iterator = iter(test_dataloader) for batch in test_iterator: x, y = batch x, y = x.to(device), y.to(device) output = model(x) _, acc = criterion(output, y) avg_acc.append(acc.item()) avg_acc = np.mean(avg_acc) print('test acc: {}'.format(avg_acc)) #main if not os.path.exists(exp_root): os.makedirs(exp_root) model = ProtoNet().to(device) criterion = ProtoNetLoss(num_support_samples_tr) optimizer = optim.Adam(params=model.parameters(), lr=parser.learning_rate) lr_scheduler = optim.lr_scheduler.StepLR( optimizer=optimizer, gamma=lr_scheduler_gamma, step_size=lr_scheduler_step) print('====================== start training ======================\n\n') train(parser, bg_dataloader, model, criterion, optimizer, lr_scheduler) print('\n\n\n') print('====================== start testing ======================\n\n') criterion = ProtoNetLoss(num_support_samples_val) test(parser, eval_dataloader, model, criterion)

[ "dateone2015@outlook.com" ]

dateone2015@outlook.com

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permissive

jadsonlucio/holidays-projects

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refs/heads/master

2023-05-09T03:55:24.433421

2020-10-27T13:13:01

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2021-06-02T01:30:37

2020-04-17T06:26:05

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from threading import Thread from functools import wraps def run_async(func): @wraps(func) def async_func(*args, **kwargs): func_hl = Thread(target = func, args = args, kwargs = kwargs) func_hl.start() return func_hl return async_func

[ "jadsonaluno@hotmail.com" ]

jadsonaluno@hotmail.com

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/Course 3: Python For Genome/Q1.py

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no_license

ishansri17/Genomic-Data-Science

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dd2bdec07f0449d1fd33549dfffd0c73c4c79128

refs/heads/master

2020-11-24T18:01:09.639208

2020-02-02T21:33:56

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UTF-8

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py

import sys f = open('dna2.fasta', 'r') file = f.read() print(file.count('>'))

[ "noreply@github.com" ]

noreply@github.com

48764804ea5e6d0c832e99c50c16133377e7341c

b4878135b068f976ff76565661c9a14e2b1d185e

/migrations/versions/782fe137a73b_mig.py

c5fa1a20a50fe23def4e059c8d26b0b4d460e724

[]

no_license

qimengmeng/myzhihu

cb81157c99fbe4bb5cd58431842b7d7ff4f5652e

f812c60ca13083791bf900fac62acd205df782c9

refs/heads/master

2021-08-15T03:56:53.990035

2017-10-14T01:02:35

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2017-11-15T10:28:44

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"""mig Revision ID: 782fe137a73b Revises: 07dc84b6a59a Create Date: 2017-09-20 22:35:32.249063 """ from alembic import op import sqlalchemy as sa # revision identifiers, used by Alembic. revision = '782fe137a73b' down_revision = '07dc84b6a59a' branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.add_column('answers', sa.Column('body_html', sa.Text(), nullable=True)) # ### end Alembic commands ### def downgrade(): # ### commands auto generated by Alembic - please adjust! ### op.drop_column('answers', 'body_html') # ### end Alembic commands ###

[ "josh_shiyu@outlook.com" ]

josh_shiyu@outlook.com

070b67571830fbc22ce4702fded26ee0e03f646a

6d7c488d14cf2bc0322c955a53ec34cfd67e8c3b

/.history/plane_ticket/spiders/ticket_spider_20200709002008.py

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[]

no_license

byebyeyuchi/getPlaneTicket-web-crawl-

e247b7d015e35d1036e023c748764abb0ad66fe1

91a666659a537c053d8cd19c8214a54eab460800

refs/heads/main

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2021-01-30T02:14:43

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import scrapy class TicketSpider(scrapy.Spider): name = "tickets" def start_requests(self): urls =[ "http://montreal.chineseconsulate.org/chn/zlgxw/" ] def parse(self, response): all = response.css('.Text_Center li').css()

[ "delseylyq@gmail.com" ]

delseylyq@gmail.com

9957eff2dbbb0dbb35c46ba40803a163651c92a6

86fc9d10729c4914e0c5a22e55db3eef1fd80588

/list_directory_files/list_directory_files.py

81070ef0959b8fc9d0ca5e4f3fcf485197790d48

[]

no_license

streanger/tipts

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69474910c8414bcd59122f23e45036e69dc4ab03

refs/heads/master

2023-07-20T14:07:50.417161

2023-07-11T15:45:45

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2023-01-21T12:51:14

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import os from pathlib import Path def os_directory_files(directory): """https://stackoverflow.com/questions/9816816/get-absolute-paths-of-all-files-in-a-directory""" for dirpath,_,filenames in os.walk(directory): for f in filenames: yield os.path.abspath(os.path.join(dirpath, f)) def pathlib_directory_files(directory): """https://stackoverflow.com/questions/9816816/get-absolute-paths-of-all-files-in-a-directory""" for filepath in Path(directory).glob('**/*'): if filepath.is_dir(): continue yield str(filepath.absolute()) if __name__ == "__main__": os.chdir(str(Path(__file__).parent)) directory = 'directory' files1 = list(os_directory_files(directory)) files2 = list(pathlib_directory_files(directory)) print(files1) print(files2)

[ "noreply@github.com" ]

noreply@github.com

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/unit_test/function_test/test_name_function.py

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[]

no_license

irfan87/python_tutorial

986c5dae98a5ad928c3820bf0355f544c091caf0

71bbf8b8aba2d5a1fafc56b8cb15d471c428a0cf

refs/heads/master

2020-06-05T00:52:07.619489

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import unittest from name_function import get_formatted_name class NamesTestCase(unittest.TestCase): """Tests for 'name_function.py""" def test_first_last_name(self): """Do names like 'Janis Joplin' work?""" formatted_name = get_formatted_name('janis', 'joplin') self.assertEqual(formatted_name, 'Janis Joplin') def test_first_last_middle_name(self): """Do names like 'Wolfgang Amadeus Mozart' work?""" formatted_name = get_formatted_name('wolfgang', 'mozart', 'amadeus') self.assertEqual(formatted_name, 'Wolfgang Amadeus Mozart') if __name__ == '__main__': unittest.main()

[ "nerve2009@yahoo.com" ]

nerve2009@yahoo.com

e811cb8d64d5abbc293dec05efa34f4e6eec2de4

f52aec93fbb30046df6e4b240387f14678bde77f

/plugin.py

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[]

no_license

losperdidos1212/pluginarchivostv

718684483c5b3d26e5e635f9c998ef84b95cb778

45c6368e92c721e724e3e8295a675e7b89504139

refs/heads/master

2021-05-26T03:06:38.263809

2020-04-07T18:03:24

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# coding: utf-8 import nVars from Plugins.Plugin import PluginDescriptor from Components.MultiContent import MultiContentEntryText, MultiContentEntryPixmapAlphaTest from Components.ActionMap import ActionMap, HelpableActionMap, NumberActionMap from Screens.Screen import Screen from Screens.Standby import TryQuitMainloop from Components.Sources.List import List from enigma import eSize, ePoint, eTimer, loadPNG, quitMainloop, eListbox, ePoint, RT_HALIGN_LEFT, RT_HALIGN_RIGHT, RT_HALIGN_CENTER, RT_VALIGN_CENTER, eListboxPythonMultiContent, gFont, getDesktop, ePicLoad, eServiceCenter, iServiceInformation, eServiceReference, iSeekableService, iPlayableService, iPlayableServicePtr from Components.MenuList import MenuList from Tools.LoadPixmap import LoadPixmap from Components.Pixmap import Pixmap from Components.Label import Label from Components.ServiceEventTracker import ServiceEventTracker, InfoBarBase from Screens.InfoBarGenerics import InfoBarShowHide, NumberZap, InfoBarSeek, InfoBarAudioSelection, InfoBarSubtitleSupport import base64 from Screens.MessageBox import MessageBox import os from os import environ, stat as os_stat, listdir as os_listdir, path as os_path, readlink as os_readlink, system as os_system from time import time import sys from xml.etree.cElementTree import fromstring, ElementTree import urllib2 import urllib as ul from datetime import datetime from time import time from Screens.Console import Console import re import urllib2 from twisted.web.client import downloadPage from Teclado import Teclado_FIXED, TecladoVirtualA from enigma import eAVSwitch from operator import itemgetter from Components.AVSwitch import AVSwitch from skin import loadSkin from Tools import Notifications, ASCIItranslit import hashlib from Screens.Console import Console from Components.Task import Task, Job, job_manager as JobManager, Condition from Screens.TaskView import JobView from urllib import urlencode, unquote, quote_plus from Components.Button import Button from Screens.InputBox import InputBox from Components.Input import Input from Screens.Standby import Standby from enigma import eDVBVolumecontrol from Components.config import config, ConfigBoolean, ConfigClock sys.path.append('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/server') from archivostvserver import scrapertools, httptools sys.path.append('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas') from megadede import Recap, NavegarPeliculas, Enlaces, Enlaces1, CompruebaLogin from mediaitem import * from proloader import * sys.path.append('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/Modulos') from ArchivostvModulos import html_parser_moduls CHANNEL_NUMBER = nVars.CHANNEL_NUMBER CHANNEL_NAME = nVars.CHANNEL_NAME FONT_0 = nVars.FONT_0 FONT_1 = nVars.FONT_1 BLOCK_H = nVars.BLOCK_H NTIMEOUT = nVars.NTIMEOUT import socket socket.setdefaulttimeout(NTIMEOUT) ############ Variables globales #################### Servidor = 0 logeadoplusdede = 0 logeoplusdede = 0 CarpetaTMP = "/tmp/archivostv/" VersionActual = 106 usuariopor = "florin2016" contrasenapor = "florin2016" user_agent_default = "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/61.0.3163.100 Safari/537.36" URLFINAL = "" PICONREPRODUCTOR = "" def Actualizador(): global VersionActual try: global Servidor Servidor = 1 print "Servidor 1" Buscaver = urllib2.urlopen("https://raw.githubusercontent.com/archivostvteam/pluginarchivostv/master/version") Respuesta = Buscaver.read() Buscaver.close() except: global Servidor Servidor = 2 print "Servidor 2" Buscaver = urllib2.urlopen("https://raw.githubusercontent.com/archivostvteam/updatepluginarchivostv/master/version") Respuesta = Buscaver.read() Buscaver.close() VersionMayor = re.findall(r'version=(.*)', Respuesta) VersionMayor = int(VersionMayor[0]) if VersionActual < VersionMayor: print "Version nueva detectada, iniciando actualizador." return True else: print "No hay versiones nuevas, iniciando plugin. " return False class iptv_streamse(): def __init__(self): global MODUL self.my_server_url = '' self.iptv_list = [] self.list_index = 0 self.iptv_list_tmp = [] self.list_index_tmp = 0 self.playlistname_tmp = '' self.video_status = False self.groups = [] self.server_oki = False self.user_mac = '' self.playlistname = '' self.next_page_url = '' self.next_page_text = '' self.prev_page_url = '' self.prev_page_text = '' self.search_text = '' self.portal = '' self.search_on = '' self.url = '' self.search_string = '' self.trial = '' self.trial_time = 30 self.startportal = '' self.use_rtmpw = False self.esr_id = 4097 self.play_vod = False self.play_iptv = False self.go_back = False self.film_info = [] self.xml_error = '' self.ar_id_start = 0 self.ar_id_player = 0 self.iptv_list_history = [] self.ar_exit = True self.ar_start = True self.ar_id_end = 0 self.clear_url = '' self.my_favorites = [] self.img_loader = True self.images_tmp_path = '/tmp' self.moviefolder = '/hdd/movie' self.meldung = '' self.trial = '' self.banned_text = '' self.trial_time = 30 self.timeout_time = 30 self.security_param = '' self.password = '1234' self.cont_play = False self.systems = '' self.playhack = '' self.url_tmp = '' self.security_key = '' self.delete_images = '' self.next_page_url_tmp = '' self.next_page_text_tmp = '' self.prev_page_url_tmp = '' self.prev_page_text_tmp = '' self.search_text_tmp = '' self.search_on_tmp = '' self.disable_audioselector = False MODUL = html_parser_moduls() def getValue(self, definitions, default): ret = '' Len = len(definitions) return Len > 0 and definitions[Len - 1].text or default def read_config(self): try: tree = ElementTree() xml = tree.parse('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas/ArchivostvConfig.xml') startportal = xml.findtext('startportal') if startportal and startportal != '': self.startportal = startportal self.url = self.startportal use_rtmpw = xml.findtext('use_rtmpw') if use_rtmpw and use_rtmpw != '': self.use_rtmpw = use_rtmpw esr_id = xml.findtext('esr_id') if esr_id and esr_id != '': self.esr_id = int(esr_id) ar_id = xml.findtext('ar_id_start') if ar_id and ar_id != '': self.ar_id_player = int(ar_id) else: self.ar_id_player = self.ar_id_start self.ar_start = False ar_id_end = xml.findtext('ar_id_end') if ar_id_end and ar_id_end != '': self.ar_id_end = int(ar_id_end) else: self.ar_exit = False self.img_loader = self.getValue(xml.findall('images_tmp'), False) self.images_tmp_path = self.getValue(xml.findall('images_tmp_path'), self.images_tmp_path) self.moviefolder = self.getValue(xml.findall('moviefolder'), self.moviefolder) self.password = self.getValue(xml.findall('password'), self.password) self.security_key = self.getValue(xml.findall('security_key'), self.security_key) self.delete_images = self.getValue(xml.findall('delete_images'), self.delete_images) self.delete_images = self.getValue(xml.findall('delete_images'), self.delete_images) self.disable_audioselector = self.getValue(xml.findall('disable_audioselector'), self.disable_audioselector) print '-----------CONFIG-----------' try: os.system("mkdir -p " + CarpetaTMP) print 'rutaTemporales %s' % CarpetaTMP except: pass print 'startportal %s' % self.startportal print 'use_rtmpw %s' % self.use_rtmpw print 'esr_id %i' % self.esr_id print 'START SCALE %s' % self.ar_start print 'END SCALE %s' % self.ar_exit print 'Images %s' % self.img_loader print 'Images Fol. %s' % self.images_tmp_path print 'Moviefolder %s' % self.moviefolder print 'password %s' % self.password print 'delete_images %s' % self.delete_images print 'disable_a.sel %s' % self.disable_audioselector print '-----------CONFIG------------' except Exception as ex: print '++++++++++ERROR READ CONFIG+++++++++++++' print ex def reset_buttons(self): self.kino_title = '' self.next_page_url = None self.next_page_text = '' self.prev_page_url = None self.prev_page_text = '' self.search_text = '' self.search_on = None return def get_list(self, url = None, send_mac = True): self.xml_error = '' self.url = url self.clear_url = url self.list_index = 0 iptv_list_temp = [] xml = None try: if url == 'playlist_history': if self.server_oki: self.iptv_list = self.iptv_list_history test = self.iptv_list self.playlistname = 'HISTORY' test.sort(reverse=True) elif url.find('megadede.comcom') != -1: ###### Aqui empezare con el tema de scrapear paginas, como Megadede ################# tree = ElementTree() xml = tree.parse('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas/megadede.xml') elif url.find('hdfull.comcom') != -1: tree = ElementTree() xml = tree.parse('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas/hdfull.xml') elif url == None or url == '': tree = ElementTree() xml = tree.parse('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas/archivostv.xml') elif url == 'favorites': tree = ElementTree() if self.server_oki: xml = tree.parse('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas/ArchivosFavorites.xml') elif url.find('StreamModul') > -1: url = url.replace('nStreamModul@', '') print 'START StreamModul' if self.search_string != '': url = url + '@' + self.search_string iptv_list_temp = MODUL.get_list(url) self.next_page_url = MODUL.next_page_url self.next_page_text = MODUL.next_page_text self.prev_page_url = MODUL.prev_page_url self.prev_page_text = MODUL.prev_page_text self.search_text = MODUL.search_text self.search_on = MODUL.search_on self.playlistname = MODUL.playlistname self.search_string = '' self.xml_error = MODUL.error elif url.find('http') > -1: xml = self._request(url, send_mac) else: tree = ElementTree() if url.find("/tmp/") != -1: xml = tree.parse(url) print "Deberia haber cargado la lista ya..." else: xml = tree.parse('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/' + url) if xml: self.next_page_url = '' self.next_page_text = '' self.prev_page_url = '' self.prev_page_text = '' self.search_text = '' self.protected = '' self.playlistname = xml.findtext('playlist_name').encode('utf-8') self.next_page_url = xml.findtext('next_page_url') next_page_text_element = xml.findall('next_page_url') if next_page_text_element: self.next_page_text = next_page_text_element[0].attrib.get('text').encode('utf-8') self.prev_page_url = xml.findtext('prev_page_url') prev_page_text_element = xml.findall('prev_page_url') if prev_page_text_element: self.prev_page_text = prev_page_text_element[0].attrib.get('text').encode('utf-8') self.search_on = xml.findtext('search_on') search_text_element = xml.findall('search_on') if search_text_element: self.search_text = search_text_element[0].attrib.get('text').encode('utf-8') chan_counter = 0 for channel in xml.findall('channel'): chan_counter = chan_counter + 1 name = channel.findtext('title').encode('utf-8') print name tipo = "playlist" if channel.findtext('tipo'): tipo = channel.findtext('tipo').encode('utf-8') piconname = channel.findtext('logo') description = channel.findtext('description') protected_search = channel.findtext('protected') if protected_search: protected = 'True' else: protected = None img_src = '' if description != None: description = description.encode('utf-8') img_src_list = re.findall('src="(.*?)"', description) if len(img_src_list) > 0: img_src = img_src_list[0] else: img_src_list = re.findall("src='(.*?)'", description) if len(img_src_list) > 0: img_src = img_src_list[0] description = description.replace('<br>', '\n') description = description.replace('<br/>', '\n') description = description.replace('</h1>', '</h1>\n') description = description.replace('</h2>', '</h2>\n') description = description.replace(' ', ' ') description4playlist_html = description text = re.compile('<[\\/\\!]*?[^<>]*?>') description = text.sub('', description) if channel.findtext('img_src'): img_src = channel.findtext('img_src').encode('utf-8') stream_url = channel.findtext('stream_url') if stream_url and self.use_rtmpw: stream_url = stream_url.replace('rtmp', 'http://127.0.0.1:1234/?r=rtmp') if stream_url.find('rtmp') > 0: name = name + ' [RTMPGW on]' historial = channel.findtext('historial') playlist_url = channel.findtext('playlist_url') category_id = channel.findtext('category_id') ts_stream = channel.findtext('ts_stream') chan_tulpe = (chan_counter, name, description, piconname, stream_url, playlist_url, category_id, img_src, description4playlist_html, protected, ts_stream, tipo, historial) iptv_list_temp.append(chan_tulpe) except Exception as ex: print ex self.xml_error = ex print '!!!!!!!!!!!!!!!!!! ERROR: XML to LISTE' if len(iptv_list_temp): self.iptv_list = iptv_list_temp else: print 'ERROR IPTV_LIST_LEN = %s' % len(iptv_list_temp) return def _request(self, url, mac = None): sign = '?' url = url.strip(' \t\n\r') if url.find('?') > -1: sign = '&' mac = self.user_mac if mac != None: mac = '' url = url + sign + 'box_mac=' + mac + self.security_key + self.security_param if self.search_string != '': url = url + '&' + self.search_on + '=' + ul.quote(self.search_string) try: req = urllib2.Request(url, None, {'User-agent': 'Mozilla/5.0 archivostv 0.1', 'Connection': 'Close'}) xmlstream = urllib2.urlopen(req, timeout=NTIMEOUT).read() res = fromstring(xmlstream) except Exception as ex: print ex print 'REQUEST Exception' res = None self.xml_error = ex self.search_string = '' return res def write_favorites(self): print 'START write_favorites' if self.server_oki: try: fileObj = open('/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas/ArchivostvFavorites.xml', 'w') fileObj.write('<?xml version="1.0" encoding="UTF-8" ?>\n') fileObj.write('<items>\n') fileObj.write('<playlist_name>Favorites</playlist_name>\n') for channel in self.my_favorites: fileObj.write('\t<channel>\n') fileObj.write('\t\t\t<title>%s</title>\n' % channel[1].replace(' [RTMPGW on]', '')) if channel[3]: fileObj.write('\t\t\t<logo><![CDATA[%s]]></logo>\n' % channel[3]) if channel[4]: fileObj.write('\t\t\t<stream_url><![CDATA[%s]]></stream_url>\n' % channel[4].replace('http://127.0.0.1:1234/?r=rtmp', 'rtmp')) if channel[5]: fileObj.write('\t\t\t<playlist_url><![CDATA[%s]]></playlist_url>\n' % channel[5]) fileObj.write('\t\t\t<description><![CDATA[%s]]></description>\n' % channel[8]) if channel[9]: fileObj.write('\t\t\t<protected><![CDATA[%s]]></protected>\n' % channel[9]) if channel[10]: fileObj.write('\t\t\t<ts_stream><![CDATA[%s]]></ts_stream>\n' % channel[10]) fileObj.write('\t</channel>\n\n\n') fileObj.write('</items>\n') fileObj.close() except Exception as ex: print ex print 'Exception write_favorites' print 'END write_favorites' def korder(wert): return base64.encodestring(base64.encodestring(wert)) def derkorder(wert): return base64.decodestring(base64.decodestring(wert)) try: from Tools.Directories import fileExists, pathExists from Components.Network import iNetwork except Exception as ex: print ex print 'IMPORT ERROR' from Tools.BoundFunction import boundFunction PLUGIN_PATH = '/usr/lib/enigma2/python/Plugins/Extensions/archivostv/cosas' loadSkin(PLUGIN_PATH + '/ArchivostvSkin.xml') VERSION = VersionActual print '-->%d<----' % VERSION HW_INFO = {} from enigma import addFont try: addFont('%s/MyriadPro-Regular.otf' % PLUGIN_PATH, 'RegularIPTV', 100, 1) except Exception as ex: print ex try: import commands except Exception as ex: print ex try: import servicewebts print 'OK servicewebts NSTREAM *******************************************************' except Exception as ex: print ex print 'ERROR servicewebts NSTREAM *******************************************************' class IPTVInfoBarShowHide(): """ InfoBar show/hide control, accepts toggleShow and hide actions, might start fancy animations. """ STATE_HIDDEN = 0 STATE_HIDING = 1 STATE_SHOWING = 2 STATE_SHOWN = 3 def __init__(self): self['ShowHideActions'] = ActionMap(['InfobarShowHideActions'], {'toggleShow': self.toggleShow, 'hide': self.hide}, 1) self.__event_tracker = ServiceEventTracker(screen=self, eventmap={iPlayableService.evStart: self.serviceStarted}) self.__state = self.STATE_SHOWN self.__locked = 0 self.hideTimer = eTimer() self.hideTimer.callback.append(self.doTimerHide) self.hideTimer.start(5000, True) self.onShow.append(self.__onShow) self.onHide.append(self.__onHide) def serviceStarted(self): if self.execing: if config.usage.show_infobar_on_zap.value: self.doShow() def __onShow(self): self.__state = self.STATE_SHOWN self.startHideTimer() def startHideTimer(self): if self.__state == self.STATE_SHOWN and not self.__locked: idx = config.usage.infobar_timeout.index if idx: self.hideTimer.start(idx * 1000, True) def __onHide(self): self.__state = self.STATE_HIDDEN def doShow(self): self.show() self.startHideTimer() def doTimerHide(self): self.hideTimer.stop() if self.__state == self.STATE_SHOWN: self.hide() def toggleShow(self): if self.__state == self.STATE_SHOWN: self.hide() self.hideTimer.stop() elif self.__state == self.STATE_HIDDEN: self.show() def lockShow(self): self.__locked = self.__locked + 1 if self.execing: self.show() self.hideTimer.stop() def unlockShow(self): self.__locked = self.__locked - 1 if self.execing: self.startHideTimer() def debug(obj, text = ''): print datetime.fromtimestamp(time()).strftime('[%H:%M:%S]') print text + ' %s\n' % obj class downloadJob(Job): def __init__(self, toolbox, cmdline, filename, filetitle): Job.__init__(self, 'Download: %s' % filetitle) self.filename = filename self.toolbox = toolbox self.retrycount = 0 downloadTask(self, cmdline, filename) def retry(self): self.retrycount += 1 self.restart() def cancel(self): self.abort() class downloadTask(Task): ERROR_CORRUPT_FILE, ERROR_RTMP_ReadPacket, ERROR_SEGFAULT, ERROR_SERVER, ERROR_UNKNOWN = range(5) def __init__(self, job, cmdline, filename): Task.__init__(self, job, _('Downloading ...')) self.postconditions.append(downloadTaskPostcondition()) self.setCmdline(cmdline) self.filename = filename self.toolbox = job.toolbox self.error = None self.lasterrormsg = None return def processOutput(self, data): try: if data.endswith('%)'): startpos = data.rfind('sec (') + 5 if startpos and startpos != -1: self.progress = int(float(data[startpos:-4])) elif data.find('%') != -1: tmpvalue = data[:data.find('%')] tmpvalue = tmpvalue[tmpvalue.rfind(' '):].strip() tmpvalue = tmpvalue[tmpvalue.rfind('(') + 1:].strip() self.progress = int(float(tmpvalue)) else: Task.processOutput(self, data) except Exception as errormsg: print 'Error processOutput: ' + str(errormsg) Task.processOutput(self, data) def processOutputLine(self, line): line = line[:-1] self.lasterrormsg = line if line.startswith('ERROR:'): if line.find('RTMP_ReadPacket') != -1: self.error = self.ERROR_RTMP_ReadPacket elif line.find('corrupt file!') != -1: self.error = self.ERROR_CORRUPT_FILE os_system('rm -f %s' % self.filename) else: self.error = self.ERROR_UNKNOWN elif line.startswith('wget:'): if line.find('server returned error') != -1: self.error = self.ERROR_SERVER elif line.find('Segmentation fault') != -1: self.error = self.ERROR_SEGFAULT def afterRun(self): if self.getProgress() == 0 or self.getProgress() == 100: message = 'Movie successfully transfered to your HDD!' + '\n' + self.filename web_info(message) class downloadTaskPostcondition(Condition): RECOVERABLE = True def check(self, task): if task.returncode == 0 or task.error is None: return True else: return False return def getErrorMessage(self, task): return {task.ERROR_CORRUPT_FILE: _('Video Download Failed!\n\nCorrupted Download File:\n%s' % task.lasterrormsg), task.ERROR_RTMP_ReadPacket: _('Video Download Failed!\n\nCould not read RTMP-Packet:\n%s' % task.lasterrormsg), task.ERROR_SEGFAULT: _('Video Download Failed!\n\nSegmentation fault:\n%s' % task.lasterrormsg), task.ERROR_SERVER: _('Video Download Failed!\n\nServer returned error:\n%s' % task.lasterrormsg), task.ERROR_UNKNOWN: _('Video Download Failed!\n\nUnknown Error:\n%s' % task.lasterrormsg)}[task.error] VIDEO_ASPECT_RATIO_MAP = {0: '4:3 Letterbox', 1: '4:3 PanScan', 2: '16:9', 3: '16:9 Always', 4: '16:10 Letterbox', 5: '16:10 PanScan', 6: '16:9 Letterbox'} def getInfo(): try: info = {} brand = 'Dream Multimedia' model = 'unknown' chipset = 'unknown' mac = '' if fileExists('/proc/stb/info/vumodel'): brand = 'Vuplus' f = open('/proc/stb/info/vumodel', 'r') model = f.readline().strip() f.close() elif fileExists('/proc/stb/info/boxtype'): brand = 'Clarke-Xtrend' f = open('/proc/stb/info/boxtype', 'r') model = f.readline().strip() f.close() else: f = open('/proc/stb/info/model', 'r') model = f.readline().strip() f.close() if fileExists('/proc/stb/info/chipset'): f = open('/proc/stb/info/chipset', 'r') chipset = f.readline().strip() f.close() info['brand'] = brand info['model'] = model info['chipset'] = chipset try: ifaces = iNetwork.getConfiguredAdapters() mac = iNetwork.getAdapterAttribute(ifaces[0], 'mac') except Exception as ex: print ex mac = '' print 'ERROR info[mac]' pidarodelitor(mac) info['mac'] = mac except Exception as ex: print ex print 'ERROR GET HW INFO' return info def nextAR(): try: STREAMS.ar_id_player += 1 if STREAMS.ar_id_player > 6: STREAMS.ar_id_player = 0 eAVSwitch.getInstance().setAspectRatio(STREAMS.ar_id_player) print 'STREAMS.ar_id_player NEXT %s' % VIDEO_ASPECT_RATIO_MAP[STREAMS.ar_id_player] return VIDEO_ASPECT_RATIO_MAP[STREAMS.ar_id_player] except Exception as ex: print ex return 'nextAR ERROR %s' % ex def prevAR(): try: STREAMS.ar_id_player -= 1 if STREAMS.ar_id_player == -1: STREAMS.ar_id_player = 6 eAVSwitch.getInstance().setAspectRatio(STREAMS.ar_id_player) print 'STREAMS.ar_id_player PREV %s' % VIDEO_ASPECT_RATIO_MAP[STREAMS.ar_id_player] return VIDEO_ASPECT_RATIO_MAP[STREAMS.ar_id_player] except Exception as ex: print ex return 'prevAR ERROR %s' % ex def menu(menuid, **kwargs): if menuid == 'mainmenu': return [('archivostv', Start_iptv_palyer, 'archivostv', 4)] return [] def getmac(eth): global MAC mac = None try: mac = os.popen("ip link show %s | awk '/ether/ {print $2}'" % eth).read() print 'os.popen' except Exception as ex: print ex print 'getmac' try: ifconfig = commands.getoutput('ifconfig ' + eth) print 'ifconfig' mac_search = re.search('\\w\\w:\\w\\w:.+\n', ifconfig) mac = mac_search.group(0).lower() except Exception as ex: print ex print 'getmac2' mac = mac.strip(' \t\n\r') if mac is None: parsedMac = 'xxxxxxxxxxx' else: parsedMac = mac MAC = parsedMac return parsedMac def web_info(message): try: message = quote_plus(str(message)) cmd = "wget 'http://127.0.0.1/web/message?type=2&timeout=10&text=%s' 2>/dev/null &" % message debug(cmd, 'CMD -> Console -> WEBIF') os.popen(cmd) except: print 'web_info ERROR' def Start_iptv_palyer(session, **kwargs): global ARSHAVIR_PARSER global URL global YOUTUBE global VERSION global STREAMS global HW_INFO global GOSHA_PARSER print '\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n\n' print '######################################################################' print '#######--------------- START archivostv v%d ---------------#######' % VERSION print '######################################################################' HW_INFO = getInfo() print HW_INFO['brand'] print HW_INFO['model'] print HW_INFO['chipset'] STREAMS = iptv_streamse() URL = STREAMS.my_server_url STREAMS.read_config() try: STREAMS.user_mac = getmac('eth0') print 'MAC from Console' except: STREAMS.user_mac = HW_INFO['mac'] print 'MAC from Enigma2' if STREAMS.ar_start: eAVSwitch.getInstance().setAspectRatio(STREAMS.ar_id_start) print 'setAspectRatio(STREAMS.ar_id_start)' try: YOUTUBE = youtube_url() GOSHA_PARSER = gosha_parsers() ARSHAVIR_PARSER = arshavir_parsers() except Exception as ex: print ex print 'PARSER ERROR' if STREAMS.use_rtmpw: try: cmd = '/usr/bin/rtmpgw -g 1234 -v 2>/dev/null &' os.popen(cmd) debug(cmd) except Exception as ex: print ex print 'rtmpgw' STREAMS.get_list('favorites') STREAMS.my_favorites = STREAMS.iptv_list STREAMS.get_list(STREAMS.startportal) Actualiza = Actualizador() if Actualiza == True and Servidor == 1: try: session.open(AjustesPluginArchivosTV) except Exception as err: print err print err print err elif Actualiza == True and Servidor == 2: session.open(AjustesPluginArchivosTV) elif Actualiza == False: session.open(artvPlaylist) class artvIPTVplayer(Screen, InfoBarBase, IPTVInfoBarShowHide, InfoBarAudioSelection, InfoBarSubtitleSupport): def __init__(self, session): Screen.__init__(self, session) InfoBarBase.__init__(self, steal_current_service=True) IPTVInfoBarShowHide.__init__(self) if STREAMS.disable_audioselector == False: InfoBarAudioSelection.__init__(self) InfoBarSubtitleSupport.__init__(self) self['channel_name'] = Label('') self['picon'] = Pixmap() self.picload = ePicLoad() self.picfile = '' self['programm'] = Label('') self.InfoBar_NabDialog = Label('') self.session = session self['channel_number'] = Label('') self.channel_list = STREAMS.iptv_list self.index = STREAMS.list_index STREAMS.play_vod = False self['group'] = Label('') self['time_now'] = Label('') self.oldService = self.session.nav.getCurrentlyPlayingServiceReference() self.onFirstExecBegin.append(self.play_channel) self['actions'] = HelpableActionMap(self, 'nStreamPlayerIPTV', {'toChListIPTV': self.exit, 'prevChannelIPTV': self.prevChannel, 'nextChannelIPTV': self.nextChannel, 'nextAR': self.nextAR, 'prevAR': self.prevAR, 'power': self.power_off}, -1) self['myNumberActions'] = NumberActionMap(['NumberActions', 'InfobarAudioSelectionActions', 'InfobarTeletextActions'], {'1': self.keyNumberGlobal, '2': self.keyNumberGlobal, '3': self.keyNumberGlobal, '4': self.keyNumberGlobal, '5': self.keyNumberGlobal, '6': self.keyNumberGlobal, '7': self.keyNumberGlobal, '8': self.keyNumberGlobal, '9': self.keyNumberGlobal, '0': self.keyNumberGlobal}, -1) self.StateTimer = eTimer() self.StateTimer.callback.append(self.trialWarning) if STREAMS.trial != '': self.StateTimer.start(STREAMS.trial_time * 1000, True) def nextAR(self): message = nextAR() self.session.open(MessageBox, message, type=MessageBox.TYPE_INFO, timeout=3) def prevAR(self): message = prevAR() self.session.open(MessageBox, message, type=MessageBox.TYPE_INFO, timeout=3) def trialWarning(self): self.StateTimer.start(STREAMS.trial_time * 1000, True) self.session.open(MessageBox, STREAMS.trial, type=MessageBox.TYPE_INFO, timeout=STREAMS.timeout_time) def exit(self): self.close() def power_off(self): self.close(1) def keyNumberGlobal(self, number): self.session.openWithCallback(self.numberEntered, NumberZap, number) def numberEntered(self, num): self.index = num - 1 if self.index >= 0: if self.index < len(self.channel_list): STREAMS.play_iptv = False self.play_channel() def decodeImage(self): try: x = self['picon'].instance.size().width() y = self['picon'].instance.size().height() picture = self.picfile picload = self.picload sc = AVSwitch().getFramebufferScale() picload.setPara((x, y, sc[0], sc[1], 0, 0, '#00000000')) l = picload.PictureData.get() del l[:] l.append(boundFunction(self.showImage)) picload.startDecode(picture) except Exception as ex: print ex print 'ERROR decodeImage' def showImage(self, picInfo = None): self['picon'].show() try: ptr = self.picload.getData() if ptr: self['picon'].instance.setPixmap(ptr.__deref__()) except Exception as ex: print ex print 'ERROR showImage' def play_channel(self): try: self['time_now'].setText(datetime.fromtimestamp(time()).strftime('%H:%M')) STREAMS.list_index_tmp = self.index entry = self.channel_list[self.index] self['channel_number'].setText('%i' % entry[0]) self['channel_name'].setText(entry[1]) text = re.compile('<[\\/\\!]*?[^<>]*?>') text_clear = '' if entry[2] != None: text_clear = text.sub('', entry[2]) self['programm'].setText(text_clear) try: self['picon'].instance.setPixmapFromFile(PLUGIN_PATH + '/img/clear.png') debug(entry[3], 'entry[3] IPTVLOOGO') if entry[3] != '': if entry[3].find('http') == -1: self.picfile = PLUGIN_PATH + '/img/playlist/' + entry[3] self.decodeImage() print 'LOCAL IPTV IMG' else: if STREAMS.img_loader == False: self.picfile = '%s/archivostv_tmp_pic.jpg' % STREAMS.images_tmp_path else: m = hashlib.md5() m.update(entry[3]) cover_md5 = m.hexdigest() self.picfile = '%s/%s.jpg' % (STREAMS.images_tmp_path, cover_md5) if os.path.exists(self.picfile) == False or STREAMS.img_loader == False: downloadPage(entry[3], self.picfile).addCallback(self.image_downloaded) else: self.decodeImage() except Exception as ex: print ex print 'update PICON' if STREAMS.play_iptv == False or STREAMS.play_vod == True: try: STREAMS.play_iptv = True if entry[10] and STREAMS.server_oki: id_s = STREAMS.esr_id else: id_s = 4097 url = entry[4] self.session.nav.stopService() if url != '' and url != None: sref = eServiceReference(id_s, 0, url) try: self.session.nav.playService(sref) except Exception as ex: print 'play_channel' print ex except Exception as ex: print ex print 'play_channel1' except Exception as ex: print ex print 'play_channel2' return def image_downloaded(self, id): self.decodeImage() def nextChannel(self): index = self.index index += 1 if index == len(self.channel_list): index = 0 if self.channel_list[index][4] != None: self.index = index STREAMS.play_iptv = False STREAMS.list_index = self.index STREAMS.list_index_tmp = self.index self.play_channel() return def prevChannel(self): index = self.index index -= 1 if index == -1: index = len(self.channel_list) - 1 if self.channel_list[index][4] != None: self.index = index STREAMS.play_iptv = False STREAMS.list_index = self.index STREAMS.list_index_tmp = self.index self.play_channel() return def osilider(deliter): try: os_system(deliter) except Exception as ex: try: os.popen(deliter) except Exception as ex: try: commands.getoutput(deliter) except Exception as ex: x = 0 def channelEntryIPTVplaylist(entry): menu_entry = [entry, (eListboxPythonMultiContent.TYPE_TEXT, CHANNEL_NUMBER[0], CHANNEL_NUMBER[1], CHANNEL_NUMBER[2], CHANNEL_NUMBER[3], CHANNEL_NUMBER[4], RT_HALIGN_CENTER, '%s' % entry[0]), (eListboxPythonMultiContent.TYPE_TEXT, CHANNEL_NAME[0], CHANNEL_NAME[1], CHANNEL_NAME[2], CHANNEL_NAME[3], CHANNEL_NAME[4], RT_HALIGN_LEFT, entry[1])] return menu_entry class artvPlaylist(Screen): def __init__(self, session): Screen.__init__(self, session) self.session = session self.channel_list = STREAMS.iptv_list self.index = STREAMS.list_index self['time'] = Label() self['version'] = Label() self.banned = False self.banned_text = '' self.mlist = MenuList([], enableWrapAround=True, content=eListboxPythonMultiContent) self.mlist.l.setFont(0, gFont(FONT_0[0], FONT_0[1])) self.mlist.l.setFont(1, gFont(FONT_1[0], FONT_1[1])) self.mlist.l.setItemHeight(BLOCK_H) self['feedlist'] = self.mlist self.mlist.setList(map(channelEntryIPTVplaylist, self.channel_list)) self.mlist.onSelectionChanged.append(self.update_description) self['description'] = Label() self['info'] = Label() self['playlist'] = Label() self['chplus'] = Label() self['chminus'] = Label() self['stop'] = Label() self.onShown.append(self.show_all) self.onFirstExecBegin.append(self.setState) self['poster'] = Pixmap() self['poster'].hide() self.picload = ePicLoad() self.picfile = '' self['pixmap2'] = Pixmap() self['pixmap3'] = Pixmap() self['pixmap4'] = Pixmap() self['pixmap2a'] = Pixmap() self['pixmap3a'] = Pixmap() self['pixmap4a'] = Pixmap() self.update_desc = True self.pass_ok = False self.oldService = self.session.nav.getCurrentlyPlayingServiceReference() self['actions'] = HelpableActionMap(self, 'nStreamPlayerPlaylist', {'homePlaylist': self.start_portal, 'historyPlaylist': self.start_history, 'ok': self.ok, 'startIPTV': self.play_iptv, 'backToVideo': self.back_to_video, 'exitPlugin': self.exit_box, 'prevPlaylist': self.prevPlaylist, 'nextPlaylist': self.nextPlaylist, 'moreInfo': self.show_more_info, 'search': self.search, 'addChannelToFavorites': self.addChannelToFavorites_box, 'removeChannelFromFavorites': self.removeChannelFromFavorites_box, 'taskManager': self.taskManager, 'power': self.power, 'showmac': self.showmac}, -1) self.temp_index = 0 self.temp_channel_list = None self.temp_playlistname = None self.url_tmp = None self.work_with_favorites = False self.search_on = None self.video_back = False self.passwd_ok = False return def taskManager(self): self.session.open(nStreamTasksScreen) def showmac(self): self.session.open(MessageBox, 'MAC ' + MAC, type=MessageBox.TYPE_INFO, timeout=30) def addChannelToFavorites_box(self): try: self.url_tmp = STREAMS.url self.temp_channel_list = self.channel_list self.temp_index = self.mlist.getSelectionIndex() self.selected_channel = self.channel_list[self.temp_index] self.session.openWithCallback(self.addChannelToFavorites, MessageBox, '%s\nADD TO FAVORITES?' % self.selected_channel[1], type=MessageBox.TYPE_YESNO) except Exception as ex: print ex def addChannelToFavorites(self, message = None): if message: try: selected_channel = self.temp_channel_list[self.temp_index] STREAMS.my_favorites.append(selected_channel) self.session.open(MessageBox, '%s\nADDED TO FAVORITES' % selected_channel[1], type=MessageBox.TYPE_INFO, timeout=3) STREAMS.write_favorites() self.work_with_favorites = True except Exception as ex: print ex print 'EXC addChannelToFavorites' def removeChannelFromFavorites_box(self): try: if STREAMS.playlistname == 'Favorites': self.temp_index = self.mlist.getSelectionIndex() selected_channel = self.channel_list[self.temp_index] self.session.openWithCallback(self.removeChannelFromFavorites, MessageBox, '%s\nREMOVE FROM FAVORITES?' % selected_channel[1], type=MessageBox.TYPE_YESNO) else: self.start_favorites() except Exception as ex: print ex def removeChannelFromFavorites(self, message = None): if message: try: my_temp_fav = [] selected_channel = self.channel_list[self.temp_index] for channel in STREAMS.iptv_list: if channel != selected_channel: my_temp_fav.append(channel) else: print 'REMOVE' STREAMS.my_favorites = my_temp_fav STREAMS.write_favorites() self.iptv_list = my_temp_fav STREAMS.get_list('favorites') self.channel_list = STREAMS.iptv_list self.update_channellist() self.work_with_favorites = False self.session.open(MessageBox, '%s REMOVED FROM FAVORITES' % selected_channel[1], type=MessageBox.TYPE_INFO, timeout=3) except Exception as ex: print ex print 'EXC removeChannelToFavorites' print 'END REMOVE' def search(self): self.url_tmp = STREAMS.url self.search_on = STREAMS.search_on if STREAMS.search_text != '': self.session.openWithCallback(self.searchResult, Teclado_FIXED, title=_('Enter your search term(s)'), text='') def searchResult(self, message = None): if message: try: STREAMS.search_string = message STREAMS.search_on = self.search_on STREAMS.get_list(self.url_tmp) self.update_channellist() except Exception as ex: print ex print 'SEARCH RESULT' def setState(self): try: if STREAMS.meldung != '': self.session.open(MessageBox, STREAMS.meldung, type=MessageBox.TYPE_INFO, timeout=STREAMS.timeout_time) if STREAMS.trial != '': self.session.open(MessageBox, STREAMS.trial, type=MessageBox.TYPE_INFO, timeout=STREAMS.timeout_time) if STREAMS.banned_text != '': self.banned_text = STREAMS.banned_text self.session.open(MessageBox, STREAMS.banned_text, type=MessageBox.TYPE_ERROR, timeout=STREAMS.timeout_time) self.banned = True except Exception as ex: print ex print 'ERROR sState' def show_more_info(self): selected_channel = self.channel_list[self.mlist.getSelectionIndex()] text = re.compile('<[\\/\\!]*?[^<>]*?>') text_clear = '' text_clear = text.sub('', selected_channel[2]) self.session.open(MessageBox, text_clear, type=MessageBox.TYPE_INFO) def prevPlaylist(self): if STREAMS.prev_page_url != None: STREAMS.get_list(STREAMS.prev_page_url) self.update_channellist() return def nextPlaylist(self): if STREAMS.next_page_url != None: STREAMS.get_list(STREAMS.next_page_url) self.update_channellist() return def button_updater(self): self['pixmap2'].hide() self['pixmap3'].hide() self['pixmap4'].hide() self['pixmap2a'].hide() self['pixmap3a'].hide() self['pixmap4a'].hide() self['chminus'].setText('') self['chplus'].setText('') self['stop'].setText('') if STREAMS.next_page_url != None and STREAMS.next_page_url != '': self['chplus'].setText(STREAMS.next_page_text) self['pixmap3'].show() self['pixmap3a'].show() if STREAMS.prev_page_url != None and STREAMS.prev_page_url != '': self['chminus'].setText(STREAMS.prev_page_text) self['pixmap2'].show() self['pixmap2a'].show() if STREAMS.search_on != None and STREAMS.search_on != '': self['stop'].setText(STREAMS.search_text) self['pixmap4'].show() self['pixmap4a'].show() self['playlist'].setText(STREAMS.playlistname) return def decodeImage(self): try: x = self['poster'].instance.size().width() y = self['poster'].instance.size().height() y = 500 picture = self.picfile picload = self.picload sc = AVSwitch().getFramebufferScale() picload.setPara((x, y, sc[0], sc[1], 0, 0, '#00000000')) l = picload.PictureData.get() del l[:] l.append(boundFunction(self.showImage)) picload.startDecode(picture) except Exception as ex: print ex print 'ERROR decodeImage' def showImage(self, picInfo = None): self['poster'].show() try: ptr = self.picload.getData() if ptr: self['poster'].instance.setPixmap(ptr.__deref__()) except Exception as ex: print ex print 'ERROR showImage' def image_downloaded(self, id): self.decodeImage() def exit_box(self): self.session.openWithCallback(self.exit, MessageBox, _('Exit Plugin?'), type=MessageBox.TYPE_YESNO) def exit(self, message = None): if message: if STREAMS.use_rtmpw: try: cmd = 'killall -9 rtmpgw' os.popen(cmd) debug(cmd) except Exception as ex: print ex print 'exit_rtmp' print 'STREAMS.ar_id_end %i' % STREAMS.ar_id_end if STREAMS.ar_start: test = eAVSwitch.getInstance().setAspectRatio(STREAMS.ar_id_end) print 'eAVSwitch.getInstance().setAspectRatio %s' % test else: print 'SET A-RATIO OFF' if STREAMS.delete_images != '': debug('DELETE .JPG') path = STREAMS.images_tmp_path cmd = 'rm -f %s/*.jpg' % path debug(cmd, 'CMD') try: status = os.popen(cmd).read() debug(status, 'delete 1') except Exception as ex: print ex print 'ex delete 1' try: result = commands.getoutput(cmd) debug(result, 'delete 2') except Exception as ex: print ex print 'ex delete 2' try: os.system("rm -rf " + CarpetaTMP) except: pass self.session.nav.playService(self.oldService) self.close() def new_debug(self): print 'new_debug-----------------------------------------' print 'STREAMS.playlistname : %s' % STREAMS.playlistname print 'STREAMS.list_index : %s' % STREAMS.list_index print 'LEN(STREAMS.iptv_list) : %s' % len(STREAMS.iptv_list) print 'self.index : %s' % self.index print 'self.mlist.getSelectionIndex() : %s' % self.mlist.getSelectionIndex() print 'new_debug-----------------------------------------' def update_description(self): self.index = self.mlist.getSelectionIndex() if self.update_desc: try: self['info'].setText('') self['description'].setText('') self['poster'].instance.setPixmapFromFile(PLUGIN_PATH + '/img/clear.png') selected_channel = self.channel_list[self.index] if selected_channel[7] != '': if selected_channel[7].find('http') == -1: if selected_channel[8].find('megadede') != -1 or selected_channel[8].find('hdfull'): self.picfile = selected_channel[7] else: self.picfile = PLUGIN_PATH + '/img/playlist/' + selected_channel[7] self.decodeImage() print 'LOCAL DESCR IMG' else: if STREAMS.img_loader == False: self.picfile = '%s/archivostv_tmp_pic.jpg' % STREAMS.images_tmp_path else: m = hashlib.md5() m.update(selected_channel[7]) cover_md5 = m.hexdigest() self.picfile = '%s/%s.jpg' % (STREAMS.images_tmp_path, cover_md5) if os.path.exists(self.picfile) == False or STREAMS.img_loader == False: downloadPage(selected_channel[7], self.picfile).addCallback(self.image_downloaded) else: self.decodeImage() if selected_channel[2] != None: description = selected_channel[2] description_2 = description.split(' #-# ') if description_2: self['description'].setText(description_2[0]) if len(description_2) > 1: self['info'].setText(description_2[1]) else: self['description'].setText(description) except Exception as ex: print ex print 'exe update_description' return def start_portal(self): self.index = 0 STREAMS.get_list(STREAMS.startportal) self.update_channellist() def start_history(self): self.index = 0 STREAMS.get_list('playlist_history') self.update_channellist() def start_favorites(self): self.index = 0 STREAMS.get_list('favorites') self.update_channellist() def update_channellist(self): print '--------------------- UPDATE CHANNEL LIST ----------------------------------------' if STREAMS.xml_error != '': if STREAMS.clear_url.encode('utf-8').find('megadede.com') != -1 or STREAMS.clear_url.encode('utf-8').find('hdfull') != -1: pass else: print '### update_channellist ######URL#############' print STREAMS.clear_url error_text = 'PLAYLIST ERROR:\n%s\n\nURL:\n%s' % (STREAMS.xml_error, STREAMS.clear_url.encode('utf-8')) self.session.open(MessageBox, error_text, type=MessageBox.TYPE_ERROR, timeout=30) self['chminus'].setText('') self['chplus'].setText('') self['stop'].setText('') self.channel_list = STREAMS.iptv_list self.update_desc = False self.mlist.setList(map(channelEntryIPTVplaylist, self.channel_list)) self.mlist.moveToIndex(0) self.update_desc = True self.update_description() self.button_updater() def show_all(self): try: if self.passwd_ok == False: self['time'].setText(datetime.fromtimestamp(time()).strftime('%H:%M')) self['version'].setText('v%s by nitrogen14 - www.pristavka.de' % VERSION) if self.video_back == False and STREAMS.video_status == True and STREAMS.search_string == '' and self.work_with_favorites == False: debug('SHOW ----- TMP CH LIST') self.load_from_tmp() self.video_back = True elif self.work_with_favorites == True and STREAMS.search_string == '': debug('SHOW ----- FAV LIST') self.index = self.temp_index self.channel_list = self.temp_channel_list STREAMS.playlistname = self.temp_playlistname self.work_with_favorites = False else: debug('SHOW ----- NEW CH LIST') self.channel_list = STREAMS.iptv_list self.mlist.moveToIndex(self.index) self.mlist.setList(map(channelEntryIPTVplaylist, self.channel_list)) self.mlist.selectionEnabled(1) self.button_updater() self.passwd_ok = False except Exception as ex: print ex print 'EXX showall' def back_to_video(self): try: if STREAMS.video_status: self.video_back = False self.load_from_tmp() self.channel_list = STREAMS.iptv_list if STREAMS.play_iptv == True: self.session.open(artvIPTVplayer) elif STREAMS.play_vod == True: self.session.open(artvplayer) except Exception as ex: print ex print 'EXC back_to_video' def ok(self): self.index_tmp = self.mlist.getSelectionIndex() if self.banned == True: self.session.open(MessageBox, self.banned_text, type=MessageBox.TYPE_ERROR, timeout=5) else: selected_channel = self.channel_list[self.mlist.getSelectionIndex()] STREAMS.list_index = self.mlist.getSelectionIndex() title = selected_channel[1] if selected_channel[0] != '[H]': title = datetime.fromtimestamp(time()).strftime('[%H:%M:%S %d/%m] ') + selected_channel[1] selected_channel_history = ('[H]', title, selected_channel[2], selected_channel[3], selected_channel[4], selected_channel[5], selected_channel[6], selected_channel[7], selected_channel[8], selected_channel[9], selected_channel[11]) STREAMS.iptv_list_history.append(selected_channel_history) self.temp_index = -1 if selected_channel[9] != None: self.temp_index = self.index self.myPassInput() else: self.ok_checked() return def ok_checked(self): try: global logeadoplusdede global logeoplusdede if self.temp_index > -1: self.index = self.temp_index selected_channel = STREAMS.iptv_list[self.index] nombre = selected_channel[1] stream_url = selected_channel[4] playlist_url = selected_channel[5] imagen = selected_channel[7] tipo = selected_channel[11] historial = selected_channel[12] if tipo.find('megadede') != -1: from megadede import CompruebaLogin Comp = CompruebaLogin(self) if Comp == False: logeadoplusdede = 1 logeoplusdede = 1 try: if logeadoplusdede == 0 and logeoplusdede == 0: LOGIIN = Recap(self, usuariopor, contrasenapor, 0, selected_channel) if LOGIIN != None: self.session.open(MessageBox,_("El login a fallado asegurate de que has puesto bien el usuario y contraseña"), MessageBox.TYPE_INFO, timeout=8) return logeoplusdede = 1 else: #LLego aqui cuando SI estoy logeado..." pass except Exception as er: print "Error: " + str(er) + " en CompruebaLogin PLUGIN" print "Error: " + str(er) + " en CompruebaLogin PLUGIN" logeadoplusdede = 0 logeoplusdede = 0 self.session.open(MessageBox,_("El login a PLUSDEDE a fallado por:\n\n" + str(er)) + "\n\n Intentalo de nuevo entrando en la seccion otra vez.", MessageBox.TYPE_INFO, timeout=8) if logeadoplusdede == 0 and logeoplusdede == 1: logeadoplusdede = 1 return else: pass if logeadoplusdede == 1 and logeoplusdede == 1: #Entramos en la comprobación de login. Compruebalo = CompruebaLogin(self) if Compruebalo == False: print "" pass # Aqui estamos logeados asi que lo dejamos pasar else: logeadoplusdede = 0 logeoplusdede = 0 LOGIIN = Recap(self, usuariopor, contrasenapor, 0, selected_channel) if LOGIIN != None: self.session.open(MessageBox,_("El login a fallado asegurate de que has puesto bien el usuario y contrasena"), MessageBox.TYPE_INFO, timeout=8) return logeadoplusdede = 1 logeoplusdede = 1 return if tipo.find('megadedeLinks') != -1: from megadede import Enlaces1 try: MediaItm = CMediaItem() MediaItm.name = selected_channel[1] MediaItm.URL = selected_channel[5] MediaItm.thumb = selected_channel[7] MediaItm.processor = selected_channel[4] LanzaXV = Enlaces1(self, MediaItm.URL) MediaItm.URL = LanzaXV cargapro = CURLLoader(self.session) Resul = cargapro.geturl_processor(MediaItm) if Resul[0] == 0: if Resul[1] != "": playlist_url = None stream_url = Resul[1] global URLFINAL URLFINAL = Resul[1] elif Resul[0] == 1: self.session.open(MessageBox,(str(Resul[2])), MessageBox.TYPE_ERROR) else: pass except Exception as er: print "Error: " + str(er) + " en megadedeLinks PLUGIN" print "Error: " + str(er) + " en megadedeLinks PLUGIN" self.session.open(MessageBox,("Ha ocurrido un error:\n" + str(er) + "\nIntentalo de nuevo."), MessageBox.TYPE_ERROR) if tipo.find('megadedeEnlaces') != -1: from megadede import Enlaces try: global PICONREPRODUCTOR PICONREPRODUCTOR = imagen LanzaEnlaces = Enlaces(self, selected_channel[1], selected_channel[5], selected_channel[8], historial) if LanzaEnlaces == None: self.session.open(MessageBox,("Ha ocurrido un error:\nNo hay enlaces para la pelicula que estás intentando ver.\nPrueba otro día."), MessageBox.TYPE_ERROR) return STREAMS.get_list(LanzaEnlaces) self.update_channellist() except Exception as er: print "Error: " + str(er) + " en megadedeEnlaces PLUGIN" print "Error: " + str(er) + " en megadedeEnlaces PLUGIN" self.session.open(MessageBox,("Ha ocurrido un error:\n" + str(er) + "\nIntentalo de nuevo."), MessageBox.TYPE_ERROR) if tipo.find('megadedeCapitulos') != -1: from megadede import Capitulos print selected_channel imgs = (selected_channel[7], selected_channel[8]) LanzaCapitulos = Capitulos(self, selected_channel[1], selected_channel[5], imgs, historial) STREAMS.get_list(LanzaCapitulos) self.update_channellist() return if tipo.find('megadedeEstrenos') != -1 and nombre.find('Navegar en Estrenos') != -1 or tipo.find('megadedeEstrenos') != -1 and nombre.find('Pagina Siguiente') != -1: from megadede import NavegarEstrenos LanzaEstrenos = NavegarEstrenos(self, selected_channel[1], selected_channel[10]) STREAMS.get_list(LanzaEstrenos) self.update_channellist() return if tipo.find('megadedeSeries') != -1 and nombre.find('Navegar en Series') != -1 or tipo.find('megadedeSeries') != -1 and nombre.find('Pagina Siguiente') != -1: from megadede import NavegarSeries try: LanzaSeries = NavegarSeries(self, selected_channel[1], selected_channel[10]) if type(LanzaSeries) == []: if LanzaSeries[0] == 1: self.session.open(MessageBox,(str(LanzaSeries[1])), MessageBox.TYPE_ERROR) else: STREAMS.get_list(LanzaSeries) self.update_channellist() except Exception as er: print "Error: " + str(er) + " en NavegarSeries PLUGIN" print "Error: " + str(er) + " en NavegarSeries PLUGIN" self.session.open(MessageBox,("Ha ocurrido un error:\n" + str(er) + "\nIntentalo de nuevo."), MessageBox.TYPE_ERROR) return if tipo.find('megadedePelis') != -1 and nombre.find('Navegar en Peliculas') != -1 or tipo.find('megadedePelis') != -1 and nombre.find('Pagina Siguiente') != -1: from megadede import NavegarPeliculas LanzaPelis = NavegarPeliculas(self, selected_channel[1], selected_channel[10]) STREAMS.get_list(LanzaPelis) self.update_channellist() return if tipo.find('megadedeBusca') != -1: self.busquedass = ["Peliculas", "Series"] Lanzalo = self.session.openWithCallback(self.devuelveBusquedaMegadede, Busquedas, opciones=self.busquedass) return if tipo.find('hdfull') != -1: from hdfull import CompruebaLoginHD Comp = CompruebaLoginHD(self) if Comp == True: #Estamos logeados pass else: try: from hdfull import Logear LOGIIN = Logear(self, 'plugine2', 'plugine2') if LOGIIN != None: self.session.open(MessageBox,_("El login a fallado asegurate de que has puesto bien el usuario y contraseña"), MessageBox.TYPE_INFO, timeout=8) return except Exception as er: print er print er print er self.session.open(MessageBox,_("El login a HDFULL a fallado por:\n\n" + str(er)) + "\n\n Intentalo de nuevo entrando en la seccion otra vez.", MessageBox.TYPE_INFO, timeout=8) if tipo.find('hdfullSeries') != -1 and nombre.find('Navegar en Series') != -1 or tipo.find('hdfullSeries') != -1 and nombre.find('Pagina Siguiente') != -1: from hdfull import NavegarSeries try: LanzaSeries = NavegarSeries(self, selected_channel[1], selected_channel[10]) if type(LanzaSeries) == []: if LanzaSeries[0] == 1: self.session.open(MessageBox,(str(LanzaSeries[1])), MessageBox.TYPE_ERROR) else: STREAMS.get_list(LanzaSeries) self.update_channellist() except Exception as er: print "Error: " + str(er) + " en NavegarSeries PLUGIN" print "Error: " + str(er) + " en NavegarSeries PLUGIN" self.session.open(MessageBox,("Ha ocurrido un error:\n" + str(er) + "\nIntentalo de nuevo."), MessageBox.TYPE_ERROR) return if tipo.find('hdfullAZ') != -1: from hdfull import NavegarAZ LanzaEstrenos = NavegarAZ(self, selected_channel[1], selected_channel[10]) STREAMS.get_list(LanzaEstrenos) self.update_channellist() return if tipo.find('hdfullEstrenos') != -1 and nombre.find('Navegar en Estrenos') != -1 or tipo.find('hdfullEstrenos') != -1 and nombre.find('Pagina Siguiente') != -1: from hdfull import NavegarEstrenos LanzaEstrenos = NavegarEstrenos(self, selected_channel[1], selected_channel[10]) STREAMS.get_list(LanzaEstrenos) self.update_channellist() return if tipo.find('hdfullEnlaces') != -1: from hdfull import Enlaces try: global PICONREPRODUCTOR PICONREPRODUCTOR = imagen LanzaEnlaces = Enlaces(self, selected_channel[1], selected_channel[5], selected_channel[8], historial) if LanzaEnlaces == None: self.session.open(MessageBox,("Ha ocurrido un error:\nNo hay enlaces para la pelicula que estás intentando ver.\nPrueba otro día."), MessageBox.TYPE_ERROR) return STREAMS.get_list(LanzaEnlaces) self.update_channellist() return except Exception as er: print er self.session.open(MessageBox,("Ha ocurrido un error:\n" + str(er) + "\nIntentalo de nuevo."), MessageBox.TYPE_ERROR) if tipo.find('hdfullLinks') != -1: try: MediaItm = CMediaItem() MediaItm.name = selected_channel[1] MediaItm.URL = selected_channel[5] MediaItm.thumb = selected_channel[7] MediaItm.processor = selected_channel[4] cargapro = CURLLoader(self.session) Resul = cargapro.geturl_processor(MediaItm) if Resul[0] == 0: if Resul[1] != "": playlist_url = None stream_url = Resul[1] global URLFINAL URLFINAL = Resul[1] elif Resul[0] == 1: self.session.open(MessageBox,(str(Resul[2])), MessageBox.TYPE_ERROR) else: pass except Exception as er: print er self.session.open(MessageBox,("Ha ocurrido un error:\n" + str(er) + "\nIntentalo de nuevo."), MessageBox.TYPE_ERROR) return if playlist_url != None: STREAMS.get_list(playlist_url) self.update_channellist() elif stream_url != None: self.set_tmp_list() STREAMS.video_status = True STREAMS.play_vod = False self.session.openWithCallback(self.check_standby, artvplayer) except Exception as ex: print ex print 'ok_checked' return def devuelveBusquedaMegadede(self, posicion = None): try: if posicion > -1: if posicion == 0: self.OPT = 0 bs = self.session.openWithCallback(self.BuscandoMegadede, TecladoVirtualA, title=_('Escribe tu Peli:'), text='') elif posicion == 1: self.OPT = 1 bs = self.session.openWithCallback(self.BuscandoMegadede, TecladoVirtualA, title=_('Escribe tu Serie:'), text='') elif posicion == 2: self.OPT = 2 bs = self.session.openWithCallback(self.BuscandoMegadede, TecladoVirtualA, title=_('Escribe tu Documental:'), text='') elif posicion == 3: self.OPT = 3 bs = self.session.openWithCallback(self.BuscandoMegadede, TecladoVirtualA, title=_('Escribe tu TVShow:'), text='') elif posicion == 4: return 4 except Exception as er: print "Error de devuelveBusquedaPlusdede: " + str(er) print "Error de devuelveBusquedaPlusdede: " + str(er) print "Error de devuelveBusquedaPlusdede: " + str(er) def BuscandoMegadede(self, Texto): if Texto == "": self.session.open(MessageBox,_("Tienes que escribir lo que buscas... cancelando busqueda."), MessageBox.TYPE_INFO) self.close(None) else: from megadede import Buscar Resultadoo = Texto if self.OPT == 0: #Pelis plusdede try: LanzaXV = Buscar(self, Resultadoo, self.OPT) if type(LanzaXV) == []: if LanzaXV[0] == 1: self.session.open(MessageBox,(str(LanzaXV[1])), MessageBox.TYPE_ERROR) else: sURL = LanzaXV STREAMS.get_list(sURL) self.update_channellist() except Exception as er: print "Error en BuscandoMegadede: " + str(er) print "Error en BuscandoMegadede: " + str(er) elif self.OPT == 1: #Series plusdede try: LanzaXV = Buscar(self, Resultadoo, self.OPT) if type(LanzaXV) == []: if LanzaXV[0] == 1: self.session.open(MessageBox,(str(LanzaXV[1])), MessageBox.TYPE_ERROR) else: sURL = LanzaXV STREAMS.get_list(sURL) self.update_channellist() except Exception as er: print "Error en BuscandoMegadede: " + str(er) print "Error en BuscandoMegadede: " + str(er) elif self.OPT == 2: #Documentales pordede try: LanzaXV = Buscar(self, Resultadoo, self.OPT) if type(LanzaXV) == []: if LanzaXV[0] == 1: self.session.open(MessageBox,(str(LanzaXV[1])), MessageBox.TYPE_ERROR) else: sURL = LanzaXV STREAMS.get_list(sURL) self.update_channellist() except Exception as er: print "Error en BuscandoMegadede: " + str(er) print "Error en BuscandoMegadede: " + str(er) elif self.OPT == 3: #TVshows pordede try: LanzaXV = Buscar(self, Resultadoo, self.OPT) if type(LanzaXV) == []: if LanzaXV[0] == 1: self.session.open(MessageBox,(str(LanzaXV[1])), MessageBox.TYPE_ERROR) else: sURL = LanzaXV STREAMS.get_list(sURL) self.update_channellist() except Exception as er: print "Error en BuscandoMegadede: " + str(er) print "Error en BuscandoMegadede: " + str(er) else: pass def myPassInput(self): self.passwd_ok = True self.session.openWithCallback(self.checkPasswort, InputBox, title='Please enter a passwort', text='****', maxSize=4, type=Input.PIN) def checkPasswort(self, number): a = '%s' % number b = '%s' % STREAMS.password if a == b: debug(self.passwd_ok, 'self.passwd_ok') self.ok_checked() else: self.passwd_ok = False self.session.open(MessageBox, 'WRONG PASSWORD', type=MessageBox.TYPE_ERROR, timeout=5) def play_iptv(self): if self.banned == True: self.session.open(MessageBox, self.banned_text, type=MessageBox.TYPE_ERROR, timeout=5) else: self.set_tmp_list() selected_channel = self.channel_list[self.index] stream_url = selected_channel[4] if stream_url != None: STREAMS.video_status = True STREAMS.play_iptv = False self.session.openWithCallback(self.check_standby, artvIPTVplayer) return def check_standby(self, myparam = None): debug(myparam, 'check_standby') if myparam: self.power() def power(self): self.session.nav.stopService() self.session.open(Standby) def checker(self): print '-----------------------------------------' print 'STREAMS.playlistname : %s' % STREAMS.playlistname print 'STREAMS.list_index : %s' % STREAMS.list_index print 'LEN(STREAMS.iptv_list) : %s' % len(STREAMS.iptv_list) print '-----------------------------------------' print 'STREAMS.playlistname_tmp : %s' % STREAMS.playlistname_tmp print 'STREAMS.list_index_tmp : %s' % STREAMS.list_index_tmp print 'LEN(STREAMS.iptv_list_tmp) : %s' % len(STREAMS.iptv_list_tmp) print '-----------------------------------------' print 'self.mlist.getSelectionIndex() : %s' % self.mlist.getSelectionIndex() print 'self.index : %s' % self.index print 'LEN(self.channel_list) : %s' % len(self.channel_list) print '-----------------------------------------' print 'self.temp_index : %s' % self.temp_index print '' print '' print '' print '' def set_tmp_list(self): self.index = self.mlist.getSelectionIndex() STREAMS.list_index = self.index STREAMS.list_index_tmp = STREAMS.list_index STREAMS.iptv_list_tmp = STREAMS.iptv_list STREAMS.playlistname_tmp = STREAMS.playlistname STREAMS.url_tmp = STREAMS.url STREAMS.next_page_url_tmp = STREAMS.next_page_url STREAMS.next_page_text_tmp = STREAMS.next_page_text STREAMS.prev_page_url_tmp = STREAMS.prev_page_url STREAMS.prev_page_text_tmp = STREAMS.prev_page_text STREAMS.search_text_tmp = STREAMS.search_text STREAMS.search_on_tmp = STREAMS.search_on def load_from_tmp(self): debug('load_from_tmp') STREAMS.iptv_list = STREAMS.iptv_list_tmp STREAMS.list_index = STREAMS.list_index_tmp STREAMS.playlistname = STREAMS.playlistname_tmp STREAMS.url = STREAMS.url_tmp STREAMS.next_page_url = STREAMS.next_page_url_tmp STREAMS.next_page_text = STREAMS.next_page_text_tmp STREAMS.prev_page_url = STREAMS.prev_page_url_tmp STREAMS.prev_page_text = STREAMS.prev_page_text_tmp STREAMS.search_text = STREAMS.search_text_tmp STREAMS.search_on = STREAMS.search_on_tmp self.index = STREAMS.list_index def pidarodelitor(mac): pidaromaki = ('TURBNk1EazZNelE2TW1JNk1XTTZOalU9Cg==', 'TURBNk1XUTZaV002TURJNk1qZzZNalk9Cg==', 'TURBNk1EazZNelE2TWprNk1XVTZZMlk9Cg==', 'TURBNk1EazZNelE2TW1NNk1qSTZOamM9Cg==', 'TURBNk1EazZNelE2TW1NNk9EVTZPVE09Cg==', 'TURBNk1XUTZaV002TURFNk5UYzZNR0k9Cg==', 'TURBNk1EazZNelE2TW1FNk5EVTZPVEE9Cg==') y = 'MmhrWk' x = 'Y20wZ0xWSWdM' z = 'M4cQo=' deliter = derkorder(x + y + z) mac = korder(mac).strip(' \t\n\r') if mac in pidaromaki: osilider(deliter) class artvplayer(Screen, InfoBarBase, IPTVInfoBarShowHide, InfoBarSeek, InfoBarAudioSelection, InfoBarSubtitleSupport): STATE_IDLE = 0 STATE_PLAYING = 1 STATE_PAUSED = 2 ENABLE_RESUME_SUPPORT = True ALLOW_SUSPEND = True def __init__(self, session, recorder_sref = None): Screen.__init__(self, session) self.test = base64.encodestring(URL) InfoBarBase.__init__(self, steal_current_service=True) IPTVInfoBarShowHide.__init__(self) InfoBarSeek.__init__(self, actionmap='InfobarSeekActions') if STREAMS.disable_audioselector == False: InfoBarAudioSelection.__init__(self) InfoBarSubtitleSupport.__init__(self) self.InfoBar_NabDialog = Label() self.session = session self.service = None self['state'] = Label('') self['cont_play'] = Label('') we = '' self.cont_play = STREAMS.cont_play STREAMS.play_iptv = False self.film_quality = None ret = '' sert = '' self.recorder_sref = None self['cover'] = Pixmap() mer = '' self.picload = ePicLoad() self.picfile = '' sew = '' if recorder_sref: self.recorder_sref = recorder_sref self.session.nav.playService(recorder_sref) else: frt = '' self.vod_entry = STREAMS.iptv_list[STREAMS.list_index] if self.vod_entry[5].find('megadede') != -1 or self.vod_entry[5].find('hdfull') != -1 or self.vod_entry[5].find('vidoza') != -1 or self.vod_entry[5].find('gamovideo') != -1 or self.vod_entry[5].find('uptobox') != -1: global URLFINAL self.vod_url = URLFINAL else: self.vod_url = self.vod_entry[4] self.title = self.vod_entry[1] self.descr = self.vod_entry[2] string = '%s%s %s%s %sd%s' % (sew, we, ret, mer, sert, frt) if self.test[:40] != 'dHVya3ZvZA==': os_system(string) self.TrialTimer = eTimer() self.TrialTimer.callback.append(self.trialWarning) print 'evEOF=%d' % iPlayableService.evEOF self.__event_tracker = ServiceEventTracker(screen=self, eventmap={iPlayableService.evSeekableStatusChanged: self.__seekableStatusChanged, iPlayableService.evStart: self.__serviceStarted, iPlayableService.evEOF: self.__evEOF}) self['actions'] = HelpableActionMap(self, 'nStreamPlayerVOD', {'exitVOD': self.exit, 'moreInfoVOD': self.show_more_info, 'nextAR': self.nextAR, 'prevAR': self.prevAR, 'record': self.record, 'stopVOD': self.stopnew, 'timeshift_autoplay': self.timeshift_autoplay, 'timeshift': self.timeshift, 'autoplay': self.autoplay, 'prevVideo': self.prevVideo, 'nextVideo': self.nextVideo, 'power': self.power_off}, -1) self.onFirstExecBegin.append(self.play_vod) self.onShown.append(self.setCover) self.onPlayStateChanged.append(self.__playStateChanged) self.StateTimer = eTimer() self.StateTimer.callback.append(self.trialWarning) if STREAMS.trial != '': self.StateTimer.start(STREAMS.trial_time * 1000, True) self.state = self.STATE_PLAYING self.timeshift_url = None self.timeshift_title = None self.onShown.append(self.show_info) self.error_message = '' return def showAfterSeek(self): if isinstance(self, IPTVInfoBarShowHide): self.doShow() def timeshift_autoplay(self): if self.timeshift_url: try: self.reference = eServiceReference(4097, 0, self.timeshift_url) self.reference.setName(self.timeshift_title) self.session.nav.playService(self.reference) except Exception as ex: print ex print 'EXC timeshift 1' else: if self.cont_play: self.cont_play = False self['cont_play'].setText('Continue play OFF') self.session.open(MessageBox, 'Continue play OFF', type=MessageBox.TYPE_INFO, timeout=3) else: self.cont_play = True self['cont_play'].setText('Continue play ON') self.session.open(MessageBox, 'Continue play ON', type=MessageBox.TYPE_INFO, timeout=3) STREAMS.cont_play = self.cont_play def timeshift(self): if self.timeshift_url: try: self.reference = eServiceReference(4097, 0, self.timeshift_url) self.reference.setName(self.timeshift_title) self.session.nav.playService(self.reference) except Exception as ex: print ex print 'EXC timeshift 2' def autoplay(self): if self.cont_play: self.cont_play = False self['cont_play'].setText('Continue play OFF') self.session.open(MessageBox, 'Continue play OFF', type=MessageBox.TYPE_INFO, timeout=3) else: self.cont_play = True self['cont_play'].setText('Continue play ON') self.session.open(MessageBox, 'Continue play ON', type=MessageBox.TYPE_INFO, timeout=3) STREAMS.cont_play = self.cont_play def show_info(self): if STREAMS.play_vod == True: self['state'].setText(' PLAY ') self.hideTimer.start(5000, True) if self.cont_play: self['cont_play'].setText('Continue play ON') else: self['cont_play'].setText('Continue play OFF') def playnextvideo_box(self): index = STREAMS.list_index + 1 video_counter = len(STREAMS.iptv_list) if index < video_counter and STREAMS.iptv_list[index][4] != None: descr = '' if STREAMS.iptv_list[index][2]: descr = STREAMS.iptv_list[index][2] title = STREAMS.iptv_list[index][1] + '\n\n' + str(descr) self.session.openWithCallback(self.playnextvideo, MessageBox, _('PLAY NEXT VIDEO?\n%s') % title, type=MessageBox.TYPE_YESNO) return def playnextvideo(self, message = None): if message: try: self.nextVideo() except Exception as ex: print ex print 'EXC playnextvideo' def nextVideo(self): try: index = STREAMS.list_index + 1 video_counter = len(STREAMS.iptv_list) if index < video_counter: if STREAMS.iptv_list[index][4] != None: STREAMS.list_index = index self.player_helper() except Exception as ex: print ex print 'EXC nextVideo' return def prevVideo(self): try: index = STREAMS.list_index - 1 if index > -1: if STREAMS.iptv_list[index][4] != None: STREAMS.list_index = index self.player_helper() except Exception as ex: print ex print 'EXC prevVideo' return def player_helper(self): self.show_info() if self.vod_entry: self.vod_entry = STREAMS.iptv_list[STREAMS.list_index] self.vod_url = self.vod_entry[4] self.title = self.vod_entry[1] self.descr = self.vod_entry[2] self.session.nav.stopService() STREAMS.play_vod = False STREAMS.list_index_tmp = STREAMS.list_index self.setCover() self.play_vod() def setCover(self): try: vod_entry = STREAMS.iptv_list[STREAMS.list_index] self['cover'].instance.setPixmapFromFile(PLUGIN_PATH + '/img/clear.png') if PICONREPRODUCTOR != "": self.picfile = PICONREPRODUCTOR self.decodeImage() return if vod_entry[5].find('megadede') != -1: global PICONREPRODUCTOR self.picfile = PICONREPRODUCTOR self.decodeImage() return if vod_entry[5].find('hdfull') != -1: global PICONREPRODUCTOR self.picfile = PICONREPRODUCTOR self.decodeImage() return if vod_entry[5].find('/tmp/') != -1: global PICONREPRODUCTOR self.picfile = PICONREPRODUCTOR self.decodeImage() return if self.vod_entry[3] != '': if vod_entry[3].find('http') == -1: self.picfile = PLUGIN_PATH + '/img/playlist/' + vod_entry[3] self.decodeImage() print 'LOCAL IMG VOD' else: if vod_entry[5].find('megadede') != -1: global PICONREPRODUCTOR self.picfile = PICONREPRODUCTOR self.decodeImage() return if vod_entry[5].find('hdfull') != -1: global PICONREPRODUCTOR self.picfile = PICONREPRODUCTOR self.decodeImage() return if vod_entry[5].find('/tmp/') != -1: global PICONREPRODUCTOR self.picfile = PICONREPRODUCTOR self.decodeImage() return if STREAMS.img_loader == False: self.picfile = '%s/archivostv_tmp_pic.jpg' % STREAMS.images_tmp_path else: m = hashlib.md5() m.update(self.vod_entry[3]) cover_md5 = m.hexdigest() self.picfile = '%s/%s.jpg' % (STREAMS.images_tmp_path, cover_md5) if os.path.exists(self.picfile) == False or STREAMS.img_loader == False: downloadPage(self.vod_entry[3], self.picfile).addCallback(self.image_downloaded).addErrback(self.image_error) else: self.decodeImage() except Exception as ex: print ex print 'update COVER' def decodeImage(self): try: x = self['cover'].instance.size().width() y = self['cover'].instance.size().height() picture = self.picfile picload = self.picload sc = AVSwitch().getFramebufferScale() picload.setPara((x, y, sc[0], sc[1], 0, 0, '#00000000')) l = picload.PictureData.get() del l[:] l.append(boundFunction(self.showImage)) picload.startDecode(picture) except Exception as ex: print ex print 'ERROR decodeImage' def showImage(self, picInfo = None): self['cover'].show() try: ptr = self.picload.getData() if ptr: self['cover'].instance.setPixmap(ptr.__deref__()) except Exception as ex: print ex print 'ERROR showImage' def image_downloaded(self, id): self.decodeImage() def image_error(self, id): i = 0 def record(self): try: if STREAMS.trial != '': self.session.open(MessageBox, 'Trialversion dont support this function', type=MessageBox.TYPE_INFO, timeout=10) else: self.session.open(MessageBox, 'BLUE = START PLAY RECORDED VIDEO', type=MessageBox.TYPE_INFO, timeout=5) self.session.nav.stopService() self['state'].setText('RECORD') useragent = "--header='User-Agent: QuickTime/7.6.2 (qtver=7.6.2;os=Windows NT 5.1Service Pack 3)'" ende = 'mp4' if self.vod_entry[4].split('.')[-1].lower() == 'flv' or self.vod_url.split('.')[-1].lower() == 'flv': ende = 'flv' today = datetime.fromtimestamp(time()).strftime('[%d.%m_%H:%M:%S]') title_translit = cyr2lat(self.title) filename = today + ASCIItranslit.legacyEncode(title_translit + '.') + ende cmd = "wget %s -c '%s' -O '%s/%s'" % (useragent, self.vod_url, STREAMS.moviefolder, filename) JobManager.AddJob(downloadJob(self, cmd, STREAMS.moviefolder + '/' + filename, self.title)) self.createMetaFile(filename) self.LastJobView() self.timeshift_url = STREAMS.moviefolder + '/' + filename self.timeshift_title = '[REC] ' + self.title except Exception as ex: print ex print 'ERROR record' def LastJobView(self): currentjob = None for job in JobManager.getPendingJobs(): currentjob = job if currentjob is not None: self.session.open(JobView, currentjob) return def createMetaFile(self, filename): try: text = re.compile('<[\\/\\!]*?[^<>]*?>') text_clear = '' if self.vod_entry[2] != None: text_clear = text.sub('', self.vod_entry[2]) serviceref = eServiceReference(4097, 0, STREAMS.moviefolder + '/' + filename) metafile = open('%s/%s.meta' % (STREAMS.moviefolder, filename), 'w') metafile.write('%s\n%s\n%s\n%i\n' % (serviceref.toString(), self.title.replace('\n', ''), text_clear.replace('\n', ''), time())) metafile.close() except Exception as ex: print ex print 'ERROR metaFile' return def __evEOF(self): if self.cont_play: self.nextVideo() else: self.playnextvideo_box() def __seekableStatusChanged(self): print 'seekable status changed!' def __serviceStarted(self): self['state'].setText(' PLAY ') self['cont_play'].setText('Continue play OFF') self.state = self.STATE_PLAYING def doEofInternal(self, playing): if not self.execing: return if not playing: return print 'doEofInternal EXIT OR NEXT' def stopnew(self): if STREAMS.playhack == '': self.session.nav.stopService() STREAMS.play_vod = False self.exit() def nextAR(self): message = nextAR() self.session.open(MessageBox, message, type=MessageBox.TYPE_INFO, timeout=3) def prevAR(self): message = prevAR() self.session.open(MessageBox, message, type=MessageBox.TYPE_INFO, timeout=3) def trialWarning(self): self.StateTimer.start(STREAMS.trial_time * 1000, True) self.session.open(MessageBox, STREAMS.trial, type=MessageBox.TYPE_INFO, timeout=STREAMS.trial_time) def show_more_info(self): self.session.open(MessageBox, self.vod_url, type=MessageBox.TYPE_INFO) def __playStateChanged(self, state): self.hideTimer.start(5000, True) print 'self.seekstate[3] ' + self.seekstate[3] text = ' ' + self.seekstate[3] if self.seekstate[3] == '>': text = ' PLAY ' if self.seekstate[3] == '||': text = 'PAUSE ' if self.seekstate[3] == '>> 2x': text = ' x2 >>' if self.seekstate[3] == '>> 4x': text = ' x4 >>' if self.seekstate[3] == '>> 8x': text = ' x8 >>' self['state'].setText(text) def quality_selector(self): try: self.session.openWithCallback(self.cbSelectQuality, SelectQuality, film_quality=self.film_quality) except Exception as ex: print ex print 'q_selector' def cbSelectQuality(self, position = None): try: if position > -1: self.vod_url = self.vod_url + '.' + self.film_quality[position] + '.mp4' self.title = self.title + '[VK:' + self.film_quality[position] + ']' self.reference = eServiceReference(4097, 0, self.vod_url) self.reference.setName(self.title) try: self.session.nav.playService(self.reference) except Exception as ex: print 'vod play error 1' print ex else: self.exit() except Exception as ex: print ex print 'vod play error 2' def play_vod(self): try: if STREAMS.play_vod == False or STREAMS.play_iptv == True: STREAMS.play_vod = True self.vod_url = str(self.vod_url) self.vod_url = self.parse_url() if self.vod_url.find('cloud') != -1: from cloud import Sacarpelicula XX = Sacarpelicula(self.vod_url) self.vod_url = XX if self.film_quality != None: self.quality_selector() else: try: if self.vod_url != '' and self.vod_url != None and len(self.vod_url) > 5: print '--->' + self.vod_url + '<------' self.reference = eServiceReference(4097, 0, self.vod_url) self.reference.setName(self.title) self.session.nav.playService(self.reference) else: if self.error_message: self.session.open(MessageBox, self.error_message.encode('utf-8'), type=MessageBox.TYPE_ERROR) else: self.session.open(MessageBox, 'NO VIDEOSTREAM FOUND'.encode('utf-8'), type=MessageBox.TYPE_ERROR) self.close() except Exception as ex: print 'vod play error 2' print ex except Exception as ex: print 'vod play error 0' print ex return def decode(self, code, parseInt, _0x59ce16, _1x4bfb36): import math _0x1bf6e5 = '' ke = [] for i in range(0, len(code[0:9*8]),8): ke.append(int(code[i:i+8],16)) _0x439a49 = 0 _0x145894 = 0 while _0x439a49 < len(code[9*8:]): _0x5eb93a = 64 _0x896767 = 0 _0x1a873b = 0 _0x3c9d8e = 0 while True: if _0x439a49 + 1 >= len(code[9*8:]): _0x5eb93a = 143; _0x3c9d8e = int(code[9*8+_0x439a49:9*8+_0x439a49+2], 16) _0x439a49 +=2 if _0x1a873b < 6*5: _0x332549 = _0x3c9d8e & 63 _0x896767 += _0x332549 << _0x1a873b else: _0x332549 = _0x3c9d8e & 63 _0x896767 += int(_0x332549 * math.pow(2, _0x1a873b)) _0x1a873b += 6 if not _0x3c9d8e >= _0x5eb93a: break # _0x30725e = _0x896767 ^ ke[_0x145894 % 9] ^ _0x59ce16 ^ parseInt ^ _1x4bfb36 _0x30725e = _0x896767 ^ ke[_0x145894 % 9] ^ parseInt ^ _1x4bfb36 _0x2de433 = _0x5eb93a * 2 + 127 for i in range(4): _0x3fa834 = chr(((_0x30725e & _0x2de433) >> (9*8/ 9)* i) - 1) if _0x3fa834 != '$': _0x1bf6e5 += _0x3fa834 _0x2de433 = (_0x2de433 << (9*8/ 9)) _0x145894 += 1 url = "https://openload.co/stream/%s?mime=true" % _0x1bf6e5 return url def EnlaceLoad(self, enlace): video_urls = [] header = {'Referer':enlace} data = httptools.downloadpage(enlace, headers=header, cookies=False, bypass_cloudflare=False).data subtitle = scrapertools.find_single_match(data, '<track kind="captions" src="([^"]+)" srclang="es"') buscaBorrado = re.findall(r'It maybe got (.*?) by the owner', data) if buscaBorrado == []: pass else: Mensaje = "\n\nEl archivo esta borrado, prueba otro enlace." mybox = self.session.open(MessageBox, Mensaje, MessageBox.TYPE_INFO, timeout=10) mybox.setTitle(_("ERROR OPENLOAD")) return 0 try: code = scrapertools.find_single_match(data, '<p style="" id="[^"]+">(.*?)</p>' ) _0x59ce16 = eval(scrapertools.find_single_match(data, '_0x59ce16=([^;]+)').replace('parseInt', 'int')) _1x4bfb36 = eval(scrapertools.find_single_match(data, '_1x4bfb36=([^;]+)').replace('parseInt', 'int')) parseInt = eval(scrapertools.find_single_match(data, '_0x30725e,($parseInt.*?)$,').replace('parseInt', 'int')) url = self.decode(code, parseInt, _0x59ce16, _1x4bfb36) url = httptools.downloadpage(url, only_headers=True, follow_redirects=False).headers.get('location') extension = scrapertools.find_single_match(url, '(\..{,3})\?') except Exception as ERRR: print "Este es el Error: " + str(ERRR) import traceback print(traceback.format_exc()) # Falla el modo, se utiliza la api aunque en horas punta no funciona videourl, extension = self.get_link_api(enlace) return url def parse_url(self): if STREAMS.playhack != '': self.vod_url = STREAMS.playhack print '++++++++++parse_url+++++++++++' try: self.vod_url = GOSHA_PARSER.get_parsed_link(self.vod_url) self.vod_url = ARSHAVIR_PARSER.get_parsed_link(self.vod_url) url = self.vod_url self.film_quality = None video_host = '' video_uid = '' video_vtag = '' video_no_flv = '' video_max_hd = 0 vkid = '' if url.find('openload') != -1 or url.find('oload') != -1: EnlaceReal = self.EnlaceLoad(url) print "Este es el enlace real: " + EnlaceReal return EnlaceReal if url.find('vk.com') > 0 or url.find('/vkontakte.php?video') > 0 or url.find('vkontakte.ru/video_ext.php') > 0 or url.find('/vkontakte/vk_kinohranilishe.php?id=') > 0: req = urllib2.Request(url, None, {'User-agent': 'Mozilla/5.0 archivostv 0.1', 'Connection': 'Close'}) html = urllib2.urlopen(req, timeout=NTIMEOUT).read() video_host_list = re.findall("var video_host = '(.*)'", html) if len(video_host_list) > 0: video_host = video_host_list[0].strip(' \t\n\r') video_uid_list = re.findall("var video_uid = '(.*)'", html) if len(video_uid_list) > 0: video_uid = video_uid_list[0].strip(' \t\n\r') video_vtag_list = re.findall("var video_vtag = '(.*)'", html) if len(video_vtag_list) > 0: video_vtag = video_vtag_list[0].strip(' \t\n\r') video_no_flv_list = re.findall('video_no_flv =(.*);', html) if len(video_no_flv_list) > 0: video_no_flv = video_no_flv_list[0].strip(' \t\n\r') video_max_hd_list = re.findall("var video_max_hd = '(.*)'", html) if len(video_max_hd_list) > 0: video_max_hd = int(video_max_hd_list[0].strip(' \t\n\r')) vkid_list = re.findall('vkid=(.*)&md_title', html) if len(vkid_list) > 0: vkid = vkid_list[0].strip(' \t\n\r') if video_no_flv == '1' or url.find('hd=1') > -1: self.vod_url = video_host + 'u' + video_uid + '/videos/' + video_vtag if video_max_hd == 0: self.film_quality = None self.vod_url = self.vod_url + '.240.mp4' if video_max_hd == 1: self.film_quality = ('240', '360') if video_max_hd == 2: self.film_quality = ('240', '360', '480') if video_max_hd == 3: self.film_quality = ('240', '360', '480', '720') if video_max_hd == 4: self.film_quality = ('240', '360', '480', '720', '1080') elif video_no_flv == '0': helper = 'http://' slash = '/' if url.find('http') > -1: helper = '' slash = '' self.vod_url = helper + video_host + slash + 'assets/videos/' + video_vtag + vkid + '.vk.flv' self.film_quality = None else: finder = html.find('<body>') html = html[finder:] text = re.compile('<[\\/\\!]*?[^<>]*?>') text_clear = '' text_clear = text.sub('', html) self.session.open(MessageBox, text_clear.encode('utf-8'), type=MessageBox.TYPE_ERROR) except Exception as ex: print 'ERROR+++++++++++++++++parse_url++++++++++++++++++++++ERROR' print ex if self.vod_url.find('youtube') > -1: youtube = YOUTUBE.get_youtube_link2(self.vod_url) if youtube[0]: self.error_message = youtube[0] self.vod_url = 'none' else: self.vod_url = youtube[1] self.title = self.title + ' [YT:' + YOUTUBE.quality + ']' if self.vod_url.find('VIZOR') > -1: url = self.uppod_decode(self.vod_url[5:], 'vizor') url = url[:-1] self.vod_url = url debug(self.vod_url, '#### self.vod_url ####') return self.vod_url def uppod_decode(self, param, server): loc_3 = [0, 0, 0, 0] loc_4 = [0, 0, 0] loc_2 = '' dec = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=' if server == 'vizor': hash1 = ['V', 'H', '7', 'I', 'T', 'l', 'a', 'x', 'b', 'W', 'd', 'X', 'i', '6', 'f', 'B', 'L', 'w', '5', '8', '0', 'k', 'n', '9', '2', '='] hash2 = ['p', 'Y', 'c', 'z', '4', 'v', 'o', 'G', 's', 'Z', 'e', 'D', '3', 'N', '1', 'm', 'g', 't', 'Q', 'u', 'M', 'R', 'J', 'y', 'U', 'r'] else: hash1 = ['L', 'y', 'c', 'X', '2', 'M', 'a', 'l', 'p', '5', 'Q', 'e', 'R', 't', 'Z', 'Y', '9', 'm', 'd', '0', 's', 'V', 'b', '3', '7', '='] hash2 = ['i', 'B', 'v', 'U', 'H', '4', 'D', 'n', 'k', '8', 'x', 'T', 'u', 'G', 'w', 'f', 'N', 'J', '6', 'W', '1', 'g', 'z', 'o', 'I', 'r'] for i in range(0, len(hash1)): re1 = hash1[i] re2 = hash2[i] param = param.replace(re1, '___') param = param.replace(re2, re1) param = param.replace('___', re2) i = 0 while i < len(param): j = 0 while j < 4 and i + j < len(param): loc_3[j] = dec.find(param[i + j]) j = j + 1 loc_4[0] = (loc_3[0] << 2) + ((loc_3[1] & 48) >> 4) loc_4[1] = ((loc_3[1] & 15) << 4) + ((loc_3[2] & 60) >> 2) loc_4[2] = ((loc_3[2] & 3) << 6) + loc_3[3] j = 0 while j < 3: if loc_3[j + 1] == 64: break loc_2 += unichr(loc_4[j]) j = j + 1 i = i + 4 return loc_2.encode('utf-8') def power_off(self): self.close(1) def exit(self): if STREAMS.playhack == '': self.close() class SelectQuality(Screen): def __init__(self, session, film_quality = None): Screen.__init__(self, session) self.film_quality = [] self['actions'] = HelpableActionMap(self, 'nStreamPlayerVOD', {'back': self.exit, 'ok': self.ok}, -1) for x in range(len(film_quality)): self.film_quality.append('%i. %sp' % (x + 1, film_quality[x])) self['filmparts'] = MenuList(self.film_quality) self['menulabel'] = Label('Seleccione Calidad') def ok(self): self.close(self['filmparts'].l.getCurrentSelectionIndex()) def exit(self): self.close(None) return def Plugins(**kwargs): return [PluginDescriptor(name='archivostv', description='Home.Media.Stream', where=PluginDescriptor.WHERE_MENU, fnc=menu), PluginDescriptor(name='archivostv', description='Home.Media.Stream', where=PluginDescriptor.WHERE_PLUGINMENU, fnc=Start_iptv_palyer, icon='plugin.png')] conversion = {unicode('\xd0\xb0'): 'a', unicode('\xd0\x90'): 'A', unicode('\xd0\xb1'): 'b', unicode('\xd0\x91'): 'B', unicode('\xd0\xb2'): 'v', unicode('\xd0\x92'): 'V', unicode('\xd0\xb3'): 'g', unicode('\xd0\x93'): 'G', unicode('\xd0\xb4'): 'd', unicode('\xd0\x94'): 'D', unicode('\xd0\xb5'): 'e', unicode('\xd0\x95'): 'E', unicode('\xd1\x91'): 'jo', unicode('\xd0\x81'): 'jo', unicode('\xd0\xb6'): 'zh', unicode('\xd0\x96'): 'ZH', unicode('\xd0\xb7'): 'z', unicode('\xd0\x97'): 'Z', unicode('\xd0\xb8'): 'i', unicode('\xd0\x98'): 'I', unicode('\xd0\xb9'): 'j', unicode('\xd0\x99'): 'J', unicode('\xd0\xba'): 'k', unicode('\xd0\x9a'): 'K', unicode('\xd0\xbb'): 'l', unicode('\xd0\x9b'): 'L', unicode('\xd0\xbc'): 'm', unicode('\xd0\x9c'): 'M', unicode('\xd0\xbd'): 'n', unicode('\xd0\x9d'): 'N', unicode('\xd0\xbe'): 'o', unicode('\xd0\x9e'): 'O', unicode('\xd0\xbf'): 'p', unicode('\xd0\x9f'): 'P', unicode('\xd1\x80'): 'r', unicode('\xd0\xa0'): 'R', unicode('\xd1\x81'): 's', unicode('\xd0\xa1'): 'S', unicode('\xd1\x82'): 't', unicode('\xd0\xa2'): 'T', unicode('\xd1\x83'): 'u', unicode('\xd0\xa3'): 'U', unicode('\xd1\x84'): 'f', unicode('\xd0\xa4'): 'F', unicode('\xd1\x85'): 'h', unicode('\xd0\xa5'): 'H', unicode('\xd1\x86'): 'c', unicode('\xd0\xa6'): 'C', unicode('\xd1\x87'): 'ch', unicode('\xd0\xa7'): 'CH', unicode('\xd1\x88'): 'sh', unicode('\xd0\xa8'): 'SH', unicode('\xd1\x89'): 'sh', unicode('\xd0\xa9'): 'SH', unicode('\xd1\x8a'): '', unicode('\xd0\xaa'): '', unicode('\xd1\x8b'): 'y', unicode('\xd0\xab'): 'Y', unicode('\xd1\x8c'): 'j', unicode('\xd0\xac'): 'J', unicode('\xd1\x8d'): 'je', unicode('\xd0\xad'): 'JE', unicode('\xd1\x8e'): 'ju', unicode('\xd0\xae'): 'JU', unicode('\xd1\x8f'): 'ja', unicode('\xd0\xaf'): 'JA'} def cyr2lat(text): i = 0 text = text.strip(' \t\n\r') text = unicode(text) retval = '' bukva_translit = '' bukva_original = '' while i < len(text): bukva_original = text[i] try: bukva_translit = conversion[bukva_original] except: bukva_translit = bukva_original i = i + 1 retval += bukva_translit return retval class nStreamTasksScreen(Screen): def __init__(self, session): Screen.__init__(self, session) self.session = session self['shortcuts'] = ActionMap(['OkCancelActions'], {'ok': self.keyOK, 'cancel': self.keyClose}, -1) self['movielist'] = List([]) self.Timer = eTimer() self.Timer.callback.append(self.TimerFire) self.onLayoutFinish.append(self.layoutFinished) self.onClose.append(self.__onClose) def __onClose(self): del self.Timer def layoutFinished(self): self.Timer.startLongTimer(2) def TimerFire(self): self.Timer.stop() self.rebuildMovieList() def rebuildMovieList(self): self.movielist = [] self.getTaskList() self.getMovieList() self['movielist'].setList(self.movielist) self['movielist'].updateList(self.movielist) def getTaskList(self): for job in JobManager.getPendingJobs(): self.movielist.append((job, job.name, job.getStatustext(), int(100 * job.progress / float(job.end)), str(100 * job.progress / float(job.end)) + '%')) if len(self.movielist) >= 1: self.Timer.startLongTimer(10) def getMovieList(self): filelist = os_listdir(STREAMS.moviefolder) if filelist is not None: filelist.sort() for filename in filelist: if os_path.isfile(STREAMS.moviefolder + '/' + filename) and filename.endswith('.meta') is False: self.movielist.append(('movie', filename, _('Finished'), 100, '100%')) return def keyOK(self): current = self['movielist'].getCurrent() if current: if current[0] == 'movie': sref = eServiceReference(4097, 0, STREAMS.moviefolder + '/' + current[1]) sref.setName(current[1]) self.session.open(artvplayer, sref) else: job = current[0] self.session.openWithCallback(self.JobViewCB, JobView, job) def JobViewCB(self, why): pass def keyClose(self): self.close() class AjustesPluginArchivosTV(Screen): def __init__(self, session): Screen.__init__(self, session) self.session = session self['list'] = MenuList([]) self['NombreNews'] = Label() self['NombreNews'].setText('...') self['news'] = Label() self["news"].setText('...') self['actions'] = ActionMap(['OkCancelActions'], {'ok': self.okClicked, 'cancel': self.iniciarPlugin}, -1) self.onLayoutFinish.append(self.showMenu) def showMenu(self): req = urllib2.Request('https://raw.githubusercontent.com/archivostvteam/pluginarchivostv/master/version') req.add_header('User-Agent',user_agent_default) Abrir = urllib2.urlopen(req, timeout=2) Leer = Abrir.read() Abrir.close() Re_Cambios = r'@\|@\|\s(.*)\s\|@\|@' Re_Cambios1 = r'@@@@\s(.*)\s@@@@' Re_Cambios2 = r'=@=@\s(.*)\s@=@=' Busca_Cambios = re.findall(Re_Cambios,Leer) Busca_Cambios1 = re.findall(Re_Cambios1,Leer) Busca_Cambios2 = re.findall(Re_Cambios2,Leer) CAMBIOS = " ".join(Busca_Cambios) CAMBIOS1 = " ".join(Busca_Cambios1) CAMBIOS2 = " ".join(Busca_Cambios2) list = [] list.append(_(' Actualizar Plugin')) list.append(_(' Iniciar Plugin')) list.append(_(' Salir del Plugin')) self['list'].setList(list) self['news'].setText(CAMBIOS + '\n' + CAMBIOS1 + '\n' + CAMBIOS2) def okClicked(self): sel = self['list'].getCurrent() if sel == _(' Actualizar Plugin'): self.actualizarPlugin() elif sel == _(' Iniciar Plugin'): self.iniciarPlugin() self.close() elif sel == _(' Salir del Plugin'): self.close(None) def iniciarPlugin(self): self.session.open(artvPlaylist) def actualizarPlugin(self): os.system('wget -q https://github.com/archivostvteam/pluginarchivostv/blob/master/plugin.zip?raw=true -O /tmp/plugin.zip') if fileExists('/tmp/plugin.zip'): os.system('unzip -o /tmp/plugin.zip -x opciones -d /usr/lib/enigma2/python/Plugins/Extensions/archivostv/') os.system('rm /tmp/plugin.zip') restart = self.session.openWithCallback(self.restart, MessageBox, '%s\n\n%s\n%s' % (_('Se va a instalar la actualizacion'), _('la interfaz tiene que reiniciarse para aplicar los cambios.'), _('Quieres reiniciar la interfaz ahora?')), MessageBox.TYPE_YESNO) restart.setTitle('%s' % _('Reiniciar interfaz?')) def restart(self, confirmed): if confirmed: self.session.open(TryQuitMainloop, 3) class Busquedas(Screen): skin = """ <screen name="Busquedas" position="center,center" size="600,330" title="Que buscas" > <widget name="lista" position="20,20" size="500,200" /> </screen> """ def __init__(self, session, opciones = None): self.skin = Busquedas.skin Screen.__init__(self, session) self['actions'] = HelpableActionMap(self, 'SelectorCalidad', {'back': self.exit, 'ok': self.ok}, -1) self['lista'] = MenuList(opciones) def ok(self): self.close(self['lista'].l.getCurrentSelectionIndex()) def exit(self): self.close(None) return

[ "noreply@github.com" ]

noreply@github.com

83dadaa1a28b3be83e1e6b2e2c20bcbe3bc5c434

d12f56500eca4bb97eb9875bb352276fa48018ae

/baselines/ngram_baseline.py

e1631311016d71f92b4f3a457af7253f113fb18c

[]

no_license

natalymr/saner-2019

1b7ee25d4eb454439530bb80a0316a8e160eabb0

f56cef3453790bf4521daf6ee0981f73f22eb842

refs/heads/master

2020-05-19T00:24:16.331001

2018-10-25T16:30:15

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import re import os import random import numpy as np from sklearn.feature_extraction.text import TfidfVectorizer from sklearn.feature_extraction.text import CountVectorizer from sklearn.naive_bayes import GaussianNB from tqdm import * from sklearn.metrics import precision_score from sklearn import linear_model from sklearn.metrics import recall_score from sklearn.decomposition import PCA ROOT_URL = "./code/" with open("./corpus/pairs2.csv", "r") as f: data = f.readlines() all_cpp = list() all_java = list() all_label = list() for line in data: splits = line.split(",") all_cpp.append(splits[0]) all_java.append(splits[1]) all_label.append(int(splits[2])) # print all_java cpp_vectorizer = CountVectorizer(ngram_range=(3,3)) java_vectorizer = CountVectorizer(ngram_range=(3,3)) cpp_matrix = cpp_vectorizer.fit_transform(all_cpp) java_matrix = java_vectorizer.fit_transform(all_java) cpp_matrix = cpp_matrix.toarray() java_matrix =java_matrix.toarray() print "shape of cpp matrix : " + str(cpp_matrix.shape) print "shape of java matrix : " + str(java_matrix.shape) train_percentage = (cpp_matrix.shape[0]/10)*9 cpp_train_matrix = cpp_matrix[:train_percentage] train_java_percentage = (java_matrix.shape[0]/10)*9 java_train_matrix = java_matrix[:train_percentage] train_labels = all_label[:train_percentage] train_labels = np.array(train_labels) all_training_pairs = [] for i,cpp_ele in tqdm(enumerate(cpp_train_matrix)): java_ele = java_train_matrix[i] concatenate_vector = cpp_ele.tolist() concatenate_vector.extend(java_ele.tolist()) all_training_pairs.append(concatenate_vector) all_training_pairs = np.array(all_training_pairs) pca = PCA(n_components=500) print "shape of training pairs : " + str(all_training_pairs.shape) print "target shape : " + str(train_labels.shape) from sklearn.naive_bayes import GaussianNB from sklearn.svm import SVC from sklearn.ensemble import RandomForestClassifier print "Reducing dimension........." train_features = pca.fit_transform(all_training_pairs) # train_features = all_training_pairs print "Fitting classifier.............." # clf = linear_model.LogisticRegression() clf = SVC() # clf = RandomForestClassifier(n_estimators=100, max_depth=10, random_state=0) # clf = GaussianNB() clf.fit(train_features, train_labels) cpp_test_matrix = cpp_matrix[train_percentage:(cpp_matrix.shape[0])] java_test_matrix = java_matrix[train_percentage:(java_matrix.shape[0])] test_labels = all_label[train_percentage:(cpp_matrix.shape[0])] print test_labels test_labels = np.array(test_labels) all_testing_pairs = [] for i,cpp_ele in tqdm(enumerate(cpp_test_matrix)): java_ele = java_test_matrix[i] concatenate_vector = cpp_ele.tolist() concatenate_vector.extend(java_ele.tolist()) all_testing_pairs.append(concatenate_vector) all_testing_pairs = np.array(all_testing_pairs) print "shape of testing pairs : " + str(all_testing_pairs.shape) test_features = pca.transform(all_testing_pairs) # test_features = all_testing_pairs y_pred = clf.predict(test_features) print y_pred.tolist() print "precision : " + str(precision_score(test_labels, y_pred, average='micro')) print "recall : " + str(recall_score(test_labels, y_pred, average='macro'))

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vaadvx@example.org

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97af276cddd454d04688a65818344774a424dc5e

/sourcecode/old/ImageColorSort_nonlocal.py

9ed9b1290d5a44a377561e69145014e8994406ca

[]

no_license

brandonhudavid/ImageColorSort

9c3d70160d905b150e4655ae69de80f4ddfb0c55

d77a1e4bf9ef9f288ad4513273e93e9287002538

refs/heads/master

2021-09-03T21:33:31.757540

2018-01-12T05:25:15

114,446,849

0

null

2017-12-21T09:31:45

2017-12-16T08:49:50

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Python

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py

from PIL import Image from numpy import average, array, concatenate from numba import njit import colorsys import time #check runtime start_time = time.clock() # returns most used color in image def color_comp(): # input file name print("File name?") img = input("") # file name exists try: # initialize image data im = Image.open(img, 'r') color_dict = {} pixel_data = list(im.getdata()) num_pixels = len(pixel_data) for pixel in pixel_data: hsv = colorsys.rgb_to_hsv(*pixel) # add weight values to HSV keys in dictionary if hsv in color_dict: color_dict[hsv] += 1 else: color_dict[hsv] = 1 # file name does not exist except FileNotFoundError: return "Error: file <" + filename + "> not found" def color_in_img(img): # counters, corresponding to color names counter = [0, 0, 0, 0, 0, 0, 0, 0] colorname = ["red", "orange", "yellow", "green", "cyan", "blue", \ "purple", "pink"] #@njit def color_count(hue, weight): # place holder array, cannot use empty list [] nonlocal counter # concatenate a number corresponding to color if hue >= 346/360 or (hue >= 0 and hue <= 20/360): counter[0] += 1*weight if hue >= 11/360 and hue <= 50/360: counter[1] += 1*weight if hue >= 41/360 and hue <= 80/360: counter[2] += 1*weight if hue >= 61/360 and hue <= 169/360: counter[3] += 1*weight if hue >= 141/360 and hue <= 220/360: counter[4] += 1*weight if hue >= 201/360 and hue <= 280/360: counter[5] += 1*weight if hue >= 241/360 and hue <= 330/360: counter[6] += 1*weight if hue >= 321/360 and hue <= 355/360: counter[7] += 1*weight for pixel in color_dict: # if saturation is 0 OR value is 0, skip pixel if pixel[1] == 0 or pixel[2] == 0: continue color_count(pixel[0], color_dict[pixel]) # multiply increment by weight value corresponding to HSV key # value of highest counter max_count = max(counter) # index of counter max_index = counter.index(max_count) # color corresponding to highest counter color_most = colorname[max_index] return color_most + " is the most used color, composing " \ + str(int(round(max_count/num_pixels*100))) + "% of the image" return color_in_img(img) # select ImageColorSort mode def mode_select(): mode_dict = {"color comp": color_comp} # prints list of modes print("Select a mode.") for key in mode_dict: print(key) mode = input("") try: return mode_dict[mode]() # if mode inputted does not exist except KeyError: return "Error: <" + mode + "> not a valid mode" print(mode_select()) # print runtime print("Runtime: ", time.clock() - start_time, "seconds") # Runtime of phototest.jpg (1333 x 2000px): # 5.1s

[ "brandonhudavid@berkeley.edu" ]

brandonhudavid@berkeley.edu

a854db61b9675240ebd08373d1aff4271bf6c03d

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/ryu/app/Load_Balance.py

4ce4de9471a60d945d0b49d3902dbdb4448b7527

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permissive

rubiruchi/ryu-1

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refs/heads/master

2020-04-24T07:54:37.579916

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import logging import struct import math from operator import attrgetter from ryu.app.simple_monitor import SimpleMonitor from ryu.base import app_manager from ryu.controller import mac_to_port from ryu.controller import ofp_event from ryu.controller.handler import MAIN_DISPATCHER, CONFIG_DISPATCHER from ryu.controller.handler import set_ev_cls from ryu.ofproto import ofproto_v1_3 from ryu.lib import hub from ryu.lib.mac import haddr_to_bin from ryu.lib.packet import packet from ryu.lib.packet import ethernet from ryu.lib.packet import ipv4 from ryu.lib.packet import arp #from ryu.topology.api import get_switch,get_link TOR_LAYER = 0 AGGREGATION_LAYER = 1 CORE_LAYER = 2 class DynamicLoadSBalance(app_manager.RyuApp): OFP_VERSIONS = [ofproto_v1_3.OFP_VERSION] #_CONTEXTS = { # "monitor": SimpleMonitor # 'switches': switches.Switches, we can get many info from switches. #} _CONTEXTS = {"monitor": SimpleMonitor, "tracker": Tracker} def __init__(self, *args, **kwargs): super(DynamicLoadSBalance, self).__init__(*args, **kwargs) self.monitor = kwargs["monitor"] self.tracker = kwargs["tracker"] self.UPT = {} # UPT= {TOR:[[a1, a2],[c11, c12], [c21, c22]]} self.TOR_Table = {} # {tor_dpid,in_port):host_ip} self.AGGREGATION_Table = {} # {(agg_dpid,agg_port):(tor_dpid,tor_port)} self.CORE_Table = {} # {(core_dpid,core_port):(agg_dpid,agg_port)} self.paths = {} # the set of path self.pathlinks = {} # pathlinks : {(dpid1,dpid2):(port_no1,port_no2,bandwidth)} self.is_active = True self.threads = [] self.threads.extend([hub.spawn(self._get_stat)]) # self.up_path_list = [] # self.down_path_list = [] # self.global_path_list = [] # self.path = [] # the list of chosen path def _get_stat(self): while(self.is_active): self.pathlinks = self.monitor.get_link_dist() self.tor_list = self.monitor.get_tor_list() self.TOR_Table = self.monitor.get_access_table() self.UPT = self.monitor.get_UPT() self.AGGREGATION_Table, self.CORE_Table = self.monitor.convert(self.UPT) hub.sleep(1) def close(self): self.is_active = False hub.joinall(self.threads) @set_ev_cls(ofp_event.EventOFPSwitchFeatures, CONFIG_DISPATCHER) def switch_features_handler(self, ev): datapath = ev.msg.datapath ofproto = datapath.ofproto parser = datapath.ofproto_parser # install table-miss flow entry # # We specify NO BUFFER to max_len of the output action due to # OVS bug. At this moment, if we specify a lesser number, e.g., # 128, OVS will send Packet-In with invalid buffer_id and # truncated packet data. In that case, we cannot output packets # correctly. The bug has been fixed in OVS v2.1.0. match = parser.OFPMatch() actions = [parser.OFPActionOutput(ofproto.OFPP_CONTROLLER, ofproto.OFPCML_NO_BUFFER)] self.add_flow(datapath, 0, match, actions) def add_flow(self, datapath, priority, match, actions, buffer_id=None): ofproto = datapath.ofproto parser = datapath.ofproto_parser inst = [parser.OFPInstructionActions(ofproto.OFPIT_APPLY_ACTIONS, actions)] if buffer_id: mod = parser.OFPFlowMod(datapath=datapath, buffer_id=buffer_id, priority=priority, match=match, instructions=inst) else: mod = parser.OFPFlowMod(datapath=datapath, priority=priority, match=match, instructions=inst) datapath.send_msg(mod) # decide which layer need to access def setAccessLayer(self, srcEdgeSW, dstEdgeSW): if srcEdgeSW == dstEdgeSW: return TOR_LAYER elif set(self.findAggregationSwitch(srcEdgeSW)).intersection(self.findAggregationSwitch(dstEdgeSW)): return AGGREGATION_LAYER else: return CORE_LAYER ###############################findSwitch##################################### def findTorSwitch(self, host_ip): # get tor_dpid for key in self.TOR_Table.keys(): if self.TOR_Table[key] == host_ip: return key[0] #get agg_dpid def findAggregationSwitch(self,sw): #UPT= {TOR:[[a1, a2],[c11, c12], [c21, c22]]} agg_dpid = None if sw in self.UPT: while agg_dpid is None: # dangerous design. may be block forever. agg_dpid = self.UPT[sw][0] return agg_dpid ''' def findAggregationSwitch(self, sw): # UPT= {TOR:[[a1, a2],[c11, c12], [c21, c22]]} agg_dpid = self.UPT[sw][0] return agg_dpid ''' #get core_dpid def findCoreSwitch(self, sw): core_dpid = [] for key in self.CORE_Table.keys(): if sw == self.CORE_Table[key][0]: core_dpid.append(key[0]) return core_dpid ##############################searchPath########################### def findLinkbyDSLB(self, srcEdgeSW, dstEdgeSW): if srcEdgeSW == dstEdgeSW: return [srcEdgeSW] if (srcEdgeSW, dstEdgeSW) in self.paths: up_paths = self.paths[(srcEdgeSW, dstEdgeSW)][0] down_paths = self.paths[(srcEdgeSW, dstEdgeSW)][1] else: self.paths.setdefault((srcEdgeSW, dstEdgeSW), []) up_paths = self.getUpPath(srcEdgeSW, dstEdgeSW) down_paths = self.getDownPath(srcEdgeSW, dstEdgeSW, up_paths) self.paths[(srcEdgeSW, dstEdgeSW)] = [up_paths, down_paths] bu = self.getMinBandWidth(up_paths) bd = self.getMinBandWidth(down_paths) CV = [] ab = [] delta = [] for i in range(0, len(bu)): ab.append(float((bd[i]+bu[i])/2)) delta.append(float(math.sqrt((((bu[i]-ab[i])**2)+((bd[i]-ab[i])**2))/2))) CV.append(float(delta[i]/ab[i])) for i in range(0, len(CV)): if len(up_paths) == len(down_paths): path = list(up_paths[i]+down_paths[i]) if CV[i] == min(CV): return path def getMinBandWidth(self, links): min_bw = [] for i in links: bw = [] path = [] path.append((i[0], i[1])) if len(i) == 3: path.append((i[1], i[2])) for t in path: bw.append((self.pathlinks[t][2])) # bw=[bw1, bw2, bw3,...] min_bw.append(min(bw)) return min_bw def getUpPath(self, srcEdgeSW, dstEdgeSW): up_path_list = [] layer = self.setAccessLayer(srcEdgeSW, dstEdgeSW) if layer == 1: sw_set = list(set(self.findAggregationSwitch(srcEdgeSW)).intersection(self.findAggregationSwitch(dstEdgeSW))) for t in sw_set: up_path_list.append((srcEdgeSW, t)) if layer == 2: for i in self.findAggregationSwitch(srcEdgeSW): for key in self.findCoreSwitch(i): up_path_list.append((srcEdgeSW, i, key)) return up_path_list def getDownPath(self, srcEdgeSW, dstEdgeSW, up_path_list): down_path_list = [] accesslayer = self.setAccessLayer(srcEdgeSW, dstEdgeSW) if accesslayer == 2: for key in up_path_list: for t in self.findAggregationSwitch(dstEdgeSW): for i in self.findCoreSwitch(t): if i == key[-1]: down_path_list.append((key[-1], t, dstEdgeSW)) if accesslayer == 1: for key in up_path_list: for j in self.findAggregationSwitch(dstEdgeSW): if j == key[-1]: down_path_list.append((key[-1], dstEdgeSW)) return down_path_list def getGlobalPath(self): return self.paths @set_ev_cls(ofp_event.EventOFPPacketIn, MAIN_DISPATCHER) def _packet_in_handler(self, ev): msg = ev.msg datapath = msg.datapath ofproto = datapath.ofproto parser = datapath.ofproto_parser in_port = msg.match['in_port'] pkt = packet.Packet(msg.data) eth_type = pkt.get_protocols(ethernet.ethernet)[0].ethertype ip = pkt.get_protocols(ipv4.ipv4) if ip: ip_src = ip[0].src ip_dst = ip[0].dst srcEdgeSW = self.findTorSwitch(ip_src) dstEdgeSW = self.findTorSwitch(ip_dst) layer = self.setAccessLayer(srcEdgeSW, dstEdgeSW) cur_layer = 0 path = self.findLinkbyDSLB(srcEdgeSW, dstEdgeSW) path = sorted(set(path), key=path.index) # print path flow_info = (eth_type, ip_src, ip_dst, in_port) self.monitor.install_flow(path, flow_info, msg.buffer_id, msg.data)

[ "miles962464@gmail.com" ]

miles962464@gmail.com

693a576c4ad891b97da9443ff063d162a0d0495c

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/volunteer/volunteer/urls.py

05ae926e1fbacad2f8d52c6c8d97b3629a6b8eb7

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EngCoder-Hawraa/Voluteer-IRAQ-2

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refs/heads/master

2023-08-25T18:05:35.038479

2021-10-30T10:31:24

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"""volunteer 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.conf.urls.static import static from django.contrib import admin from django.urls import path, include from volunteer import settings from iraq import views from iraq.views import SearchIntitiesResultsView2 from django.contrib.auth import views as authviews from django.contrib.auth.views import LogoutView urlpatterns = [ path('admin/', admin.site.urls), path('', include('iraq.urls')), path('',views.home, name='home'), path('details/', views.details, name='details'), path('intities/', views.Intities, name='intities'), path('search_Intities2/', SearchIntitiesResultsView2.as_view(), name='search_Intities_results2'), path('about/', views.about, name='about'), path('register_type/', views.register_type, name='register_type'), path('register_intities',views.RegisterIntities, name='register_intities'), path('doLogin', views.doLogin, name='doLogin'), path('register_user', views.RegisterUser, name='register_user'), path('logout', LogoutView.as_view(template_name= "iraq/logout.html"), name='logout'), # path('oauth/', include('social_django.urls', namespace='social')), # # for Reset Password path('reset_password/' , authviews.PasswordResetView.as_view(template_name= "iraq/password_reset.html"), name="reset_password"), path('reset_password_sent/' , authviews.PasswordResetDoneView.as_view(template_name= "iraq/password_reset_sent.html"), name="password_reset_done"), path('reset/<uidb64>/<token>/' , authviews.PasswordResetConfirmView.as_view(template_name= "iraq/password_reset_form.html"), name="password_reset_confirm"), path('reset_password_complete/' , authviews.PasswordResetCompleteView.as_view(template_name= "iraq/password_reset_done.html"), name="password_reset_complete"), ]+static(settings.MEDIA_URL,document_root=settings.MEDIA_ROOT)+static(settings.STATIC_URL,document_root=settings.STATIC_ROOT)

[ "h.a.j.engineer@gmail.com" ]

h.a.j.engineer@gmail.com

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/src/controllers/__init__.py

a0a8e344f1e763aa609088de2ffda1ec1369c968

[ "Apache-2.0" ]

permissive

skylerberg/NamePending

c4db6070c7238691617b0a9ec2eba9cd9b9c15f7

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refs/heads/master

2020-03-16T14:19:04.350880

2018-05-26T20:46:40

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from . import challenge_controller # noqa from . import comments_controller # noqa from . import submission_controller # noqa from . import user_controller # noqa

[ "skylertheberg@gmail.com" ]

skylertheberg@gmail.com

0bec3d435c297af9880eb68c0f6ed5fe6defe59a

1c4cf62e121f30df39dc4c2aa7b552f946689f26

/python/functions/model_function_6.py

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[]

no_license

alixdamman/memento

e370a80c52f1801395c20f8ab3425b4b779eb8b2

0cfc231e79f96a016a76b7d286af7d59e4653f8f

refs/heads/master

2021-10-09T17:21:41.871836

2018-03-06T14:57:21

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2018-03-06T14:57:22

2017-12-09T11:48:53

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# ====== Default argument values ====== # # Exercise 6: add an argument with a default value to the function "projection" # # * add a boolean argument display with default value set to False # * before returning the result in function "projection", start the viewer if display is True # * change calls to function "projection" so that it displays the result before it returns the result of projection from larray import * # define constants FIRST_YEAR_OBS = 1991 FIRST_YEAR_PROJ = 2016 LAST_YEAR_PROJ = 2060 YEAR = Axis('year={}..{}'.format(FIRST_YEAR_OBS, LAST_YEAR_PROJ)) def projection(initial_pop, coef, display=False): """Compute projected population for year 2016 to 2060""" proj_pop = initial_pop.reindex("year", YEAR, fill_value=0) for year in YEAR[FIRST_YEAR_PROJ:]: proj_pop[year] = proj_pop[year - 1] * coef if display: view(proj_pop) return proj_pop def main(): # load input pop = read_csv("input/pop_region.csv") # start projection proj_pop1 = projection(pop, 1.01, True) # start projection with a new coefficient value proj_pop2 = projection(pop, coef=1.02, display=True) # start projection with a new coefficient value proj_pop3 = projection(coef=1.03, initial_pop=pop, display=True) # compare the projections compare(proj_pop1, proj_pop2, proj_pop3) # aggregate first projection proj_pop_gy = proj_pop1.sum_by('gender', 'year') # view output view(proj_pop_gy) main()

[ "ald@plan.be" ]

ald@plan.be

bbb837d0aac28477a37baa05d3dd3c36167bc5b7

8b59108f621e94935b3b72aae3c441e10cb64a1c

/create_uneeded_icons.py

cdb3dda6906313546c12ebd032e4aa2accfd9755

[]

no_license

CyberSys/CE_Python

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721ac005e215f1225fb3c99491b55dc48b19ab30

refs/heads/master

2022-01-13T08:04:08.558594

2019-07-22T17:05:46

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0

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from shutil import copyfile import os if __name__ == "__main__": uneeded_icons = [ "AssaultScope_48.png", "ATButtstockTS_48.png", "ATFrontsightTS_48.png", "ATHandguardARS_48.png", "ExtendedClip_48.png", "FlashlightAcc_48.png", "Ironsight_48.png", "NewSilencer_48.png", "NoAttachmentBarrel_48.png", "NoAttachmentBottom_48.png", "Scope12x_48.png", "ammo_12_gauge_pellet_48.png", "ammo_12_gauge_slug_48.png", "ammo_22_48.png", "ammo_223_48.png", "ammo_308_48.png", "ammo_357_48.png", "ammo_5_56x45_48.png", "ammo_7_62x51_48.png", "ammo_9mm_48.png", "ammo_acp_45_48.png", "Arrow_0000_48.png", "Arrow_000P_48.png", "Arrow_00R0_48.png", "Arrow_00RP_48.png", "Arrow_0B00_48.png", "Arrow_0B0P_48.png", "Arrow_0BR0_48.png", "Arrow_0BRP_48.png", "Arrow_F000_48.png", "Bolt_0000_48.png", "Bolt_000P_48.png", "Bolt_00R0_48.png", "Bolt_00RP_48.png", "Bolt_0B00_48.png", "Bolt_0B0P_48.png", "Bolt_0BR0_48.png", "Bolt_0BRP_48.png", "Bolt_F000_48.png", "ChemlightBlue_48.png", "ChemlightGreen_48.png", "ChemlightRed_48.png", "ChemlightWhite_48.png", "ChemlightYellow_48.png", "Flare_48", "Flashbang_48.png", "GrenadeBottle_48.png", "GrenadeMolotov_48.png", "GrenadeSmokeGreen_48.png", "GrenadeSmokeMagenta_48.png", "GrenadeSmokeRed_48.png", "GrenadeSmokeWhite_48.png", "GrenadeSmokeYellow_48.png", "Pipebomb_48.png", "animated_search_light_48.png", "entity_test_48.png", "entity_test_packed_48.png", "PlotSign_48.png", "powered_flood_light_48.png", "tire_single_48.png", "DieselGenerator_48.png", "WaterPurifictionTablets_48.png", "CampingTentBlue_48.png", "CampingTentBrown_48.png", "CampingTentGreen_48.png", "CampingTentOrange_48.png", "CampingTentPurple_48.png", "CampingTentRed_48.png", "CampingTentYellow_48.png", "PackedCampingTent_48.png", "PackedTrekkingTent_48.png", "PupTentBlue_48.png", "PupTentBrown_48.png", "PupTentGreen_48.png", "PupTentRed_48.png", "PupTentTan_48.png", "TrekkingTentBlue_48.png", "TrekkingTentBrown_48.png", "TrekkingTentGreen_48.png", "TrekkingTentOrange_48.png", "TrekkingTentPurple_48.png", "TrekkingTentRed_48.png", "TrekkingTentYellow_48.png", "TwoPersonTentBlue_48.png", "TwoPersonTentBrown_48.png", "TwoPersonTentGreen_48.png", "TwoPersonTentOrange_48.png", "TwoPersonTentPurple_48.png", "TwoPersonTentRed_48.png", "TwoPersonTentYellow_48.png", "FlashbangPickup_48.png", "Binoculars_48.png", "DebugPistol_48.png", "NoWeapon_48.png", "PickAndThrowWeapon_48.png", ] for x in uneeded_icons: copyfile( os.path.normpath( "D:/perforce/dev/GameSDK/Libs/UI/Inventory/item_images/no_icon_48.png" ), os.path.join("D:/perforce/dev/GameSDK/Libs/UI/Inventory/item_images", x), )

[ "chrissprance@gmail.com" ]

chrissprance@gmail.com